CN112907049A - Data processing method, processor and information system - Google Patents

Abstract

The invention discloses a data processing method, a processor and an information system, which adopt a three-layer framework consisting of a WEB server, an AP server and a DB server to carry out research and audit, automatically draw a physical deployment drawing and automatically generate a first research report in the research and audit process, and store the physical deployment drawing and the first research report in the DB server, when the interface type is a WEB interface type, a user side interacts with data in the DB server through the WEB server, and when the interface type is an API interface type, the user side interacts with the data in the DB server through the AP server. By the scheme, in the process of research and audit, the physical deployment diagram is automatically drawn and the first research report is automatically generated, so that the online unified view is realized, and the consistency of data is ensured. In addition, the process of research and verification can be completely online, so that the labor links are reduced, the communication cost is reduced, and the communication efficiency and the verification efficiency are improved.

Description

Data processing method, processor and information system

Technical Field

The present invention relates to the field of data processing technologies, and in particular, to a data processing method, a processor, and an information system.

Background

The infrastructure of the information system includes computer servers, networks, storage, computer software, computer room environments, security devices, and the like. In order to realize management automation of information system infrastructure, the management and control of architecture, resource management, delivery management, capacity management, business management and the like are integrated, the quality and efficiency of the management and control of the information system infrastructure are improved, and research and audit on the information system infrastructure are required. The research refers to the comprehensive evaluation of the technical feasibility and economic rationality of various projects.

The exploratory research of the infrastructure of the existing information system is realized by adopting an offline communication mode, and the offline communication mode has high communication cost and low efficiency because all information is not online and manpower links are more. The existing information system infrastructure is audited in a manual PPT reporting mode, and because the auditing opinions are filled in the PPT in the manual PPT reporting mode, when the number of PPTs is large, the filling workload is large, and thus the auditing efficiency is low.

Therefore, the mode of exploratory research and audit of the infrastructure of the existing information system causes high communication cost and low communication efficiency and audit efficiency.

Disclosure of Invention

In view of this, the invention discloses a data processing method, a processor and an information system, which can enable all processes of research and audit to be online, thereby reducing manpower links, reducing communication cost and improving communication efficiency and audit efficiency.

In order to achieve the purpose, the technical scheme is as follows:

the invention discloses a data processing method in a first aspect, which comprises the following steps:

performing resource application operation on the acquired resource requirement of the user side to obtain resource application information;

if the resource application information meets the minimum resource configuration in a preset high-availability model, obtaining first exploitable application information;

generating a first physical deployment map based on the first applicable information;

auditing the first application information which can be researched through a first preset auditing process to obtain a first auditing result;

generating a first research report based on the first physical deployment diagram and the first examination result and storing the first research report in a DB server;

and in the process of data interaction between the DB server and the user side, enabling the user side to interact with a first research report in the DB server through a server corresponding to an interface type, wherein the server is a WEB server or an AP server.

Preferably, the interacting the user end with the first research report in the DB server through the server corresponding to the interface type includes:

determining the type of an interface used by the user side;

when the interface type is a WEB interface type, determining that a server corresponding to the WEB interface type is a WEB server, and enabling the user side to interact with the first research report in the DB server through the WEB server;

and when the interface type is the API interface type, determining that the server corresponding to the API interface type is the AP server, and enabling the user side to interact with the first research report in the DB server through the AP server.

Preferably, the method further comprises the following steps:

if the resource application information does not meet the minimum resource configuration in the preset high-availability model, calculating the resource application information according to a preset capacity calculation formula to obtain second exploitable application information;

generating a second physical deployment map based on the second applicable information;

auditing the second exploitable application information through a second preset auditing process to obtain a second auditing result;

generating a second research report based on the second physical deployment drawing and the second examination result and storing the second research report in the DB server;

and in the process of data interaction between the DB server and the user side, enabling the user side to interact with a second research report in the DB server through a server corresponding to the interface type.

Preferably, the method further comprises the following steps:

and authenticating the user side, and configuring the personnel organization structure of the authenticated user side and distributing the authority of personnel.

Preferably, the method further comprises the following steps:

and when the resource demand does not meet the preset resource condition, generating a resource purchasing demand and updating a resource purchasing view.

Preferably, the method further comprises the following steps:

deriving the first research report and/or the second research report.

