CN115470875A

CN115470875A - Intelligent server checking system

Info

Publication number: CN115470875A
Application number: CN202210934632.XA
Authority: CN
Inventors: 郭伟
Original assignee: Shanghai Handpay Information & Technology Co ltd
Current assignee: Shanghai Handpay Information & Technology Co ltd
Priority date: 2022-08-04
Filing date: 2022-08-04
Publication date: 2022-12-13

Abstract

The invention provides an intelligent server checking system, which relates to the technical field of server checking and comprises the following steps: automatically discovering a newly-built server and then acquiring basic data of the server; generating a two-dimensional code according to the basic data, sending the two-dimensional code to an inventory terminal, printing the two-dimensional code, pasting the two-dimensional code to a corresponding server, and storing the basic data and the associated two-dimensional code into a database; triggering and generating a corresponding checking work order according to an external checking instruction, sending the corresponding checking work order to a checking terminal, comparing server data with corresponding basic data in a database when receiving server data obtained by scanning a two-dimensional code fed back in the process that a checking person executes the checking work order, recording a checking date when the server data is consistent with the basic data, marking a corresponding server when the server data is inconsistent with the basic data, and sending an abnormal work order to the corresponding checking terminal for the checking person to check. The automatic checking device has the beneficial effects that the labor cost is greatly reduced, and the efficiency and the accuracy of checking personnel in checking are improved.

Description

Intelligent server checking system

Technical Field

The invention relates to the technical field of server checking, in particular to an intelligent server checking system.

Background

As IT personnel of an enterprise, IT is necessary to be responsible for daily operation and maintenance work of all hardware platforms such as servers and networks of a company, and IT is necessary to clearly know the status of each server, such as the status of resources such as a disk, a memory, a network, and a CPU, and to perform inspection, repair, and inventory regularly.

The existing server checking mode mainly depends on manual checking, so that IT (information technology) personnel spend more time on hardware checking in daily operation and maintenance, a part of workload is invisibly occupied, but the energy of the IT personnel is limited, and the existing server checking mode enables the IT personnel to really spend a few and few of highly available schemes in a company server architecture.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an intelligent server checking system, which comprises:

the server discovery module is used for acquiring basic data of a server after automatically discovering a newly built server;

the two-dimension code generating module is respectively connected with the server finding module, a database and at least one inventory terminal held by inventory personnel, and is used for generating a two-dimension code according to the basic data, sending the two-dimension code to the inventory terminal, printing the two-dimension code, pasting the two-dimension code to the corresponding server, and storing the basic data and the associated two-dimension code into the database;

the intelligent checking module is respectively connected with the database and the checking terminal and used for triggering and generating a corresponding checking work order according to an external checking instruction and sending the corresponding checking work order to the checking terminal, comparing the server data with the corresponding basic data in the database when receiving the server data obtained by scanning the two-dimensional code fed back in the checking work order process executed by the checking personnel, recording a checking date when the server data is consistent with the basic data, marking the server corresponding to the server when the server data is inconsistent with the basic data and sending an abnormal work order to the corresponding checking terminal so as to allow the checking personnel to check.

Preferably, a remote management IP address is pre-configured in the server on the new shelf;

the server discovery module comprises:

the first scanning unit is used for storing the remote management IP address into the database when the remote management IP address is scanned;

the second scanning unit is connected with the first scanning unit and used for collecting the brand model of the server after the remote management IP address is scanned and storing the brand model into the database;

and the third scanning unit is connected with the second scanning unit and used for collecting the attribute parameters of the server after the brand model is collected, and outputting the remote management IP address, the brand model and the attribute parameters as the basic data.

Preferably, the server discovery module further includes an off-shelf detection unit, configured to scan the survival status of each server that has been on-shelf every other preset time period, and generate a prompt message indicating that the corresponding server has been off-shelf when the survival statuses obtained by scanning for a preset number of consecutive times are all that the remote management port is not connected, so as to prompt the corresponding staff on duty to confirm.

