CN116260878A - Service center system based on global service structure server of distributed computing and storage - Google Patents

Abstract

The invention relates to the technical field of service center systems, in particular to a service center system based on global service structure service of distributed computing and storage, which solves the problems that in the prior art, single service systems are independent, individual information 'chimney' is formed, information is difficult to circulate, communication cost is high, a collaboration system cannot be formed quickly among the service systems, and collaboration efficiency is low. A service center system based on distributed computing and storage global service structure service comprises a service request sent by a client side, a service bus is called according to a service call rule carried in the service request, and the service request is analyzed through the service bus. The method provided by the invention reduces the cost through the data acquisition and data management mode, improves the operation efficiency, and improves the high performance, stability and reliability of the system through the distributed storage mode.

Description

Service center system based on global service structure server of distributed computing and storage

Technical Field

The invention relates to the technical field of service center systems, in particular to a service center system based on distributed computing and storage global service structure service.

Background

The datamation management refers to the process of carrying out definite metering, scientific analysis and accurate qualitative on business work through a perfect basic statistical report system and a data analysis system, and carrying out recording, inquiring, reporting, displaying and storing in the form of a data report, and is one of the management methods of modern enterprises. The aim of the data management is to provide a true and effective scientific decision basis for a manager, announce and guide the latest full utilization of information technology resources and promote the sustainable development of enterprise management.

In the prior art, in order to improve the business operation efficiency of enterprises, the data management of various businesses has become a future development trend, the business background construction of most enterprises is to meet the management requirements of various business systems, the individual business systems are relatively independent from each other, a single information chimney is formed, the information is difficult to circulate, the communication cost is high, a collaboration system cannot be quickly formed between the business systems, the collaboration efficiency is low, the data volume and the access volume are increased along with the development of system business, and the traditional single database storage and calculation mode is not suitable any more, so that the high-efficiency, reliable and intelligent storage service is provided for reducing the communication cost and improving the collaboration efficiency.

Disclosure of Invention

The invention aims to provide a service center system based on global service structure service of distributed computing and storage, which solves the problems that in the prior art, single service systems are independent, a stack of information is formed, the information is difficult to circulate, the communication cost is high, a collaboration system cannot be formed quickly between the service systems, and the collaboration efficiency is low.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a service center system based on distributed computing and storage global service structure service comprises the following steps:

step one: receiving a service request sent by a client, and calling a service bus according to a service calling rule carried in the service request;

step two: analyzing the service request through the service bus, accessing each service system related to the service request according to the analysis result of the service request, processing the service logic of the service request, and returning a service processing result;

step three: and converting the service processing result into request response data and sending the request response data to the client.

Preferably, the service center system further comprises the following steps:

s1: monitoring and intercepting service requests sent by all clients through front-end service, and authenticating the clients;

s2: receiving a service request sent by a client, and calling a service bus according to a service calling rule carried in the service request;

s3: analyzing data carried by the service request through a service bus, and extracting service request information;

s4: calling a pre-constructed service center according to the service request information to acquire detailed information of each service system related to the service request;

s5: accessing each service system related to the service request according to the detailed information of each service system related to the service request, and generating and returning a service processing result;

s6: and converting the service processing result into request response data and sending the request response data to the client.

Preferably, the service request is a user login request sent by a client, the commodity service request and the order service request are further carried with a service calling rule when the client sends the service request, so that a service group can use a specific calling rule to call a service bus, when a service user calls a service provided by the service bus, the service bus is an important technical architecture for realizing inheritance and interconnection between systems, based on the service bus, a system interface can be packed into a service system to be published on the service bus, and a standardized specification can be used when the service is published, so that the service systems are more standardized, and a service visitor can determine the format and the attribute of access, namely the calling rule through the call to the service system.

Preferably, the data format of the service processing result returned by the data center station may not be the data format which can be displayed at the client, the client displays the report, the service processing result needs to be displayed as the data format in the form of the report, and the data format can be standardized by converting the service processing result into the request response data, so that the data display effect is ensured.

