CN107291887B - Software-based flow management system for LNMP architecture - Google Patents

Abstract

The invention provides a software-based flow management system for an LNMP architecture, which comprises: the flow architecture subsystem is provided with a plurality of flow nodes and is used for executing service logic control on each flow node and establishing a flow architecture; the process management subsystem autonomously judges the operation of the process node according to the process architecture, displays a corresponding operation template, autonomously selects management actions such as examination, approval and examination, freely selects an examination and examination department, relevant posts and personnel, automatically generates an applicable examination and examination process, autonomously selects a serial or parallel examination and examination form, generates an examination and examination result, completes the process processing of all the process nodes, and then files and records according to the type of the process architecture. The static diagram, the input-output diagram and the responsibility table related to the flow can be generated in the background, and the flow circulation can be completed at the front end according to the actual work. The invention can make the service system response more agile and meet the high throughput requirement of the application service under high concurrency.

Description

Software-based flow management system for LNMP architecture

Technical Field

The invention relates to the technical field of software process management, in particular to a process management system for realizing software of an LNMP architecture.

Background

In the existing process management, most enterprises make detailed process management contents, but have no execution strength, so that the process management is similar to a nominal process management. The method is characterized in that the flow is made in a written mode, after the complete flow is completed, data collection is carried out by personnel and serves as a guide basis for daily work, a management mechanism suitable for a flow management mode is only one, all management problems cannot be effectively solved in a comprehensive copying mode, and the flow cannot be completely reused due to flow management limitations. Therefore, when the process link is corresponding to the department and post responsibilities in the process combing, the process combing can not cover all functions, so the function combing needs to be used as an auxiliary means to ensure the comprehensiveness of the department and post functions. This is intangible, which increases the labor cost and slows down the process progress. The flow data statistics needs to be carried out by manually arranging the collected flow related data in a book, and the data is not uniform and lacks of integrity.

When many enterprises design business architecture, the current situation is simply written, and the influence possibly brought by excellent operation modes is ignored. The adoption of modes such as JIT/JIS, VMI, ATO, etc. will greatly affect the combination and design of the flow.

Disclosure of Invention

The object of the present invention is to solve at least one of the technical drawbacks mentioned.

therefore, the invention aims to provide a flow management system for realizing software of an LNMP architecture.

In order to achieve the above object, an embodiment of the present invention provides a software-based flow management system for an LNMP architecture, including: a process architecture subsystem and a process management subsystem, wherein,

the process architecture subsystem can be provided with a plurality of process nodes for executing service logic control on each process node, a process architecture is built through the plurality of process nodes, only service operation actions are set for each process node, and the process architecture and the affiliated hierarchical directory are fixed as background modules. The auditing management action operation module is used for automatically judging the auditing grade of the process node and freely selecting the auditing grade of the process node to finish the process of executable circulation;

The process management subsystem is used for creating a process according to a process architecture selected by a user, and comprises the following steps: the management action operation of each node in the process is automatically judged according to the process architecture, a corresponding operation template is displayed, corresponding management actions are automatically added according to actual management contents, an auditing department, relevant posts and personnel are freely selected and automatically added as an approval process, a serial or parallel auditing form is adopted, and an actually used process is automatically generated. Meanwhile, corresponding input/output, responsibility and other attributes and authorities are added for each business action node and each management action node, so that a flow chart capable of being visually output in a background and output items such as corresponding input/output and responsibility lists are formed, a foreground can select and execute flow processing of all flow nodes according to specific work, and then archiving and recording are carried out according to the type of a flow architecture.

Further, a relational database Mysql adopted by the flow architecture subsystem stores associated data, and a mongoDB non-relational database stores non-relational data.

Furthermore, the flow architecture subsystem uses the horizontal dynamic addition of the MongoDB slices, guarantees the query speed and the cloud computing efficiency after capacity expansion while not interrupting the platform service system, indexes the slices according to slice keys, and independently computes each slice so as to realize real-time analysis under big data.

Further, the process management subsystem adopts a foreground and background data interaction form of a front-end client and a back-end server, wherein the front-end client and the back-end server adopt Restful Api for interaction.

Further, the back-end server end writes the process architecture data into the database,

On one hand, the front-end client reads the process data from the database of the back-end server, and when the front-end client establishes the process, the front-end client obtains the process architecture data through the API interface and reads the architecture data from the back-end server through the logic layer and the Redis database.