Preferably, the server discovery module further includes a warehousing unit, configured to, when receiving a warehousing confirmation instruction input by the attendant according to the prompt information, warehouse the off-shelf server.

Preferably, the intelligent checking module includes:

the first reminding unit is used for triggering and generating first inventory reminding information according to the inventory date and a preset inventory period and sending the first inventory reminding information to the inventory terminal so as to remind the corresponding inventory personnel to start a new inventory period; and/or

And the second reminding unit is used for generating second counting reminding information and sending the second counting reminding information to the counting terminal when the counting personnel detects that the ratio of the number of the servers subjected to counting to the total number of the servers is greater than a preset value in the process of executing the counting work order, so as to remind the corresponding counting personnel of the existence of the servers which are not counted yet.

Preferably, the intelligent checking module comprises a omission reminding unit, and the omission reminding unit is used for generating a corresponding omission reminding and sending the omission reminding to the checking terminal when the server is not checked in two continuous checking periods, so that the checking personnel can confirm the corresponding state of the server.

Preferably, the intelligent checking module includes a checking card generating unit, configured to generate a checking card including all servers to be checked according to the checking instruction, and send the checking card to the checking terminal, so that the checking personnel can check the checking.

Preferably, the intelligent inventory module includes a visual interface, and is configured to display each of the servers on the visual interface in a form of an image identifier, and configure different colors for each of the image identifiers to represent an inventory status of each of the servers.

Preferably, the intelligent checking module comprises a log recording unit, which is used for recording the whole checking process and generating a corresponding log to be stored in the database.

Preferably, the attribute parameters include asset number, and/or serial number, and/or memory, and/or hard disk, and/or user, and/or department number, and/or server location, and/or callback address of intelligent inventory system.

The technical scheme has the following advantages or beneficial effects:

1) The server can be automatically found to be on shelf, the server data can be automatically collected and the two-dimensional code can be generated, and the automation of the input operation of a new server can be realized;

2) Server checking is carried out in a two-dimensional code scanning mode, so that the labor cost is greatly reduced, and the efficiency and the accuracy of checking personnel are improved;

3) If the condition that the server data contrast is inconsistent is found in the checking process, the alarm and the notification can be timely carried out, an abnormal work order is automatically generated and artificially processed, the working efficiency of IT personnel is effectively improved, and the relevant personnel can use the time in places which are more valuable to companies.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent server checking system according to a preferred embodiment of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present invention is not limited to the embodiment, and other embodiments may be included in the scope of the present invention as long as the gist of the present invention is satisfied.

In a preferred embodiment of the present invention, based on the above problems in the prior art, there is provided an intelligent server checking system, as shown in fig. 1, including:

the server discovery module 1 is used for automatically discovering a newly-built server and then acquiring basic data of the server;

the two-dimension code generating module 2 is respectively connected with the server finding module 1, a database 3 and at least one checking terminal 4 held by a checking person, and is used for generating a two-dimension code according to the basic data, sending the two-dimension code to the checking terminal, printing the two-dimension code, pasting the two-dimension code to a corresponding server, and storing the basic data and the associated two-dimension code into the database;

the intelligent checking module 5 is respectively connected with the database 3 and the checking terminal 4, and is used for triggering and generating a corresponding checking work order according to an external checking instruction, sending the checking work order to the checking terminal, comparing the server data with corresponding basic data in the database when receiving the server data obtained by scanning the two-dimensional code fed back in the process of executing the checking work order by the checking personnel, recording a checking date when the server data is consistent with the basic data, marking a corresponding server when the server data is inconsistent with the basic data, and sending an abnormal work order to the corresponding checking terminal 4 so as to be checked by the checking personnel.