A second aspect of the present invention discloses a processor, comprising:

the first acquisition unit is used for carrying out resource application operation on the acquired resource requirements of the user side to obtain resource application information;

the second obtaining unit is used for obtaining first exploitable application information if the resource application information meets the minimum resource configuration in a preset high availability model;

the first generation unit is used for generating a first physical deployment drawing based on the first applicable information;

a third obtaining unit, configured to perform an audit operation on the first exploitable application information through a first preset audit process to obtain a first audit result;

the second generating unit is used for generating a first research report based on the first physical deployment diagram and the first examination result and storing the first research report in the DB server;

and the first interaction unit is used for enabling the user side to interact with the first research report in the DB server through a server corresponding to the interface type in the process of data interaction between the DB server and the user side, wherein the server is a WEB server or an AP server.

Preferably, the first interaction unit, which enables the user end to interact with the first research report in the DB server through the server corresponding to the interface type, includes:

the determining module is used for determining the interface type used by the user side;

the first interaction module is used for determining that a server corresponding to the WEB interface type is a WEB server when the interface type is the WEB interface type, so that the user side interacts with the first exploratable report in the DB server through the WEB server;

and the second interaction module is used for determining that the server corresponding to the API interface type is the AP server when the interface type is the API interface type, so that the user side interacts with the first research report in the DB server through the AP server.

Preferably, the method further comprises the following steps:

the calculation unit is used for calculating the resource application information according to a preset capacity calculation formula to obtain second exploitable application information if the resource application information does not meet the minimum resource configuration in the preset high availability model;

a third generating unit, configured to generate a second physical deployment map based on the second applicable information;

the fourth obtaining unit is used for carrying out auditing operation on the second exploitable application information through a second preset auditing process to obtain a second auditing result;

the fourth generating unit is used for generating a second research report based on the second physical deployment diagram and the second examination result and storing the second research report in the DB server;

and the second interaction unit is used for enabling the user side to interact with a second research report in the DB server through a server corresponding to the interface type in the process of data interaction between the DB server and the user side.

The third aspect of the present invention discloses an information system, which includes the processor, the DB server, the WEB server, and the AP server of any one of the second aspects;

the DB server is used for storing the first research report and/or the second research report generated by the processor;

the WEB server is used for providing the first research report and/or the second research report in the DB server for a user side of a WEB interface;

the AP server is used for providing the first research report and/or the second research report in the DB server for a user side of an API interface.

According to the technical scheme, the three-layer architecture formed by the WEB server, the AP server and the DB server is adopted for research and audit, the physical deployment diagram is automatically drawn in the research and audit process, the first research report is automatically generated, and the physical deployment diagram and the first research report are stored in the DB server. By the scheme, in the process of research and audit, the physical deployment diagram is automatically drawn and the first research report is automatically generated, so that the online unified view is realized, and the consistency of data is ensured. In addition, the process of research and verification can be completely online, so that the labor links are reduced, the communication cost is reduced, and the communication efficiency and the verification efficiency are improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a block diagram of a data processing system according to an embodiment of the present invention;

FIG. 2 is a flow chart illustrating a data processing method according to an embodiment of the present invention;

FIG. 3 is a schematic flowchart illustrating an interaction between a client and a first exploratory report in a DB server via a server corresponding to an interface type according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a processor according to an embodiment of the present invention.

Detailed Description

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In this application, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

As can be seen from the background art, the mode of exploratory research and audit of the infrastructure of the existing information system results in high communication cost and low communication efficiency and audit efficiency.

In order to solve the problem, the embodiment of the invention discloses a data processing method, a processor and an information system, which realize online unified view and ensure the consistency of data. In addition, the process of research and verification can be completely online, so that the labor links are reduced, the communication cost is reduced, and the communication efficiency and the verification efficiency are improved. The specific implementation is specifically illustrated by the following examples.

As shown in fig. 1, an architecture diagram of a data processing system disclosed in the embodiment of the present invention includes a user terminal 11 and an information system 12, where the information system 12 includes a processor 13, a plurality of WEB servers 14, a plurality of DB servers 15, and a plurality of AP servers 16.

The information system 12 is constructed by adopting a three-layer architecture of a WEB server 14, a DB server 15 and an AP server 16.