According to the LNMP architecture software-based process management system provided by the embodiment of the invention, the process management system realizes the software-based process management, realizes management and replication rapidly, distinguishes function management and process management, clears the relation between workflow and process and system and process, and grasps the construction method of the organization process management system. The method simplifies the approval process, can automatically judge the approval authority level and control the approval nodes according to types, realizes closed-loop management on the service flow and the data flow, improves the working efficiency and the reasonable resource allocation degree, realizes risk control, reduces the cost, improves the service quality, improves the working efficiency, improves the reaction speed to the market, and reduces the maintenance cost.

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 structural diagram of a software-based process management system implemented by an LNMP architecture according to an embodiment of the present invention;

fig. 2 is a flowchart of an LNMP architecture implementing a software-based process management system according to an embodiment of the present invention;

FIG. 3 is a diagram illustrating process management operations according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a business process according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of data storage according to an embodiment 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 drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

the embodiment of the invention provides a software-based flow management system for an LNMP architecture, which forms standardization and modularization of flow management by decomposing the structure of a flow and defining the flow architecture. In addition, a foreground and a background are formed through software construction, and innovation and combined utilization of a page technology are adopted, so that a software solution for flow management is realized.

As shown in fig. 1, the LNMP architecture implementation software process management system according to the embodiment of the present invention includes: a process architecture subsystem and a process management subsystem.

It should be noted that the LNMP architecture is a website server architecture of Nginx + MySQL + PHP in the Linux system.

specifically, as shown in fig. 2, the process architecture subsystem may be provided with a plurality of process nodes, and is configured to execute service logic control on each of the process nodes, construct a process architecture through a plurality of process nodes, only set a service operation action for each of the process nodes, and fix the process architecture and the corresponding hierarchical directory as a background module, where the audit class management action operation module is configured to automatically determine an audit class of the process node and freely select the audit class of the process node, so as to complete a process of executable circulation. That is, the flow architecture is the core of flow multiplexing and management standardization in the flow management system. The process architecture is composed of different process nodes, and each process node is composed of a node operation module and an audit process.

a node operation module and an auditing operation flow module are respectively arranged aiming at each flow node, and the node operation module is used for selecting a history recording operation template or setting a self-defining module aiming at the flow node; the auditing operation flow module is used for automatically judging the auditing grade of the flow node and freely selecting the auditing grade of the flow node to complete the construction of the flow architecture.

In one embodiment of the invention, the flow architecture subsystem uses a relational database Mysql to store relational data and a mongoDB non-relational database to store non-relational data.

In particular, for process control, the emphasis is on the business logic of the process, which is also the emphasis of data processing. For complex data structure and condition control, the relational database Mysql is adopted for carrying out essential relevance data storage, a multi-thread core is used, a multi-processor is supported, and complex data can be accurately and quickly processed.

In addition, data operation and data documentation of different nodes can occur in the process control, which is obviously different from the traditional structured data which needs transaction support. This requires that the data be stored by using the mongoDB non-relational database document storage method, and the mongoDB is a highly available and clustered architecture based on the database of distributed file storage, and the data structure supported by the mongoDB is very loose, and is in a json-like bson format, so that more complex data types can be stored. MongoDB is characterized by being oriented to set storage, free in mode, supporting dynamic query, complete index, query, copy and fault transfer, automatically processing fragments, and having very high expansibility so as to support the expansibility of a cloud computing layer. By utilizing the characteristics, a complete flow architecture is created, and modularization is realized.

specifically, the flow architecture subsystem uses the horizontal dynamic addition of the MongoDB slices, guarantees the query speed and the cloud computing efficiency after capacity expansion while not interrupting a platform service system, and indexes the slices according to slice keys to independently compute the slices so as to realize real-time analysis under big data.

In the embodiment of the invention, the complete flow architecture data storage utilizes the Redis + MySQL + MongoDB technical architecture to meet the requirements of big data storage and real-time cloud computing in the invention. By using the horizontal dynamic addition of the MongoDB slices, the query speed and the cloud computing efficiency after capacity expansion can be guaranteed without interrupting a platform service system; and (4) indexing the fragments according to the fragment keys, and independently calculating the fragments, so that real-time analysis under big data becomes practical. The data with high-frequency access is put in Redis, so that the disk I/O is effectively reduced, the service system is more agile in response, and the high-throughput requirement of application service under high concurrency is met.