Preferably, the front-end service and each service system are packaged in an application container engine together, the application container engine only exposes a front-end service port, the front-end service can be a spr i ngboot with a monitoring spr i ng application development function and can be used by a construction system of any project, and due to the adoption of a cluster mode of a plurality of spr i ng boots, each spr i ng boot application can be routed to each service system of a business center station through a designated routing rule, so that the influence of a network environment on an access request is reduced, the routing time is saved, the user experience is optimized, the front-end service utilizes the application container engine to manage the access authority of each service system, the front-end service is packaged in the application container engine together with each service system, and the application container engine only exposes the front-end service port, so that clients accessing the service systems all need to be authenticated through the front-end service in advance, and clients without the access authority cannot directly access the service systems through a mode of splicing url.

Preferably, the configuration files of the service systems of the service center are placed in a configuration center (conf i g) of the service center for unified management, and each service system of the service center is connected to a registry (region) of the base service center through a public configuration item (a link address is formed in the configuration item), when a service bus of the service center is restarted, the service system is registered in the registry, and all services (i.e. all service systems of the service center) are subscribed to the registry, when new nodes are newly added or reduced in the service system of the service center, the registry timely notifies service bus update information (asynchronization) through a message bus, so that the service bus can have real-time instance information of the service center, a call path can be dynamically adjusted, a distributed service framework is formed, and a service provider and a caller are communicated through the service bus.

Preferably, the primary server can process data and store data, and send the data to the secondary primary server and the secondary server, the secondary primary server I and the secondary primary server II can respectively store the data from the secondary servers, and when the primary server is down, the primary server is switched to the primary server according to the election result of the secondary server, and the system can comprise a plurality of secondary primary servers; the secondary server I and the secondary server II can store data from the secondary server, unreliable data are provided for users, a new primary server is selected from the secondary primary servers when the primary server is down, the system can comprise a plurality of secondary servers, the primary server, the secondary primary server and the secondary server are in distributed storage, the plurality of servers provide data services for the users, the access efficiency is improved, the secondary primary server and the secondary server store data of the self-service servers, accordingly, the data consistency of the plurality of servers is guaranteed, and when the primary server fails, the secondary primary server is timely switched to the primary server.

The invention has at least the following beneficial effects:

the service center system based on the global service structure of distributed computation and storage avoids repeated construction of the same service of an enterprise, reuses the general service of the enterprise, and reduces I T construction and operation and maintenance cost; communication cost of enterprises can be reduced, cooperation efficiency among business systems is improved, and operation efficiency is improved through a management mode of data acquisition and data conversion; meanwhile, the distributed storage mode also improves the high performance, stability and reliability of the system, each service system is precipitated in advance through a distributed service center, and the service center accurately positions the service system depending on the data center, the technical center and the foundation center, so that the call of each calling party is convenient, the response time of a service request is shortened, and because each service system in the precipitated service center is tested, the service center has strong compatibility and flexible configuration capability, does not need coding and testing, and greatly shortens the project writing period.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a receiving client according to the present invention;

FIG. 2 is a schematic diagram of a sending client according to the present invention;

fig. 3 is a schematic diagram of a server according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Example 1

Referring to fig. 1-3, the method comprises the following steps:

step one: receiving a service request sent by a client, and calling a service bus according to a service calling rule carried in the service request;

step two: analyzing the service request through the service bus, accessing each service system related to the service request according to the analysis result of the service request, processing the service logic of the service request, and returning a service processing result;

step three: and converting the service processing result into request response data and sending the request response data to the client.

In the service bus, by analyzing the data carried by the service request, each service system involved in the service request can be queried, so that the service bus can access each service system involved in the service request after correspondingly processing the data of the service request, for example, if the data of the service request relates to a service system user center, the service system user center can be accessed, if the data of the service request relates to a service system order center, the service system order center can be accessed, if the service system user center needs SQL conversion to be performed on the data before the data is written into the database, and correspondingly, if the service system user center needs json conversion to be performed on the data before the data is accessed to the service system user center, the json conversion to be performed on the data before the data is uploaded to the file server. Further processing the service logic of the service request to realize data processing results of different functions, for example, the service logic of the service request is data showing a data structure in a form of a selection frame, the service request carries a tag to be used as an attribute identifier of the selection frame, and the service logic of the service request is processed based on the attribute identifier of the selection frame, so that the service processing result of the data structure in the form of the selection frame can be obtained.

