CN113469647A - Enterprise information integration system and business processing method - Google Patents

Abstract

The invention belongs to the technical field of communication, and discloses an enterprise information integration system which comprises a console, a scheduling and arranging engine and a plurality of default plug-ins; the default plug-in comprises a first plug-in used for being in butt joint with an external system and obtaining service data and a logic plug-in used for carrying out logic judgment on the service data and generating an analysis result; the function of the default plug-in corresponds to each node of the business process one by one; the control console is used for arranging the execution sequence of the default plug-in according to the node sequence of the business process to obtain an arrangement file; the scheduling and arranging engine is used for calling each default plug-in sequence according to the arranging file to complete the business process; the invention solves a large amount of repeated work in the enterprise information integration process, reduces the technical development difficulty, improves the development efficiency, and simultaneously discloses a business processing method based on the system.

Description

Enterprise information integration system and business processing method

Technical Field

The invention relates to the technical field of communication, in particular to an enterprise information integration system and a business processing method.

Background

With the development of society, informatization, digitization and intellectualization are continuously developed, and the transformation requirements of various informationalized intellectualization in enterprises are endless. The number of various information, production and support systems is different due to various aspects such as development, informatization planning and the like in each enterprise, so that the enterprise pulls through data streams of various systems to form data sharing in the process of overall transformation, and the integration of experimental business process linkage of various systems is particularly difficult. If the enterprise information system integration is to be realized, the existing system is subjected to secondary development and then a new system is developed to be a unified portal, the improvement cost is high, the technical requirement is high, and certain influence is brought to the existing system or service in many times.

The lead-in time of various information systems in an enterprise is different, and the design concept, the technical architecture and the technical type selection adopted by the system are different in the degree of openness to the outside. The enterprise informatization integration needs to be compatible and adapted to the technical stacks and protocols of various systems, so that the difficulty is high, the technical requirements are high, and certain influence is brought to the existing systems or services in many times.

Disclosure of Invention

The invention aims to provide an enterprise information integration system and a business processing method, which solve the problem of a large amount of repeated work in the enterprise information integration process, reduce the technical development difficulty and improve the development efficiency.

In order to achieve the purpose, the invention provides the following technical scheme: an enterprise information integration system comprises a console, a scheduling and arranging engine and a plurality of default plug-ins; the default plug-in comprises a first plug-in used for being in butt joint with an external system and obtaining service data and a logic plug-in used for carrying out logic judgment on the service data and generating an analysis result;

the function of the default plug-in corresponds to each node of the business process one by one;

the control console is used for arranging the execution sequence of the default plug-in according to the node sequence of the business process to obtain an arrangement file;

the scheduling and arranging engine is used for calling each default plug-in sequence according to the arranging file to complete the business process, wherein any default plug-in adopts the business data of other upwards associated first plug-ins or the analysis result of the logic plug-in as the operation parameter to operate.

In the enterprise information integration system, the system further comprises an automatic triggering plug-in, and the automatic triggering plug-in is used for triggering the first plug-in or the logic plug-in which is associated downwards to run at regular time;

the first plug-in or the logic plug-in directly associated with the auto-triggering plug-in has pre-stored operating parameters.

In the above-mentioned enterprise information integration system, the first plug-in includes a data docking plug-in for docking with a database of an external system, and a request access plug-in for issuing a request to the external system.

In the above-mentioned enterprise information integration system, the logical judgment operation of the logical plug-in includes judgment of yes or no to the business data, splitting operation to the business data, or cyclic processing to the business data.

In the above enterprise information integration system, the method for arranging the default plug-in by the console specifically includes: and setting the interface parameters, the source of the operation parameters and the format of the output data of the default plug-in.

Meanwhile, the invention also discloses a service processing method based on any one of the systems, which comprises the following steps:

step 1: arranging the execution sequence of a plurality of default plug-ins in a control console according to the sequence of each node of a business process to obtain an arrangement file, wherein each node corresponds to one default plug-in;

step 2: and the scheduling and arranging engine calls each default plug-in sequence according to the arranging file to complete the business process.

In the above service processing method, the step 1 specifically includes:

substep 11: arranging the execution sequence of the plurality of default plug-ins according to the sequence of each node of the business process;

substep 12: and configuring interface parameters, operation parameter sources and output data formats for each default plug-in.

Compared with the prior art, the invention has the beneficial effects that:

the invention realizes online data integration by combining a plug-in mode with a scheduling execution engine, opens an interface service to the outside, and dynamically extracts or subscribes the capacity of other system data, thereby solving a large amount of repeated work in the enterprise information integration process, reducing the technical development difficulty and improving the development efficiency.

Drawings

FIGS. 1-3 are case screenshots of embodiment 1 of the present invention;

fig. 4 is a flowchart of embodiment 1 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.