Specifically, in this embodiment, before a new server is shelved, IT staff may configure corresponding basic data on the server in advance. The server discovery module 1 can automatically acquire basic data pre-configured by a server after automatically discovering a newly-built server in a real-time monitoring manner. The two-dimension code generating module 2 can generate a corresponding two-dimension code based on the basic data and send the two-dimension code to the checking terminal 4, and a checking person can receive the two-dimension code through the checking terminal 4, print the two-dimension code and then paste the two-dimension code to a corresponding server, so that the two-dimension code can be used in subsequent checking. IT can be understood that, in the using process of the server on the shelf, IT personnel can adjust the corresponding basic data according to actual requirements during daily maintenance, for example, the user of a certain server changes, or the memory needs to change, at this time, the server discovery module 1 is also used for monitoring the change of the basic data in real time and updating the basic data stored in the database 3, and the two-dimensional code generation module 2 regenerates the two-dimensional code based on the changed basic data and issues the two-dimensional code so that the inventory personnel can timely replace the two-dimensional code pasted on the corresponding server. It can be understood that the two-dimension code may not be replaced in time by the checking personnel in actual work, at this time, the two-dimension code pasted on the server is not the latest basic data of the server, and even if the pasted two-dimension code is not replaced in time, the two-dimension code can be found in the subsequent checking process due to the fact that the latest basic data and the two-dimension code are stored in the database, and the accuracy of the server data is guaranteed.

When the checking is needed, a mode of giving a checking instruction can be adopted to trigger the automatic generation of a corresponding checking work order so as to allow a checking person to execute the checking work. The checking personnel scans the two-dimensional code pasted on the server to be checked based on the checking work order to identify the server data contained in the pasted two-dimensional code and upload the identified server data to the intelligent checking module 5, the intelligent checking module 5 preferably matches in a database according to the serial number contained in the server data to obtain corresponding basic data, then compares the server data with the basic data obtained through matching one by one in each field, and when the comparison result shows that the server data is consistent with the basic data, the two-dimensional code on the server is up to date, and only the checking date needs to be recorded. IT will be appreciated that due to the large number of servers and the work schedule of IT personnel, the total length of server inventorying may be as long as two to three days, where the recorded inventorying date is preferably the time at which the inventorying was first triggered. And when the comparison result shows that the server data is inconsistent with the basic data, correspondingly issuing an abnormal work order for checking and processing by the checking personnel, if the checking personnel do not print the latest two-dimensional code and paste the latest two-dimensional code to the server in time, or other reasons are solved in time, and the operation stability of the server is ensured.

Preferably, the inventory terminal includes, but is not limited to, a mobile phone, a tablet computer, and other mobile terminals having a two-dimensional code scanning function, and the mobile terminal may be loaded with corresponding inventory software or perform inventory in a WeChat applet manner. The checking work order and the abnormal work order can be sent to the checking terminal through multiple ways including but not limited to a WeChat applet, an Aliyun telephone, a mail, a short message and the like, so that checking personnel can check the checking work order and the abnormal work order in time.

In the preferred embodiment of the invention, a remote management IP address is pre-configured in the newly-installed server;

the server discovery module 1 includes:

the first scanning unit 11 is used for storing the remote management IP address into a database when the remote management IP address is scanned;

the second scanning unit 12 is connected with the first scanning unit 11 and used for collecting the brand model of the server after the remote management IP address is scanned, and storing the brand model into the database;

and the third scanning unit 13 is connected to the second scanning unit 12, and is configured to collect attribute parameters of the server after the brand model is collected, and output the remote management IP address, the brand model, and the attribute parameters as basic data.

Specifically, in this embodiment, before the server is shelved, IT staff may configure a remote management IP address and other basic data on the server in advance, start the snmp ipmi service, and then shelve the server to access the network, and otherwise do not need to manually access the server. After a new server is put on shelf, the server discovery module 1 preferably scans the remote management IP address and a specific port (a default remote management port, preferably 43 ports, of each server) through a Socket protocol, discovers that a new remote management IP address comes in, and if the remote management port is alive, stores the remote management IP address and the remote management port in a database for subsequent data tracing. And then, further detecting the brand model of the server, scanning the remote management IP address, positioning the brand model of the server, storing the brand model in a database, and scanning other attribute parameters including but not limited to the CPU, the memory, the hard disk, the RAID card model, the size and the number of the server to obtain the basic data of the newly-built server.