The service request is analyzed through the service bus, each service system related to the service request is accessed according to the analysis result of the service request, the service logic of the service request is processed, in the process of returning the service processing result, in order to facilitate the call of each calling party, before the service request is processed, the service system which needs to be called by each calling party in the using process is deposited through a pre-built service center, so that each service system is formed, in the process of processing the service request, the service center depends on the technical center, the data center and the basic center, the service center is integrated with components of the technical center and large data interfaces of the data center, and the service logic is extracted by combining the service center, and finally the service logic is operated in the basic center.

The service system is processed according to the analysis result of the service request, the service logic of the service request is returned to process results, so as to realize service calling, the processing results are converted into request response data and sent to the client, each service system is precipitated in advance through the distributed service center, and the service center, the technology center and the foundation center are relied on, so that the service center accurately locates the service system, thereby facilitating the calling of each calling party, shortening the response time of the service request, and having strong compatibility and flexible configuration capability, without coding and testing, and greatly shortening the project writing period because each service system in the precipitated service center is tested.

Example two

Referring to fig. 1-3, the service center system further includes the following steps:

s1: monitoring and intercepting service requests sent by all clients through front-end service, and authenticating the clients;

s2: receiving a service request sent by a client, and calling a service bus according to a service calling rule carried in the service request;

s3: analyzing data carried by the service request through a service bus, and extracting service request information;

s4: calling a pre-constructed service center according to the service request information to acquire detailed information of each service system related to the service request;

s5: accessing each service system related to the service request according to the detailed information of each service system related to the service request, and generating and returning a service processing result;

s6: and converting the service processing result into request response data and sending the request response data to the client.

The service bus corresponds to a middleware between the service requester and the service provider, which is a technical implementation manner for shielding the service provision for the service user. If the service bus is not available, the service requester must guide the address of the service required by the service requester, and the corresponding service calling method, message format and the like, so that the unified management of the service system can be facilitated through the service bus, and the integration of the services with different formats is facilitated.

The service request is sent based on a pre-built service center, and each service system is precipitated in advance through the service center, so that the call of each calling party is facilitated, and the response time of the service request is shortened. The service center relies on the data center, the technology center and the foundation center, and by integrating components of various technology center and large data interfaces of the data center and combining service logic abstracted by own service, each service system is formed in the service center and finally operates on the foundation center.

The service center station communicates with the technical center station, and the service bus acquires the detailed information of each service system related to the service request from the detailed information of each service system recorded in the technical center station according to the service request information by calling the detailed information of each service system recorded in the registration center of the technical center station, such as the start-stop state, I P, port and the like of each service system. It should be noted that, the service bus may directly obtain the instance information of each system from the registry of the service center when starting.

The service center station communicates with the data center station, the service data of each service system stored in the data center station is called, service data required by the service request are extracted from the service data of each service system according to the detailed information of each service system related to the service request, logic processing is carried out on the service data required by the service request, and service processing results are generated and returned.

Example III

Referring to fig. 1-3, a service request is a user login request sent by a client, a commodity service request and an order service request, and the client further carries a service calling rule when sending the service request, so that a service group can use a specific calling rule to call a service bus, when a service user calls a service provided by the service bus, the service bus is an important technical architecture for realizing inheritance and interconnection between systems, based on the service bus, a system interface can be packaged into a service system to issue on the service bus, and a standardized specification can be used when issuing the service, so that service systems have standardization, and a service visitor can determine the format and attribute of access, namely the calling rule, through the call to the service system.

Example IV

Referring to fig. 1-3, the data format of the service processing result returned by the data center station may not be a data format that can be displayed at the client, the client displays a report, and the service processing result needs to be displayed as a data format in the form of a report.

