CN110266720B - Optimization working method for online management server asset data - Google Patents

Abstract

The invention provides an optimization working method for managing asset data of a server on line, which comprises the following steps: s1, asset management data is obtained through the first server, the asset management data is visual asset management service data, and the first server receives, analyzes and stores the information submitted by the second server; s2, the remote terminal calls an agent interface of the second server and actively initiates an asset data calling instruction to the second server; and S3, the second server is a plurality of host machines, the asset data are collected in real time, the fault information of the host machines is obtained, the fault information is checked, the fault host machines are closed, and the server capable of calling the asset data in real time is provided as the second server.

Description

Optimization working method for online management server asset data

Technical Field

The invention relates to the field of server data management, in particular to an optimization working method for managing asset data of a server on line.

Background

In actual business, it is often necessary to uniformly manage server assets of a company, where the managed information includes a machine room where the server is located, a machine type, an operating system type, an IP address, configuration information, a use environment, a use state, and the like, but statistical information of the server assets of most companies is unclear, which may cause such a situation that the server asset information is frequently changed, the asset information is recorded in a non-timely manner, and a uniform and reliable statistical manner does not exist.

However, the statistics of the information usually consumes a lot of time and labor, and meanwhile, the change of the asset information of the server is difficult to be synchronized into the record document in time, and in the cross-department statistics, the problem that the obtained information is inconsistent with the actual information due to untimely communication can be caused. There is a great need for those skilled in the art to solve the corresponding technical problems.

Disclosure of Invention

The invention aims to at least solve the technical problems in the prior art, and particularly creatively provides an optimization working method for online management server data assets.

In order to achieve the above object, the present invention provides an optimization working method for asset data of an online management server, comprising the following steps:

s1, asset management data is obtained through the first server, the asset management data is visual asset management service data, and the first server receives, analyzes and stores the information submitted by the second server;

s2, the remote terminal calls an agent interface of the second server and actively initiates an asset data calling instruction to the second server;

and S3, the second server is a plurality of host machines, the asset data are collected in real time, the fault information of the host machines is obtained, the fault information is checked, the fault host machines are closed, and the server capable of calling the asset data in real time is provided as the second server.

Preferably, the S1 includes:

every hour, the operation frequency of the agent deployed in the second server is changed according to the actual situation, a collection task is operated once, and meanwhile, the interface data of the first server is called to report the collected asset information to the first server;

the first server receives the information submitted by the second server, analyzes and stores the information, and meanwhile, an administrator can browse the asset information of the remote second server in real time through the asset visualization service provided by the first server.

Preferably, the S2 includes:

the remote terminal establishes and maintains an agent mapping table; storing the asset data in the called agent mapping table of the second server and the corresponding relation of the entity attribute of each agent mapping table currently existing in the asset data;

running an asset data management process on each second server by acquiring agent mapping tables of a plurality of second servers; the second server working process is used for maintaining the agent mapping table; the agent mapping table is specifically used for maintaining the asset data and the agent mapping table corresponding to the asset data; each agent mapping table corresponds to corresponding asset data.

Preferably, the S3 includes:

setting labels for a plurality of host machines, searching the host machines needing asset data in a keyword searching mode, performing fault analysis on the host machines, firstly binding a resource data collection process, updating an agent mapping table, adding the host machines of the resource data, updating the agent mapping table of the resource data from the host machines to the resource data, and adding 1 to a second server which is normally operated currently of a specific scene process in the updated agent mapping table; and acquiring an agent mapping table of the resource data, acquiring fault information contained in the resource data, and performing shutdown operation on a corresponding fault host.