As shown in FIG. 3, the process management subsystem is used for creating a process according to a process architecture selected by a user, and comprises: the process management subsystem is used for creating a process according to a process architecture selected by a user, and comprises the following steps: the management action operation of each node in the process is autonomously judged according to the process architecture, a corresponding operation template is displayed, corresponding management actions are autonomously added according to actual management contents, an auditing department and related posts and personnel are freely selected and automatically added as an approval process, a serial or parallel auditing form is adopted, an actually used process is automatically generated, and meanwhile, corresponding input/output, responsibility and other attributes and authorities are added aiming at each business action node and management action node, so that a process diagram which can be intuitively output by a background and corresponding input/output, responsibility list and other output objects are formed, a foreground can select and execute the process processing of all the process nodes according to specific work, and then archiving and recording are performed according to the type of the process architecture.

Specifically, the process management subsystem adopts a foreground and background data interaction mode of a front-end client and a back-end server, wherein the extensible front-end application is constructed by adopting the React + Redox + React-route + Less + Es6+ Fetch. And the foreground and the background data interaction foreground adopt the standard and Restful api to carry out the request of a data interface. The front-end client and the back-end server adopt Restful Api for interaction.

After the process architecture is successfully created, different users can select the architecture to copy and form exclusive process management. The flow node storage form is diversified, and the flow node can be stored in a json form, so that the front end can conveniently perform effective data processing. Of course, the storage form of the flow node is not limited to the json form described above, and may be other forms, which are not described herein again.

In the process management, the service processing is complex, different nodes are provided with different operations and approval processes, and the data of a plurality of nodes is obtained without updating. In the SPA era of Ajax, the division of labor at the front end and the rear end becomes clear, and the front end and the rear end cooperate to interact through an Ajax interface. The high efficiency and operation of data and data interaction are ensured by the specification convention of the API interface, but the processing logic of the front-end browser is excessive, so that the front-end browser is not suitable for large traffic and complex logic processing. Fig. 4 is a schematic diagram of a business process according to an embodiment of the present invention.

The service side adopts a Linux + MongoDB/MySql + Redis + PHP architecture to realize a 'front-back end separation' development architecture of the latest website with independent intellectual property rights, thereby ensuring that the whole website becomes flexible, efficient and extensible in modularization. And the back-end server writes the flow architecture data into the database. On one hand, the front-end client reads the process data from the database of the back-end server, and when the front-end client establishes the process, the API interface acquires the process architecture data and the logic layer and the Redis database read the architecture data from the back-end server. FIG. 5 is a schematic diagram of data storage according to an embodiment of the present invention.

The functions of Redis, MySQL and MongoDB will be described below.

Redis: based on the memory cache, the complete flow data is stored, the high-frequency access data cache, the HTML5 template data cache and the static application resource cache are applied.

MySQL: and performing transaction data storage: basic information of the process, association of the process and an organization structure and conventional business data of an organization.

MongoDB: and performing unstructured document data storage: the method comprises the steps of picture, icon, process node template, unstructured document data of complete process data of process approval, data without a fixed mode needing to be dynamically expanded, application log data and data needing map-reduce calculation.

The LNMP architecture of the embodiment of the invention realizes the software process management system, and can realize the following functions:

1. The process management system forms standardization and modularization of process management through structural decomposition of the process and definition of a process architecture.

2. a foreground and a background are formed through software construction, and innovation and combined utilization of a page technology are adopted, so that a software solution for flow management is realized.

3. The definition of the process architecture makes the process management reusable. The method has the advantages of controlling risks, reducing cost, improving service quality, improving working efficiency, improving the reaction speed to the market and reducing maintenance cost.

Based on the idea of goal and value-added, the invention can reversely deduce the conditions necessary for reaching the goal on the basis of defining the main goal of the previous stage flow, thereby gradually determining the key element composition of the previous stage service and forming the set of the next stage flow.

According to the LNMP architecture software-based process management system provided by the embodiment of the invention, the process management system realizes the software-based process management, realizes management and replication rapidly, distinguishes function management and process management, clears the relation between workflow and process and system and process, and grasps the construction method of the organization process management system. The approval process is simplified, the approval authority level and the approval node control can be automatically judged according to the type, the closed-loop management of the service flow and the data flow is realized, and the working efficiency and the reasonable resource allocation degree are improved. The method has the advantages of controlling risks, reducing cost, improving service quality, improving working efficiency, improving the reaction speed to the market and reducing maintenance cost.