The processor 13 authenticates the user end 11, and configures the personnel organization structure of the authenticated user end 11 and allocates the authority of the personnel.

The processor 13 performs resource application operation on the acquired resource requirement of the user terminal 11 to obtain resource application information.

The processor 13 determines whether the resource application information satisfies a minimum resource configuration in the preset high availability model, and if the resource application information satisfies the minimum resource configuration in the preset high availability model, the execution process of the processor 13 is as follows:

the processor 13 obtains the first applicable information and generates a first physical deployment map based on the first applicable information.

The processor 13 performs an audit operation on the first exploitable application information through a first preset audit process to obtain a first audit result.

The processor 13 generates a first research report based on the first physical deployment diagram and the first review result, and stores the first research report in the DB server 15.

The processor 13 makes the user end 11 interact with the first research report in the DB server 15 through the server corresponding to the interface type during the data interaction between the DB server 15 and the user end 11.

When the interface type is the WEB interface type, the processor 13 determines that the server corresponding to the WEB interface type is the WEB server 14, so that the user side 11 interacts with the first research report in the DB server 15 through the WEB server 14.

When the interface type is the API interface type, the processor 13 determines that the server corresponding to the API interface type is the AP server 16, and enables the user terminal 11 to interact with the first research report in the DB server 15 through the AP server 16.

And a DB server 15 for storing the first research report and/or the second research report generated by the processor 13.

And a WEB server 14 for providing the first research report and/or the second research report in the DB server 15 to the user terminal 11 of the WEB interface.

And the AP server 16 is used for providing the first research report and/or the second research report in the DB server 15 for the client terminal 11 of the API interface.

If the resource application information does not satisfy the minimum resource configuration in the preset high availability model, the execution process of the processor 13 is as follows:

the processor 13 calculates the resource application information according to a preset capacity calculation formula to obtain second applicable application information.

The processor 13 generates a second physical deployment map based on the second applicable information.

The processor 13 performs an audit operation on the second exploitable application information through a second preset audit process to obtain a second audit result.

The processor 13 generates a second research report based on the second physical deployment diagram and the second review result, and stores the second research report in the DB server 15.

When the resource requirement does not satisfy the preset resource condition, the processor 13 generates a resource procurement requirement and updates the resource procurement view.

The processor 13 derives the first investigatable report and/or the second investigatable report.

The information system 12 provides a fuzzy retrieval function, an accurate retrieval function and a report function, and performs data presentation.

Information system 12 interfaces with systems for architectural views, resource management and delivery, capacity management, business management, non-financial assets, etc., and integrates the infrastructure work related content of information system 12.

Information system 12 provides an API interface through which data services are provided for the associated system.

The association system comprises a non-financial asset system, an agile delivery system, an architecture view system, an ITM system and the like.

The user terminal 11 accesses the information system through a browser (WEB interface) or an API interface, and performs data interaction with other systems (e.g., non-financial systems, agile delivery systems, etc.) through the API interface.

In the embodiment of the invention, a three-layer architecture consisting of a WEB server, an AP server and a DB server is adopted for research and audit, and in the process of research and audit, a physical deployment diagram is automatically drawn and a first research report is automatically generated, so that an online unified view is realized, and the consistency of data is ensured. In addition, the process of research and verification can be completely online, so that the labor links are reduced, the communication cost is reduced, and the communication efficiency and the verification efficiency are improved.

As shown in fig. 2, which is a schematic flow chart of a data processing method disclosed in the embodiment of the present invention, the data processing method is executed under the architecture of the data processing system in fig. 1 in the above embodiment, and the data processing method mainly includes the following steps:

step S201: and carrying out resource application operation on the acquired resource requirements of the user side to obtain resource application information.

In step S201, when resource requirements of a server, a storage, a network, and the like are applied online, relevant requirement information is filled according to a deployment scheme, that is, according to a high availability model and an architecture diagram, a resource requirement is calculated according to a resource management standard formula, or a capacity system is called, and the resource requirement is evaluated according to a real situation of a production system.

Step S202: and judging whether the resource application information meets the minimum resource configuration in the preset high-availability model, if so, executing the step S203, and if not, executing the step S208.

In step S202, when the resource application operation is performed, a high-availability model is selected, architecture management and control are implemented, and resource application information is managed on the line.