According to the technical scheme, automatic discovery can be achieved according to the racking condition of the remote server in the process of racking the server, the brand and the model of the server are automatically identified according to the racking condition of the server, various hardware data of the server are automatically collected, a worker only needs to associate a user with a department to complete system logging work of the new server, meanwhile, the two-dimensional code is generated, the worker scans and prints a paper label through a two-dimensional code labeling machine, and the paper label is pasted on the server to complete logging operation of the new server.

In a preferred embodiment of the present invention, the server discovery module 1 further includes a shelf detection unit 14, configured to scan the survival status of each server that has been on shelf every other preset time period, and generate a prompt message indicating that the corresponding server has been off shelf when the survival statuses obtained by scanning for a preset number of consecutive times are all that the remote management port is not connected, so as to prompt the corresponding on-duty person to confirm.

In a preferred embodiment of the present invention, the server discovery module 1 further includes a warehousing unit 15, configured to, when receiving a warehousing confirmation instruction input by the attendant according to the prompt information, warehouse the off-shelf server.

Specifically, in this embodiment, the preset time period is preferably 30 minutes, and the prediction times are preferably three times, and may also be customized according to needs. The off-shelf detection unit 14 scans the survival state of the server every 30 minutes, if a remote management port of a certain server is found to be not communicated, the counter is set to 1, when the server is not communicated for three times (the counter is set to 3), a prompt message can be sent to the checking terminal, a corresponding attendant is called, a work order is generated to inform the attendant to process, the server is marked to be put in storage, the final confirmation of the attendant is waited, if the server is actually put off shelf, the attendant correspondingly gives a storage confirmation instruction to finish the storage operation of the server, although the server is put in storage, the two-dimensional code of the server is still in storage, and the server can be checked subsequently if the server needs to be checked.

In a preferred embodiment of the present invention, the intelligent checking module 5 includes:

the first reminding unit 51 is configured to generate a first inventory reminding message according to the inventory date and a preset inventory period, and send the first inventory reminding message to the inventory terminal 4 to remind a corresponding inventory person to start a new inventory period; and/or

And the second reminding unit 52 is configured to generate a second counting reminding message and send the second counting reminding message to the counting terminal 4 when detecting that the ratio of the number of the servers subjected to counting to the total number of the servers is greater than a preset value in the process of executing the counting work order by the counting staff, so as to remind the corresponding counting staff of the existence of the servers not yet counted.

Specifically, in this embodiment, the count date is used as the starting time, and the first count reminding information may be provided as required when the count period is about to arrive and/or the count period is reached. The above preset value may be 90%. In the actual inventory process, possibly due to the influence of external factors, the condition that partial servers skip inventory first exists, in order to avoid that the partial servers skipping inventory miss inventory, when the inventory progress is greater than 90% of the whole progress, the reminding function of the server which is not inventory is triggered, so that second inventory reminding information is generated to remind the server which is not inventory. Preferably, when the staff completes the inventory, a command for completing the inventory can be given, and the reminders disappear, and simultaneously, a report generated according to the inventory result is triggered and sent to the department leader.

In a preferred embodiment of the present invention, the intelligent checking module 5 includes a omission-reminding unit 53, configured to generate a corresponding omission-reminding and send the omission-reminding to the checking terminal 4 when the existing server is not checked in two consecutive checking periods, so that the checking staff can confirm the state of the corresponding server.

In the preferred embodiment of the present invention, the intelligent checking module 5 includes a checking card generating unit 54, configured to generate a checking card including all servers to be checked according to the checking instruction, and send the checking card to the checking terminal, so that the checking personnel can check the checking.

Specifically, in this embodiment, in order to facilitate the checking personnel to perform the checking work, when starting the checking, a corresponding checking card is preferably generated, and the checking card may be printed as the two-dimensional code, so that the checking personnel may perform checking and recording while checking, including but not limited to completing hooking on a paper checking card when the corresponding server performs the checking.