The process management system of the invention forms standardization and modularization of process management by the structural decomposition of the process and the definition of the process architecture, and in addition, forms a foreground and a background by software construction and adopts innovation and combined utilization of page technology, thereby realizing a software solution of process management and improving the overall performance and competitiveness of an organization.

The LNMP architecture software-based process management system of the embodiment of the invention has the following beneficial effects:

1. The process management system realizes the software of process management, quickly realizes the process management copy, distinguishes the function management and the process management, clears the relation between the workflow and the process and between the system and the process, and masters the construction method of the organization process management system. The approval process is simplified, the approval authority level and the approval node control can be automatically judged according to the type, the closed-loop management of the service flow and the data flow is realized, and the working efficiency and the reasonable resource allocation degree are improved. The method has the advantages of controlling risks, reducing cost, improving service quality, improving working efficiency, improving the reaction speed to the market and reducing maintenance cost.

2. The whole system development adopts a foreground and background separation development mode, so that the whole invention and the whole framework are highly available, the foreground and the background are separated and do not influence each other, and data communication is carried out between the foreground and the background through Restful Api.

3. The complete flow architecture data storage realizes the requirements of big data storage and real-time cloud computing by utilizing Redis + MySQL + MongoDB technical architecture. By using the horizontal dynamic addition of the MongoDB slices, the query speed and the cloud computing efficiency after capacity expansion can be guaranteed without interrupting a platform service system; and (4) indexing the fragments according to the fragment keys, and independently calculating the fragments, so that real-time analysis under big data becomes practical. The data with high-frequency access is put in Redis, so that the disk I/O is effectively reduced, the service system is more agile in response, and the high-throughput requirement of application service under high concurrency is met.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made in the above embodiments by those of ordinary skill in the art without departing from the principle and spirit of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. An LNMP architecture software-implemented process management system, comprising: a process architecture subsystem and a process management subsystem, wherein,

the process architecture subsystem can be provided with a plurality of process nodes for executing service logic control on each process node, a process architecture is established through a plurality of process nodes, only service operation actions are set for each process node, and the process architecture and the affiliated hierarchical directory are fixed as background modules, wherein the background modules do not contain any audit approval management actions, and the audit approval management action operation modules are used for automatically judging the audit levels of the process nodes and freely selecting the audit levels of the process nodes to complete the flow of executable circulation; meanwhile, a management process for process management is set;

The process management subsystem is used for creating a process according to a process architecture selected by a user, and comprises the following steps: the management action operation of each node in the process is autonomously judged according to the process architecture, a corresponding operation template is displayed, corresponding management actions are autonomously added according to actual management contents, an auditing department and related posts and personnel are freely selected and automatically added as an approval process, a serial or parallel auditing form is adopted, an actually used process is automatically generated, and meanwhile, corresponding input/output and authority attributes and authorities are added aiming at each business action node and each management action node, so that a process diagram which can be intuitively output at a background and output items of corresponding input/output and authority tables are formed, a foreground can select and execute the process processing of all the process nodes according to specific work, and then archiving and filing are carried out according to the type of the process architecture.

2. the LNMP architecture-implemented software process management system of claim 1 wherein the process architecture subsystem employs a relational database Mysql to store relational data and a mongoDB non-relational database to store non-relational data.

3. The LNMP architecture software-implemented process management system of claim 2, wherein the process architecture subsystem uses the horizontal dynamic addition of MongoDB slices, guarantees the query speed and cloud computing performance after capacity expansion without interrupting the platform service system, and indexes the slices according to slice keys to compute each slice independently, so as to implement real-time analysis under big data.

4. The LNMP architecture-based software process management system of claim 1, wherein the process management subsystem employs a foreground-background data interaction format between a front-end client and a back-end server, wherein the front-end client and the back-end server interact using a Restful Api.

5. the LNMP architecture-implemented, software-based process management system of claim 4, wherein the back-end server side writes process architecture data into a database,

On one hand, the front-end client reads the process data from the database of the back-end server, and when the front-end client establishes the process, the front-end client obtains the process architecture data through the API interface and reads the architecture data from the back-end server through the logic layer and the Redis database.