Example 1

Referring to fig. 1-4, an enterprise information integration system includes a console, a scheduling orchestration engine, and various default plug-ins; the default plug-in comprises a first plug-in used for being in butt joint with an external system and obtaining service data and a logic plug-in used for carrying out logic judgment on the service data and generating an analysis result;

the function of the default plug-in corresponds to each node of the business process one by one;

the control console is used for arranging the execution sequence of the default plug-in according to the node sequence of the business process to obtain an arrangement file;

the scheduling and arranging engine is used for calling each default plug-in sequence according to the arranging file to complete the business process, wherein any default plug-in adopts the business data of other upwards associated first plug-ins or the analysis result of the logic plug-in as the operation parameter to operate.

The operation mode of the system is as follows:

step 1: an operator uses the system to split the service flow into a plurality of nodes;

the console of the system provides a visual operation interface, as shown in fig. 1, and the left side lists various available default plug-ins, which can be classified according to functions as follows: automatically triggering a plug-in, a logic plug-in, a data docking plug-in and a request access plug-in;

the automatic trigger plug-in is used for triggering the first plug-in or the logic plug-in which the automatic trigger plug-in is downward associated to run at fixed time;

the data docking plug-in is used for docking with a database of an external system;

the request access plug-in is used for issuing a request to an external system;

the logic judgment operation of the logic plug-in comprises the judgment of yes or no to the service data, the splitting operation to the service data or the cyclic processing to the service data

The configuration interface of the default plug-in is shown in fig. 2, and fig. 2 shows the configuration interface for the request access plug-in, which requires configuring the request mode, url address, content, format and name of the returned data, etc.

The configuration pages for other types of plug-ins are similar.

Step 2: for each node, adopting a default plug-in corresponding to the plug-in area on the left side in the figure 1, and configuring and arranging according to the introduction to obtain an arrangement file;

in the configuration page, the content source typically derives from the business data of its upwardly associated other first plug-ins or the results of the analysis of the logical plug-ins as operational parameters.

Wherein the first plug-in or the logic plug-in directly associated with the auto-triggering plug-in has pre-stored therein operating parameters that will automatically operate once triggered by the auto-triggering plug-in.

And step 3: and the scheduling and arranging engine calls each default plug-in sequence according to the arranging file to complete the business process.

To describe the present invention more clearly, the present embodiment analyzes the specific flow of the business order in fig. 1:

in fig. 1, the business process includes 8 nodes:

and the node 1: triggering; and (3) the node 2: inquiring the order; and (3) the node: initiating a new order event; and the node 4: judging whether stock exists; and the node 5: issuing a production order; and the node 6: triggering a delivery flow; and the node 7: triggering financial billing; and the node 8: and updating the order state.

The name of each external system is:

CRM customer relationship management system

SCM supply chain management system

ERP enterprise resource planning system

MES production process control system

HR human resource management system

PDM product life cycle management system.

1. Setting a Timer through the plug-in 1 and the Timer plug-in, namely the automatic trigger plug-in, sending an event every minute, and then driving a following connecting node;

2. when the Timer plug-in sends out an event, the event is transmitted to a plug-in 2, namely a data docking plug-in, and a MySQL (query order) node, the node executes a SQL statement for querying a new order by connecting MySQL data of a MySQL database, and sends a queried result to a connected plug-in 3, namely a request access plug-in, which is used for initiating an HTTP request plug-in and is mainly used for initiating an HTTP request for a target system (assuming that the CRM system does not support an external interface, can only directly access data and is the case of MySQL data)

3. At the 3 rd plug-in HTTP-api, receiving order data returned by the 2 nd plug-in, and initiating an HTTP request to transmit the order data to the SCM system; (it is assumed here that the SCM system provides an interface for returning inventory data) and returns inventory information

4. Receiving the stock data at the 4 th plug-in functional JS, namely the logic plug-in, judging whether the stock data meets the order quantity of the order, and returning the condition value of Y/N, wherein Y enters the plug-in 6, and N enters the plug-in 5

5. The plug-in 5 is a request access plug-in which is used for initiating an HTTP request, mainly used for initiating an HTTP request to a target system, and triggering a request for issuing a production order to an MES system when a certain order is received and no inventory exists (the MES system is assumed to support HTTP external interface access here)

6. And returning Y at the plug-in 4, directly entering the plug-in 6, namely a request access plug-in, which is used for initiating a plug-in of an HTTP request, mainly for initiating an HTTP request to a target system, directly triggering the delivery flow of a certain order (here, it is assumed that an MES system supports HTTP external interface access and delivery service is completed by the MES system), and completing delivery directly entering the plug-in 7.

7. At the plug-in 7, receiving the delivery ending process, triggering the billing process (assuming that the financial system has HTTP external interface access capability), and finally reaching the plug-in 8 when the billing is finished;

8. in the plug-in 8, i.e. the data docking plug-in, the final state of the corresponding order is directly updated to be the invoiced state (it is assumed here that the CRM system does not support external interfaces, only can directly access data, and is the case of MySQL data).