In a preferred embodiment of the present invention, the intelligent inventory module 5 includes a visual interface 55, configured to display the servers on the visual interface in the form of image identifiers, and configure different colors for the image identifiers to represent inventory statuses of the servers.

Specifically, in this embodiment, by providing the visual interface 55, the checking state of the server by the checking personnel can be visually displayed, and the checking efficiency is greatly improved in the whole process. More specifically, as long as all servers in the inventory system generate a fixed small square with an asset number as a name and display the fixed small square on the visual interface 55 as an image identifier of the server, so that a square matrix composed of small squares of all servers is formed on the visual interface, in the case of non-inventory, the square matrix is gray, after one inventory is finished, the square matrix becomes green, when an inventory worker clicks to start inventory, all small squares on the square matrix become gray, the state of non-inventory is initialized, then the micro-message applet code scanning succeeds, the corresponding small square becomes green, if an abnormality occurs in asset scanning of a certain server, the small square corresponding to the server becomes red, after the inventory is finished, if there are assets which are not inventory, gray is displayed on the visual interface for the asset, and the inventory worker can find and process the assets in time.

In the preferred embodiment of the present invention, the intelligent checking module 5 comprises a log recording unit 56 for recording the whole checking process and generating a corresponding log to be stored in the database 3.

In a preferred embodiment of the invention, the attribute parameters comprise asset number, and/or serial number, and/or memory, and/or hard disk, and/or user, and/or department number, and/or server location, and/or callback address of the intelligent inventory system.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made without departing from the spirit and scope of the invention.

Claims

1. A server intelligent inventory system, comprising:

the two-dimension code generating module is respectively connected with the server finding module, a database and at least one checking terminal held by a checking person, and is used for generating a two-dimension code according to the basic data, sending the two-dimension code to the checking terminal, printing the two-dimension code, pasting the two-dimension code to the corresponding server, and storing the basic data and the associated two-dimension code into the database;

2. The server intelligent inventory system as claimed in claim 1, wherein a remote management IP address is pre-configured in the server of the new shelf;

the server discovery module comprises:

3. The server intelligent inventory system of claim 2, wherein the server discovery module further includes an off-shelf detection unit, configured to scan the survival status of each server that has been on-shelf every other preset time period, and generate a prompt message indicating that the corresponding server has been off-shelf when the survival statuses obtained by consecutive scanning for a preset number of times are all remote management ports are not connected, so as to prompt the corresponding attendant to confirm.

4. The server intelligent inventory system as claimed in claim 3, wherein the server discovery module further comprises a warehousing unit for warehousing the servers which have been off-shelf when receiving a warehousing confirmation instruction input by the attendant according to the prompt information.

5. The server intelligent inventory system of claim 1, wherein the intelligent inventory module comprises:

6. The server intelligent checking system according to claim 5, wherein the intelligent checking module includes a missing reminding unit, and is configured to generate a corresponding missing reminder and send the missing reminder to the checking terminal when the server is not checked in two consecutive checking periods, so that the checking staff can confirm the state of the corresponding server.

7. The server intelligent checking system according to claim 1, wherein the intelligent checking module includes a checking card generating unit, configured to generate a checking card including all servers to be checked according to the checking instruction, and send the checking card to the checking terminal, so that the checking person can check the checking.

8. The server intelligent inventory system of claim 1, wherein the intelligent inventory module includes a visual interface for displaying each of the servers as an image identifier on the visual interface, and configuring different colors for each of the image identifiers to represent the inventory status of each of the servers.

9. The server intelligent checking system according to claim 1, wherein the intelligent checking module comprises a log recording unit for recording the whole checking process and generating a corresponding log to be stored in the database.

10. The server intelligent inventory system of claim 2, wherein the attribute parameters include an asset number, and/or a serial number, and/or a memory, and/or a hard disk, and/or a user, and/or a department number, and/or a server location, and/or a callback address of the intelligent inventory system.