The front-end service and each service system are packaged in an application container engine together, the application container engine only exposes a front-end service port, the front-end service can be used by a building system with monitoring spr i ng application development function, each spr i ng boot application can be routed to each service system of a service center through a specified routing rule by adopting a cluster mode of a plurality of spr i ng boots, so that the influence of a network environment on an access request is reduced, the routing time is saved, the user experience is optimized, the front-end service utilizes the application container engine to manage the access rights of each service system, the front-end service is packaged in the application container engine together with each service system, and the application container engine only exposes the front-end service port, so that clients accessing the service systems all need to be authenticated through the front-end service in advance, and clients without access rights cannot access the service systems directly through a mode of splicing url.

The configuration files of the service systems of the service center are placed in a configuration center (conf i g) of the service center for unified management, and the service systems of the service center are connected to a registry (registry) of the basic service center through a public configuration item (a link address is formed in the configuration item), when a service bus of the service center is restarted, the service system is registered to the registry, and all services (namely, the service systems of all service center) are subscribed to the registry, when new nodes are newly added or reduced in the service systems of the service center, the registry timely notifies the service bus of updated information (asynchronization) through a message bus, so that the service bus has real-time instance information of the service center, a calling path can be dynamically adjusted, a distributed service framework is formed, and a service provider and a calling party are communicated through the service bus.

The primary server can process data and store data, and send the data to the secondary primary server and the secondary server, the secondary primary server I and the secondary primary server II can respectively store the data from the secondary servers, and when the primary server is down, the primary server is switched to the primary server according to the election result of the secondary server, and the system can comprise a plurality of secondary primary servers; the secondary server I and the secondary server II can store data from the secondary server, unreliable data are provided for users, a new primary server is selected from the secondary primary servers when the primary server is down, the system can comprise a plurality of secondary servers, the primary server, the secondary primary server and the secondary server are in distributed storage, the plurality of servers provide data services for the users, the access efficiency is improved, the secondary primary server and the secondary server store data of the self-service servers, accordingly, the data consistency of the plurality of servers is guaranteed, and when the primary server fails, the secondary primary server is timely switched to the primary server.

In the system, the main server, the auxiliary main server and the auxiliary server are adopted for distributed storage, and a plurality of servers provide data services for users, so that the access efficiency is improved; the auxiliary main server and the auxiliary server store data from the self-service servers, so that the data consistency of a plurality of servers is ensured; when the main server fails, the auxiliary main server can be switched to the main server in time, so that the failure resolution efficiency is improved, and the stability and reliability of the system are improved.

When the system is started initially, a plurality of parallel servers can be included in the system, after the starting is completed, a main server, at least one auxiliary server and a plurality of auxiliary servers are generated in the distributed storage system, the structure of the distributed storage system can be divided into two layers, wherein the main server and the auxiliary main server are positioned in an active layer, and the functions of user data processing, data backup and distributed network heartbeat processing are executed; the slave servers are located in the passive layer, the operation of synchronizing the data of the active layer is executed, system maintenance personnel can specify the number of the slave main servers according to the needs, the weight of each server in the system can be configured, the main server and the slave main server are determined according to the weight, other servers in the system are taken as the slave servers, and the system can quickly generate structures of the main server, the slave main server and the slave servers, so that the system generation efficiency is improved.

At least three servers exist in the distributed storage system, wherein one server is a master server, one server is a slave server and the other server is a slave server, the distributed storage system can not only meet the structure of adopting the master server, the slave server and the slave server, but also ensure that the consensus opinion can be achieved when the slave server is elected, the normal operation of the system is ensured, and the determination of the roles of a plurality of servers can be divided into two stages: the method comprises the steps of determining roles of a main server and roles of auxiliary main servers, determining the main servers through interaction election by the auxiliary servers, further determining the auxiliary servers through interaction election, if a plurality of auxiliary main servers exist in a system maintainer configuration system, carrying out multiple times of auxiliary main server election by the auxiliary servers in sequence until the number of the auxiliary main servers is met, realizing the election of the main servers and the auxiliary main servers according to a Raft algorithm or a Paxos algorithm, configuring different weights for each server, and realizing the election of the main servers and the auxiliary main servers based on the sizes of the weights.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A service center system based on distributed computing and storage global service structure service comprises the following steps:

step one: receiving a service request sent by a client, and calling a service bus according to a service calling rule carried in the service request;

step two: analyzing the service request through the service bus, accessing each service system related to the service request according to the analysis result of the service request, processing the service logic of the service request, and returning a service processing result;

step three: and converting the service processing result into request response data and sending the request response data to the client.