As can be seen from the above 1-8, the next default plugin can be run only by relying on the data or data and judgment of the previous plugin, and the next default plugin is either run with the trigger time for automatically triggering the plugin, or run with the data obtained from the external system by the data pair plugin and the request access plugin as the running parameter, or run with the judgment result obtained by the logic plugin as the running parameter.

From the above analysis it can be seen that: through the configuration of each default plug-in, the plug-in can be basically adapted to the interface of the external system which is mainstream in the market, and the core innovation points of the scheme are as follows: the automatic expansion of the service and the automatic access to each external system can be realized by arranging each default plug-in without changing the external system, the improvement cost is low, the technical difficulty is low, and the service of the existing external system cannot be influenced.

Example 2

The enterprise information integration system can also realize docking and data sharing capabilities for external systems without OPEN-API functions, and particularly can be realized by adopting a request access plug-in, a logic plug-in and a data docking plug-in.

Referring to fig. 3, it includes the following steps:

1. the method comprises the steps that an http plug-in, namely a request access plug-in, is configured to be request, and an external interface address is configured to be get/crm/orders; through the method, the request and the parameters of the external system for accessing the order data are received, and the request is transferred to the next node when being received

2. Through the step 1, the request and the parameters of the query order are obtained, the request can be authenticated and the parameters can be verified through the node 2 and the functional Js plug-in, namely the logic plug-in, and Y/N is finally output; directly returning error code to illegal request, and executing order data query to legal request

3. Returning Y/N through step 2, when returning N, directly entering Http response node, namely requesting to access plug-in, returning error code, and ending the request

4. Returning Y/N through the step 2, when Y is returned, directly entering a MySql plug-in, namely a data docking plug-in, inquiring order data according to the transmitted conditions, and transmitting the result set to the next node

5. And step 4, http, the response node, namely the request access plug-in receives the incoming order data and directly returns to the request end through the response, and the request is ended.

Therefore, for the service of realizing the docking and data sharing capabilities of the external system without the OPEN-API function, the service can be independently split into a plurality of nodes in the external system aiming at one external system, and a proper default plug-in is selected and arranged according to the content of the nodes, so that the service can be realized.

It can be known from the embodiment that the system of the present invention can perform plug-in arrangement not only for services of a plurality of external systems, but also for services of a single external system.

The contents of embodiment 2 of the present invention can be implemented as one part of embodiment 1.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. An enterprise information integration system is characterized by comprising a console, a scheduling and arranging engine and a plurality of default plug-ins; the default plug-in comprises a first plug-in used for being in butt joint with an external system and obtaining service data and a logic plug-in used for carrying out logic judgment on the service data and generating an analysis result;

the function of the default plug-in corresponds to each node of the business process one by one;

the control console is used for arranging the execution sequence of the default plug-in according to the node sequence of the business process to obtain an arrangement file;

the scheduling and arranging engine is used for calling each default plug-in sequence according to the arranging file to complete the business process;

and any default plug-in adopts the service data of other upwards related first plug-ins or the analysis result of the logic plug-in as the operation parameter to operate.

2. The enterprise information integration system of claim 1, further comprising an auto-triggering plug-in for periodically triggering the first plug-in or logic plug-in associated downward to run;

the first plug-in or the logic plug-in directly associated with the auto-triggering plug-in has pre-stored operating parameters.

3. The enterprise information integration system of claim 1, wherein the first plug-in comprises a data docking plug-in for docking with a database of an external system, a request access plug-in for issuing requests to the external system.

4. The system of claim 1, wherein the logical judgment operation of the logical plug-in comprises a yes or no judgment of business data, a split operation of business data, or a round robin process of business data.

5. The system of claim 1, wherein the method for the console to schedule the default plug-in is specifically: and setting the interface parameters, the source of the operation parameters and the format of the output data of the default plug-in.

6. A service processing method based on the system of any one of claims 1 to 5, characterized in that: the method comprises the following steps:

step 1: arranging the execution sequence of a plurality of default plug-ins in a control console according to the sequence of each node of a business process to obtain an arrangement file, wherein each node corresponds to one default plug-in;

step 2: and the scheduling and arranging engine calls each default plug-in sequence according to the arranging file to complete the business process.

7. The traffic processing method according to claim 6, wherein: the step 1 specifically comprises the following steps:

substep 11: arranging the execution sequence of the plurality of default plug-ins according to the sequence of each node of the business process;

substep 12: and configuring interface parameters, operation parameter sources and output data formats for each default plug-in.

8. The traffic processing method according to claim 6, wherein: the external system is a plurality of customer relationship management systems, supply chain management systems, enterprise resource planning systems, production process control systems and human resource management systems.

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