And if the resource application information is determined to meet the minimum resource configuration in the preset high-availability model, obtaining first exploitable application information, and if the resource application information is determined not to meet the minimum resource configuration in the preset high-availability model, calculating the resource application information through a preset capacity calculation formula to obtain second exploitable application information.

To facilitate understanding the process of the resource application information satisfying the minimum resource configuration in the preset high availability model, the following example is given:

for example, the minimum resource configuration in the preset high availability model is 300G, and if the storage capacity of the resource application information is 300G, the processor determines that the resource application information meets the minimum resource configuration in the preset high availability model.

Step S203: the first applicable information is obtained.

In step S203, the first applicable information includes information such as resource estimation result, location, usage, delivery time, and the like.

Step S204: a first physical deployment map is generated based on the first applicable information.

In step S204, a first physical deployment diagram is automatically generated according to the first exploitable application information, and the first physical deployment diagram is marked with the existing resource requirement and resource application information by using different colors.

And automatically generating the first physical deployment diagram, so that the resource application information is consistent with the data information of the first physical deployment diagram, the architecture is upgraded consistently, and the first physical deployment diagram is digitalized, thereby improving the working efficiency.

Step S205: and auditing the first exploitable application information through a first preset auditing process to obtain a first auditing result.

In step S205, the first preset audit process includes applying a first-leading and second-place audit, a related second-place audit, a planning second-place audit, a research-meeting audit, and the like.

The first audit result comprises an architecture audit result, a resource audit result, a delivery audit result and the like.

And (4) auditing the operation line, and auditing the first exploitable application information through a preset auditing process, namely a first preset auditing process, hooking and other operation modes, so that the auditing work is simplified.

The content of the first preset auditing process is set by a technician according to an actual situation, and the invention is not particularly limited.

Step S206: and generating a first research report based on the first physical deployment diagram and the first examination result, and storing the first research report in the DB server.

In step S206, a first research report is automatically generated according to the online application material, the first physical deployment diagram, and the first review result, so as to ensure consistency between data of the information system and data of the first research report, and improve work efficiency and work quality.

The format of the first research report may be PDF format, or JPG format, etc., and the specific format of the first research report is set according to actual situations, which is not limited in the present invention.

Step S207: and in the process of data interaction between the DB server and the user side, the user side interacts with the first research report in the DB server through the server corresponding to the interface type, and the server is a WEB server or an AP server.

In step S207, an information system is constructed by using a three-tier architecture of a WEB server, a DB server, and an AP server, data such as a first exploitable report is centrally stored in the DB server, and a user side accesses the information system by using a WEB interface type or an API interface type, that is, interacts with the first exploitable report in the DB server.

The WEB server and the AP server adopt a high-availability design in a cluster mode, and the DB server adopts an Oracle Rac technology to realize the high-availability design of the database. The usability of the information system is ensured by the highly available design of the WEB server, the DB server, and the AP server.

The number of the WEB server, the AP server, and the DB server may be plural.

The interface types include a WEB interface type and an API interface type.

Step S208: and calculating the resource application information according to a preset capacity calculation formula to obtain second exploitable application information.

In step S208, the second applicable information includes information such as resource estimation result, location, usage, delivery time, etc.

For the database space, a preset capacity calculation formula is calculated according to each record of each table space in the database, bytes in each record and the like. For a file system, a preset capacity calculation formula is calculated according to the size of each log or data file.

The specific algorithm of the capacity calculation formula is as follows:

new storage capacity (month growth amount X month + current data amount) -currently allocated capacity

Wherein, X month is the data storage life, and the value range of X is an integer greater than or equal to 1.

The preset capacity calculation formula may be a capacity calculation formula for planning nodes according to data capacity, a capacity calculation formula for planning the number of nodes according to write speed, a capacity calculation formula for planning the number of nodes according to disk capacity, a capacity calculation formula for planning the number of nodes according to write speed, a capacity calculation formula for planning the number of nodes according to cache data amount, and the like, and the determination of the specific preset capacity calculation formula is set by a technician according to actual conditions, which is not specifically limited in the present invention.

For the convenience of understanding, the process of calculating the resource application information according to the preset capacity calculation formula to obtain the second exploitable application information is described here by way of example:

for example, if the minimum resource configuration in the preset high availability model is 500G, and the storage capacity of the resource application information does not satisfy the minimum resource configuration 500G in the preset high availability model, the storage capacity of the resource application information is calculated according to a preset capacity calculation formula to obtain the storage capacity required by the resource application information as 1000G, and the second exploitable application information of the storage capacity resource of 1000G is allocated to the resource application information.