Preferably, the S3 includes:

s3-1, the second server receives the query fault instruction sent by the first server, checks whether the second server is in fault, and makes a response to the first server, and the first server receives a response message returned by the corresponding second server;

s3-2, judging whether a fault server exists or not, if the fault server does not exist or the fault server exists and only the number of faults is larger than 1, sending a work stopping instruction to the fault server which is the first corresponding fault, and then stopping the corresponding servers in sequence;

s3-3, by setting the stopping sequence of the fault servers, the conflict of processing authorities of the second server when the first server sends an asset data calling instruction is avoided, the operation efficiency of the whole system is improved, and the system is ensured to operate stably and reliably;

s3-4, the first server sends broadcast notice to the second server, and requires the second server in the network to respond reply message; after receiving a broadcast notification of a second server, a first server can receive fault feedback information of the feedback notification to the second server, the second server receives fault feedback information responded by the first server, the second server can determine the feedback information received by the first server according to the sent ID instruction and the fault feedback information responded by the first server, the second server judges whether to send the fault feedback information to the first server, if the fault feedback information exists, a shutdown instruction is executed, and if the fault feedback information does not exist, an asset data calling instruction is executed;

s3-5, setting the ID and the network address of the second server acquired by the first server message; after the corresponding second server determines that the ID and the network address are sent to the first server, the ID and the network address of the second server are sequentially sent to the first server according to the sending time information, an asset data sending calling instruction is set to be sent to the second server, and a certain time is delayed until the first server receives the corresponding ID and the network address;

s3-6, in this case, S3-1 to S3-5 need to be executed again, because the first server may also fail during the operation, resulting in the downtime of the first server, or because the communication between the second server and the first server is interrupted due to the network delay.

Preferably, the S3 includes:

setting an encryption instruction for a communication process between a first server and a second server, and generating a decryption data index table by the second server; and calling corresponding asset data of the first server each time and sending different encryption instructions for the second server to select, and the second server carries out decryption operation according to the decrypted data index table and then sends the corresponding asset data.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

the invention is characterized in that the agent is arranged on the server needing to collect the asset information, and the asset information of the server is automatically reported by using the agent program, so that the asset information of all servers can be mastered in real time only by one agent service and one asset information visualization service.

The protection point is that the agent service and the asset information visualization service are utilized to grasp the asset information of a plurality of servers in real time. The method for automatically collecting and displaying the asset information of the server in real time utilizes an agent to actively report the asset information of a host, utilizes an asset visualization service to browse and manage the asset information in real time, and rapidly extracts and stores the data assets of the server, thereby preventing data packet loss and data recovery.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a first workflow diagram of the present invention;

FIG. 2 is a second workflow diagram of the present invention;

fig. 3 is an overall flow chart of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

As shown in fig. 1, method flow 1:

preparing two Linux servers which are respectively called an A server and a B server, wherein the AB servers can be communicated with each other through a network, the A server is defined as a first server, and the B server is defined as a second server;

the server A deploys an asset management system and is used for providing visual asset management service, and the server B deploys an asset collection agent and is used for automatically collecting host asset information service;

the agent deployed in the server B can change the operation frequency of the agent every hour according to the actual situation, operate a collection task once, and simultaneously call an interface of the first server to report the collected asset information to the first server;

the first server receives, analyzes and stores the information submitted by the second server, and meanwhile, an administrator can browse the asset information of the remote second server in real time through the asset visualization service provided by the first server;

the administrator can call the agent interface of the second server through the visual interface of the first server, and actively initiate a request for calling the asset information to the second server.

As shown in fig. 2, the method flow 2,

a plurality of Linux servers are respectively called an A server and a plurality of servers, and the A server and the servers can be in network intercommunication.

The A server deploys an asset management system for providing visualized asset management services. And the plurality of servers are respectively provided with asset collecting agents for automatically collecting host asset information.

The agent deployed in the servers runs the collection task once every hour (the running frequency of the agent can be changed according to the actual situation), and simultaneously calls the interface of the first server to report the collected asset information to the first server.

The first server receives the information submitted by the servers, analyzes and stores the information, and meanwhile, an administrator can browse the asset information of the remote servers in real time through the asset visualization service provided by the first server.

The administrator can call agent interfaces of the servers through a visual interface of the first server, and actively initiate requests for calling the asset information to the servers.