2. A service center system based on distributed computing, stored global service architecture service according to claim 1, further comprising the following steps:

s1: monitoring and intercepting service requests sent by all clients through front-end service, and authenticating the clients;

s2: receiving a service request sent by a client, and calling a service bus according to a service calling rule carried in the service request;

s3: analyzing the data carried by the service request through the service bus, and extracting service request information;

s4: calling a service center station constructed in advance according to the service request information to acquire detailed information of each service system related to the service request;

s5: accessing each service system related to the service request according to the detailed information of each service system related to the service request, and generating and returning a service processing result;

s6: and converting the service processing result into request response data and sending the request response data to the client.

3. The service center system based on the global service structure of distributed computing and storage according to claim 1, wherein the service request is a user login request, a commodity service request and an order service request sent by a client, the client further carries a service call rule when sending the service request, so that a service group can be utilized to use a specific call rule to call a service bus, when a service user calls a service provided by the service bus, the service bus is an important technical architecture for realizing inheritance and interconnection among systems, based on the service bus, a system interface can be packed into a service system to be issued on the service bus, and a standardized specification can be used when the service is issued, so that service visitors can determine the format and the attribute of access through the call to the service system, namely the call rule.

4. The service center system based on the global service structure of distributed computing and storage according to claim 1, wherein the data format of the service processing result returned by the data center may not be a data format that can be displayed at the client, the client displays a report, the service processing result needs to be displayed as a data format in the form of a report, and the data format can be standardized by converting the service processing result into request response data, so as to ensure the data display effect.

5. The service center system based on the global service structure of distributed computing and storage according to claim 2, wherein the front service and each service system are packaged together in an application container engine, the application container engine only exposes a front service port, the front service can be used by a construction system of any project for the springboot with the monitoring springapplication development function, and due to the adoption of a cluster mode of a plurality of springboots, each springboot application can be routed to each service system of the service center through a designated routing rule, so that the influence of a network environment on an access request is reduced, the routing time is saved, the user experience is optimized, the front service utilizes the application container engine to manage the access right of each service system, is packaged together with each service system in the application container engine, and the application container engine only exposes the front service port, so that clients accessing the service systems all need to be authenticated through the front service in advance, and clients without access right cannot access the service systems directly through a spliced url mode.

6. The service center system based on the global service structure of distributed computing and storage according to claim 2, wherein the configuration files of the service systems of the service center are uniformly managed in the configuration center of the technical center, each service system in the service center is connected to the registration center of the basic service center through a common configuration item, when the service bus of the technical center is restarted, all services are registered in the registration center, and when new nodes are newly added or reduced in the service system of the service center, the registration center timely notifies the service bus of updated information through a message bus, so that the service bus has real-time instance information of the service center, a distributed service frame can be dynamically adjusted, and a service provider and a caller are communicated through the service bus.

7. The service center system based on the global service structure of distributed computing and storage according to claim 1, wherein the main server can process data and store data and send the data to the auxiliary main server and the auxiliary server, the auxiliary main server one and the auxiliary main server two can respectively store the data from the main server, and when the main server is down, the main server is switched to the main server according to the election result of the auxiliary server, and the system can comprise a plurality of auxiliary main servers; the secondary server I and the secondary server II can store data from the primary server, unreliable data are provided for users, a new primary server is selected from the secondary primary servers when the primary server is down, the system can comprise a plurality of secondary servers, the primary server, the secondary primary servers and the secondary servers are distributed and stored, the plurality of servers provide data services for the users, the access efficiency is improved, the secondary primary servers and the secondary servers store the data from the primary servers, and therefore the data consistency of the plurality of servers is guaranteed.

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