Step S209: and generating a second physical deployment map based on the second applicable information.

In step S209, a second physical deployment map is automatically generated according to the second exploitable application information, and the second physical deployment map is marked with the existing resource requirement and resource application information by using different colors.

The second applicable information includes resource estimation results, location, usage, delivery time, etc.

And automatically generating a second physical deployment diagram, so that the data information of the resource application and the second physical deployment diagram are consistent, and improving the working efficiency through the digitization of the second physical deployment diagram.

Step S210: and auditing the second exploitable application information through a second preset auditing process to obtain a second auditing result.

In step S210, the second preset audit process includes application of first-leading and second-place audit, related second-place audit, planning second-place audit, and exploitable meeting audit.

The second audit result comprises a framework audit result, a resource audit result, a delivery audit result and the like.

And (4) auditing operation line upgrading, and simplifying auditing work through a preset auditing process, namely a second preset auditing process, a hooking mode and the like.

The second preset auditing process is set by a technician according to actual conditions, and the invention is not particularly limited.

Step S211: and generating a second research report based on the second physical deployment drawing and the second examination result, and storing the second research report in the DB server.

In step S211, a second research report is automatically generated according to the online application material, the second physical deployment diagram, and the second review result, so as to ensure consistency between data in the information system and the second research report data, and improve work efficiency and work quality.

The format of the second research report may be PDF format, or JPG format, etc., and the specific format of the first research report is set according to the actual situation, which is not limited in the present invention.

Step S212: and in the process of data interaction between the DB server and the user side, the user side interacts with the second research report in the DB server through the server corresponding to the interface type.

The processor derives either the first investigational report or the second investigational report.

In the embodiment of the invention, a three-layer architecture consisting of a WEB server, an AP server and a DB server is adopted for research and audit, and in the process of research and audit, a physical deployment diagram is automatically drawn and a first research report is automatically generated, so that an online unified view is realized, and the consistency of data is ensured. In addition, the process of research and verification can be completely online, so that the labor links are reduced, the communication cost is reduced, and the communication efficiency and the verification efficiency are improved.

As shown in fig. 3, in step S207, the process involved in the interaction between the client and the first research report in the DB server through the server corresponding to the interface type mainly includes the following steps:

step S301: and determining the type of the interface used by the user terminal.

In step S301, the interface types include a WEB interface type and an API interface type.

Step S302: and when the interface type is the WEB interface type, determining that the server corresponding to the WEB interface type is the WEB server, and enabling the user side to interact with the first research report in the DB server through the WEB server.

Step S303: and when the interface type is the API interface type, determining that the server corresponding to the API interface type is the AP server, and enabling the user side to interact with the first research report in the DB server through the AP server.

In the embodiment of the invention, the interface type used by the user side is determined, and the purpose that the root user side interacts with the data in the DB server through the server corresponding to the interface type is realized.

Optionally, the user side is authenticated, and the personnel organization structure of the authenticated user side is configured and the authority of the personnel is distributed.

In the embodiment of the invention, through the authentication of the user side, the personnel organization structure of the authenticated user side is configured, and the authority management of different dimensions of functional module menus, operations, data and the like is realized.

Optionally, when the resource requirement does not meet the preset resource condition, a resource purchasing requirement is generated and the resource purchasing view is updated.

Resource requirements such as server and storage are directly distributed from the inventory, and the procurement requirements are generated according to the resource requirements which are not met, so that the real-time updating of the resource view is realized.

In the embodiment of the invention, resource requirements such as servers and storage are directly distributed from the inventory, and when the resource requirements do not meet preset resource conditions, the resource view is updated in real time.

Based on the data processing method disclosed in the foregoing embodiment fig. 2, the embodiment of the present invention also correspondingly discloses a processor, as shown in fig. 4, the processor includes a first obtaining unit 401, a second obtaining unit 402, a first generating unit 403, a third obtaining unit 404, a second generating unit 405, and a first interacting unit 406.

A first obtaining unit 401, configured to perform a resource application operation on the obtained resource requirement of the user side, so as to obtain resource application information.