As shown in FIG. 3, the present invention provides an optimization of asset data of an online management server, comprising the steps of:

s1, asset management data is obtained through the first server, the asset management data is visual asset management service data, and the first server receives, analyzes and stores the information submitted by the second server;

s2, the remote terminal calls an agent interface of the second server and actively initiates an asset data calling instruction to the second server;

and S3, the second server is a plurality of host machines, the asset data are collected in real time, the fault information of the host machines is obtained, the fault information is checked, the fault host machines are closed, and the server capable of calling the asset data in real time is provided as the second server.

Preferably, the S1 includes:

every hour, the operation frequency of the agent deployed in the second server is changed according to the actual situation, a collection task is operated once, and meanwhile, the interface data of the first server is called to report the collected asset information to the first server;

the first server receives the information submitted by the second server, analyzes and stores the information, and meanwhile, an administrator can browse the asset information of the remote second server in real time through the asset visualization service provided by the first server.

Preferably, the S2 includes:

the remote terminal establishes and maintains an agent mapping table; storing the asset data in the called agent mapping table of the second server and the corresponding relation of the entity attribute of each agent mapping table currently existing in the asset data;

running an asset data management process on each second server by acquiring agent mapping tables of a plurality of second servers; the second server working process is used for maintaining the agent mapping table; the agent mapping table is specifically used for maintaining the asset data and the agent mapping table corresponding to the asset data; each agent mapping table corresponds to corresponding asset data.

Preferably, the S3 includes:

setting labels for a plurality of host machines, searching the host machines needing asset data in a keyword searching mode, performing fault analysis on the host machines, firstly binding a resource data collection process, updating an agent mapping table, adding the host machines of the resource data, updating the agent mapping table of the resource data from the host machines to the resource data, and adding 1 to a second server which is normally operated currently of a specific scene process in the updated agent mapping table; and acquiring an agent mapping table of the resource data, acquiring fault information contained in the resource data, and performing shutdown operation on a corresponding fault host.

Preferably, the S3 includes:

s3-1, the second server receives the query fault instruction sent by the first server, checks whether the second server is in fault, and makes a response to the first server, and the first server receives a response message returned by the corresponding second server;

s3-2, judging whether a fault server exists or not, if the fault server does not exist or the fault server exists and only the number of faults is larger than 1, sending a work stopping instruction to the fault server which is the first corresponding fault, and then stopping the corresponding servers in sequence;

s3-3, by setting the stopping sequence of the fault servers, the conflict of processing authorities of the second server when the first server sends an asset data calling instruction is avoided, the operation efficiency of the whole system is improved, and the system is ensured to operate stably and reliably;

s3-4, the first server sends broadcast notice to the second server, and requires the second server in the network to respond reply message; after receiving a broadcast notification of a second server, a first server can receive fault feedback information of the feedback notification to the second server, the second server receives fault feedback information responded by the first server, the second server can determine the feedback information received by the first server according to the sent ID instruction and the fault feedback information responded by the first server, the second server judges whether to send the fault feedback information to the first server, if the fault feedback information exists, a shutdown instruction is executed, and if the fault feedback information does not exist, an asset data calling instruction is executed;

s3-5, setting the ID and the network address of the second server acquired by the first server message; after the corresponding second server determines that the ID and the network address are sent to the first server, the ID and the network address of the second server are sequentially sent to the first server according to the sending time information, an asset data sending calling instruction is set to be sent to the second server, and a certain time is delayed until the first server receives the corresponding ID and the network address;

s3-6, in this case, S3-1 to S3-5 need to be executed again, because the first server may also fail during the operation, resulting in the downtime of the first server, or because the communication between the second server and the first server is interrupted due to the network delay.

Preferably, the S3 includes:

setting an encryption instruction for a communication process between a first server and a second server, and generating a decryption data index table by the second server; and calling corresponding asset data of the first server each time and sending different encryption instructions for the second server to select, and the second server carries out decryption operation according to the decrypted data index table and then sends the corresponding asset data.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (4)

1. An optimization working method for asset data of an online management server is characterized by comprising the following steps:

s1, asset management data is obtained through the first server, the asset management data is visual asset management service data, and the first server receives, analyzes and stores the information submitted by the second server;

s2, the remote terminal calls an agent interface of the second server and actively initiates an asset data calling instruction to the second server;

s3, the second server is a plurality of host machines, the asset data are collected in real time, fault information of the host machines is obtained, the fault information is checked, the fault host machines are closed, and the server capable of calling the asset data in real time is provided as the second server;

wherein the S1 includes:

every hour, the operation frequency of the agent deployed in the second server is changed according to the actual situation, a collection task is operated once, and meanwhile, the interface data of the first server is called to report the collected asset information to the first server;

the first server receives, analyzes and stores the information submitted by the second server, and meanwhile, an administrator can browse the asset information of the remote second server in real time through the asset visualization service provided by the first server;

the S2 includes:

the remote terminal establishes and maintains an agent mapping table; storing the asset data in the called agent mapping table of the second server and the corresponding relation of the entity attribute of each agent mapping table currently existing in the asset data;

running an asset data management process on each second server by acquiring agent mapping tables of a plurality of second servers; the second server working process is used for maintaining the agent mapping table; the agent mapping table is specifically used for maintaining the asset data and the agent mapping table corresponding to the asset data; each agent mapping table corresponds to corresponding asset data.

2. The method for optimizing work of asset data of online management server according to claim 1, wherein said S3 comprises:

setting labels for a plurality of host machines, searching the host machines needing asset data in a keyword searching mode, performing fault analysis on the host machines, firstly binding a resource data collection process, updating an agent mapping table, adding the host machines of the resource data, updating the agent mapping table of the resource data from the host machines to the resource data, and adding 1 to a second server which is normally operated currently of a specific scene process in the updated agent mapping table; and acquiring an agent mapping table of the resource data, acquiring fault information contained in the resource data, and performing shutdown operation on a corresponding fault host.

3. The method for optimizing work of asset data of online management server according to claim 1, wherein said S3 comprises:

s3-1, the second server receives the query fault instruction sent by the first server, checks whether the second server is in fault, and makes a response to the first server, and the first server receives a response message returned by the corresponding second server;

s3-2, judging whether a fault server exists or not, if the fault server does not exist or the fault server exists and only the number of faults is larger than 1, sending a work stopping instruction to the fault server which is the first corresponding fault, and then stopping the corresponding servers in sequence;

s3-3, by setting the stopping sequence of the fault servers, the conflict of processing authorities of the second server when the first server sends an asset data calling instruction is avoided, the operation efficiency of the whole system is improved, and the system is ensured to operate stably and reliably;

s3-4, the first server sends broadcast notice to the second server, and requires the second server in the network to respond reply message; after receiving a broadcast notification of a second server, a first server can receive fault feedback information of the feedback notification to the second server, the second server receives fault feedback information responded by the first server, the second server can determine the feedback information received by the first server according to the sent ID instruction and the fault feedback information responded by the first server, the second server judges whether to send the fault feedback information to the first server, if the fault feedback information exists, a shutdown instruction is executed, and if the fault feedback information does not exist, an asset data calling instruction is executed;

s3-5, setting the ID and the network address of the second server acquired by the first server message; after the corresponding second server determines that the ID and the network address are sent to the first server, the ID and the network address of the second server are sequentially sent to the first server according to the sending time information, an asset data sending calling instruction is set to be sent to the second server, and a certain time is delayed until the first server receives the corresponding ID and the network address;

s3-6, in this case, S3-1 to S3-5 need to be executed again, because the first server may also fail during the operation, resulting in the downtime of the first server, or because the communication between the second server and the first server is interrupted due to the network delay.

4. The method for optimizing work of asset data of online management server according to claim 1, wherein said S3 comprises:

setting an encryption instruction for a communication process between a first server and a second server, and generating a decryption data index table by the second server; and calling corresponding asset data of the first server each time and sending different encryption instructions for the second server to select, and the second server carries out decryption operation according to the decrypted data index table and then sends the corresponding asset data.

Images