A second obtaining unit 402, configured to obtain the first exploitable application information if the resource application information meets a minimum resource configuration in a preset high availability model.

A first generating unit 403, configured to generate a first physical deployment map based on the first applicable information.

The third obtaining unit 404 is configured to perform an audit operation on the first exploitable application information through a first preset audit process to obtain a first audit result.

And a second generating unit 405, configured to generate a first research report based on the first physical deployment diagram and the first examination result, and store the first research report in the DB server.

The first interaction unit 406 is configured to, in a process of data interaction between the DB server and the user side, enable the user side to interact with the first research report in the DB server through a server corresponding to the interface type, where the server is a WEB server or an AP server.

Further, the first interaction unit 406 includes a determination module, a first interaction module, and a second interaction module.

And the determining module is used for determining the type of the interface used by the user side.

And the first interaction module is used for determining that the server corresponding to the WEB interface type is the WEB server when the interface type is the WEB interface type, so that the user side interacts with the first research report in the DB server through the WEB server.

And the second interaction module is used for determining the server corresponding to the API interface type as the AP server when the interface type is the API interface type, and enabling the user side to interact with the first research report in the DB server through the AP server.

Optionally, the system further includes a calculating unit, a third generating unit, a fourth obtaining unit, a fourth generating unit, and a second interacting unit.

And the calculating unit is used for calculating the resource application information according to a preset capacity calculation formula to obtain second applicable application information if the resource application information does not meet the minimum resource configuration in the preset high-availability model.

And the third generating unit is used for generating a second physical deployment drawing based on the second applicable information.

And the fourth obtaining unit is used for carrying out auditing operation on the second exploitable application information through a second preset auditing process to obtain a second auditing result.

And the fourth generating unit is used for generating a second research report based on the second physical deployment diagram and the second examination result and storing the second research report in the DB server.

And the second interaction unit is used for enabling the user side to interact with the second research report in the DB server through the server corresponding to the interface type in the process of data interaction between the DB server and the user side.

Optionally, an authentication unit is further included.

And the authentication unit is used for authenticating the user side, configuring the personnel organization structure of the authenticated user side and distributing the authority of the personnel.

Optionally, an updating unit is further included.

And the updating unit is used for generating the resource purchasing requirement and updating the resource purchasing view when the resource requirement does not meet the preset resource condition.

Optionally, a derivation unit is further included.

And the derivation unit is used for deriving the first research report and/or the second research report.

In the embodiment of the invention, a three-layer architecture consisting of a WEB server, an AP server and a DB server is adopted for research and audit, and in the process of research and audit, a physical deployment diagram is automatically drawn and a first research report is automatically generated, so that an online unified view is realized, and the consistency of data is ensured. In addition, the process of research and verification can be completely online, so that the labor links are reduced, the communication cost is reduced, and the communication efficiency and the verification efficiency are improved.

The embodiment of the invention also discloses an information system, which comprises the processor, the DB server, the WEB server and the AP server in the embodiment shown in the figure 4.

And the DB server is used for storing the first research report and/or the second research report generated by the processor.

And the WEB server is used for providing the first research report and/or the second research report in the DB server for the user side of the WEB interface.

And the AP server is used for providing the first research report and/or the second research report in the DB server for the user side of the API interface.

In the embodiment of the invention, a three-layer architecture consisting of a WEB server, an AP server and a DB server is adopted for research and audit, and in the process of research and audit, a physical deployment diagram is automatically drawn and a first research report is automatically generated, so that an online unified view is realized, and the consistency of data is ensured. In addition, the process of research and verification can be completely online, so that the labor links are reduced, the communication cost is reduced, and the communication efficiency and the verification efficiency are improved.

While, for purposes of simplicity of explanation, the foregoing method embodiments have been described as a series of acts or combination of acts, it will be appreciated by those skilled in the art that the present invention is not limited by the illustrated ordering of acts, as some steps may occur in other orders or concurrently with other steps in accordance with the invention. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required by the invention.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For the system-class embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The steps in the method of each embodiment of the invention can be sequentially adjusted, combined and deleted according to actual needs.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A method of data processing, the method comprising:

performing resource application operation on the acquired resource requirement of the user side to obtain resource application information;

if the resource application information meets the minimum resource configuration in a preset high-availability model, obtaining first exploitable application information;

generating a first physical deployment map based on the first applicable information;

auditing the first application information which can be researched through a first preset auditing process to obtain a first auditing result;

generating a first research report based on the first physical deployment diagram and the first examination result and storing the first research report in a DB server;

and in the process of data interaction between the DB server and the user side, enabling the user side to interact with a first research report in the DB server through a server corresponding to an interface type, wherein the server is a WEB server or an AP server.

2. The method of claim 1, wherein enabling the user end to interact with the first research report in the DB server through the server corresponding to the interface type comprises:

determining the type of an interface used by the user side;

when the interface type is a WEB interface type, determining that a server corresponding to the WEB interface type is a WEB server, and enabling the user side to interact with the first research report in the DB server through the WEB server;

and when the interface type is the API interface type, determining that the server corresponding to the API interface type is the AP server, and enabling the user side to interact with the first research report in the DB server through the AP server.

3. The method of claim 1, further comprising:

if the resource application information does not meet the minimum resource configuration in the preset high-availability model, calculating the resource application information according to a preset capacity calculation formula to obtain second exploitable application information;

generating a second physical deployment map based on the second applicable information;

auditing the second exploitable application information through a second preset auditing process to obtain a second auditing result;

generating a second research report based on the second physical deployment drawing and the second examination result and storing the second research report in the DB server;

and in the process of data interaction between the DB server and the user side, enabling the user side to interact with a second research report in the DB server through a server corresponding to the interface type.

4. The method of claim 1, further comprising:

and authenticating the user side, and configuring the personnel organization structure of the authenticated user side and distributing the authority of personnel.

5. The method of claim 1, further comprising:

and when the resource demand does not meet the preset resource condition, generating a resource purchasing demand and updating a resource purchasing view.

6. The method of claim 1 or 3, further comprising:

deriving the first research report and/or the second research report.

7. A processor, comprising:

the first acquisition unit is used for carrying out resource application operation on the acquired resource requirements of the user side to obtain resource application information;

the second obtaining unit is used for obtaining first exploitable application information if the resource application information meets the minimum resource configuration in a preset high availability model;

the first generation unit is used for generating a first physical deployment drawing based on the first applicable information;

a third obtaining unit, configured to perform an audit operation on the first exploitable application information through a first preset audit process to obtain a first audit result;

the second generating unit is used for generating a first research report based on the first physical deployment diagram and the first examination result and storing the first research report in the DB server;

and the first interaction unit is used for enabling the user side to interact with the first research report in the DB server through a server corresponding to the interface type in the process of data interaction between the DB server and the user side, wherein the server is a WEB server or an AP server.

8. The processor according to claim 7, wherein the first interaction unit for enabling the user terminal to interact with the first research report in the DB server through the server corresponding to the interface type comprises:

the determining module is used for determining the interface type used by the user side;

the first interaction module is used for determining that a server corresponding to the WEB interface type is a WEB server when the interface type is the WEB interface type, so that the user side interacts with the first exploratable report in the DB server through the WEB server;

and the second interaction module is used for determining that the server corresponding to the API interface type is the AP server when the interface type is the API interface type, so that the user side interacts with the first research report in the DB server through the AP server.

9. The processor of claim 7, further comprising:

the calculation unit is used for calculating the resource application information according to a preset capacity calculation formula to obtain second exploitable application information if the resource application information does not meet the minimum resource configuration in the preset high availability model;

a third generating unit, configured to generate a second physical deployment map based on the second applicable information;

the fourth obtaining unit is used for carrying out auditing operation on the second exploitable application information through a second preset auditing process to obtain a second auditing result;

the fourth generating unit is used for generating a second research report based on the second physical deployment diagram and the second examination result and storing the second research report in the DB server;

and the second interaction unit is used for enabling the user side to interact with a second research report in the DB server through a server corresponding to the interface type in the process of data interaction between the DB server and the user side.

10. An information system, characterized in that the system comprises the processor of any one of claims 7 to 9, the DB server, the WEB server, and the AP server;

the DB server is used for storing the first research report and/or the second research report generated by the processor;

the WEB server is used for providing the first research report and/or the second research report in the DB server for a user side of a WEB interface;

the AP server is used for providing the first research report and/or the second research report in the DB server for a user side of an API interface.

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