CN111885206B - Cloud platform supporting multiple e-commerce platforms and pushing data to specified environments - Google Patents

Abstract

The invention relates to the technical field of cloud management, in particular to a cloud platform supporting a multi-e-commerce platform and pushing data to a designated environment, which comprises a cloud hub monitoring platform 1 for configuring various client data and business tasks; the task scheduling center is used for triggering the service tasks of the online cloud hub at fixed time; the on-line cloud hub is used for pushing data of the cloud hub monitoring platform, receiving data of the off-line cloud hub and calling an interface of the cloud hub monitoring platform; the system is convenient to maintain, and when the platform interface is modified, only the online cloud hub is required to be modified, the program independently deployed by each client is not required to be modified, and the online cloud hub interface is uniformly called by the offline cloud hub program of each client in a mode of using MQ, so that the calling efficiency is higher.

Description

Cloud platform supporting multiple e-commerce platforms and pushing data to specified environments

Technical Field

The invention relates to the technical field of cloud management, in particular to a cloud platform supporting multiple e-commerce platforms and pushing data to a designated environment.

Background

Each e-commerce backend system needs to interact data with online e-commerce platforms (e.g., triangulated, jindong, spell, praise, etc.), including: acquiring data such as commodities, orders, return orders and the like from an online electronic commerce platform; synchronizing the processing results, inventory data and the like of the online order to an online E-commerce platform; at present, most electronic commerce background systems are independent docking line online e-commerce platforms and are divided into two cases: the method comprises the steps that a company has a set of electronic commerce system, but the online deployment program is required to be independently used for a plurality of clients, an online E-commerce platform modifies an interface each time, and all clients are required to independently modify the online deployment program; secondly, a company has a plurality of sets of electronic commerce systems, each set of electronic commerce system needs to be connected with an online E-commerce platform, and the number of the sets of electronic commerce background systems need to be connected with the online E-commerce platform for a plurality of times, so that a plurality of repeated butt joint works can be caused, and the maintenance cost of the system is high; the efficiency of calling the platform is low and the cost is high; repeated butt joint work is more, and resources are wasted; the problem is difficult to troubleshoot.

Therefore, it is necessary to design a cloud platform which can reduce repetitive docking work and support data acquisition of multiple e-commerce platforms and can be pushed to a specified environment.

Disclosure of Invention

The cloud platform breaks through the problems in the prior art, and can reduce repeated butt joint work, support data acquisition of multiple e-commerce platforms and push to a designated environment.

In order to achieve the above purpose, the present invention provides a cloud platform supporting multiple e-commerce platforms and pushing data to a designated environment, which is characterized in that: the cloud hub monitoring platform 1 is used for configuring various client data and business tasks;

the task scheduling center is used for triggering the service tasks of the online cloud hub at fixed time;

the on-line cloud hub is used for pushing data of the cloud hub monitoring platform, receiving data of the off-line cloud hub and calling an interface of the cloud hub monitoring platform;

the off-line cloud hub is used for receiving the on-line cloud hub data and calling the on-line cloud hub interface at fixed time by the specific service.

Further, the on-line cloud hub is deployed on a cloud hub monitoring platform, and the off-line cloud hub is deployed in a server of an on-line electronic commerce background system; the online cloud hub is connected with the e-commerce platform, the offline cloud hub and the task scheduling center respectively.

Furthermore, the data transmission modes among the online cloud hub, the cloud hub monitoring platform, the server of the offline electronic commerce background system, the offline cloud hub, the electronic commerce platform and the task scheduling center all adopt the MQ technology.

The invention also designs a data pushing method of the cloud platform supporting the multi-e-commerce platform and pushing data to the appointed environment, which is characterized in that: the method comprises the following steps:

s1, the online cloud hub and an online E-commerce platform complete interface butt joint, and bidirectional interaction of system data of the two parties is achieved;

s2, deploying an offline cloud hub in a server of an online E-commerce background system;

s3, cloud hub on a cloud hub monitoring platform deployment line;

s4, connecting an on-line cloud hub and an off-line cloud hub;

s5, configuring a task scheduling center, and periodically triggering the on-line cloud hub to interact with an on-line E-commerce platform;

s6, acquiring data generated by interaction between the online cloud hub and the online electronic commerce platform, transmitting the data to the offline cloud hub, and pushing the data to a server of a designated electronic commerce background system;

and S7, the cloud hub under the line updates server data of the e-commerce background system at fixed time.

Further, the specific method for updating the server data of the e-commerce background system at the S7 offline cloud hub timing comprises the following steps:

s71, executing a specific business task by the cloud hub program under the line;

s72, acquiring data from a server of a background system of an off-line electronic commerce;

s73, the cloud hub interface on the line is called by the cloud hub under the line;

s74, calling a platform interface by the cloud hub interface on line;

s75, the online cloud hub forwards the interface calling result to the offline cloud hub;

and S76, the offline cloud hub writes the interface calling result into a server of the e-commerce background system.

The invention also designs a cloud platform device for pushing data to the appointed environment, which is characterized in that: comprises a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to: the method for executing the right is as follows: firstly, an online cloud hub completes interface butt joint with each online electric business platform according to service requirements and interface development specifications of each online electric business platform, and bidirectional interaction of system data of both parties is realized; secondly, deploying an off-line cloud hub in a server of an off-line electronic commerce background system needing to perform data interaction with an on-line electronic commerce platform; then, on the cloud hub monitoring platform, deploying an online cloud hub; the on-line cloud hub and the off-line cloud hub establish a unique association relationship through the tag; then configuring a needed timing task in an LTS task scheduling center for triggering the interaction of the online cloud hub and an online E-commerce platform; when the timing task reaches the execution time, automatically triggering an online cloud hub to acquire data of an online E-commerce platform, and pushing the data to a designated client database through an offline cloud hub; and finally, the off-line cloud hub of each client reads the intermediate table or view data at fixed time, the on-line cloud hub forwards the request, calls an on-line E-commerce platform interface and returns a platform response result to the off-line cloud hub, and the off-line cloud hub writes the response result into a database.

The present invention also contemplates a computer storage medium having stored thereon computer program instructions characterized by: the computer program instructions, when executed by a processor, implement the method of: firstly, an online cloud hub completes interface butt joint with each online electric business platform according to service requirements and interface development specifications of each online electric business platform, and bidirectional interaction of system data of both parties is realized; secondly, deploying an off-line cloud hub in a server of an off-line electronic commerce background system needing to perform data interaction with an on-line electronic commerce platform; then, on the cloud hub monitoring platform, deploying an online cloud hub; the on-line cloud hub and the off-line cloud hub establish a unique association relationship through the tag; then configuring a needed timing task in an LTS task scheduling center for triggering the interaction of the online cloud hub and an online E-commerce platform; when the timing task reaches the execution time, automatically triggering an online cloud hub to acquire data of an online E-commerce platform, and pushing the data to a designated client database through an offline cloud hub; and finally, the off-line cloud hub of each client reads the intermediate table or view data at fixed time, the on-line cloud hub forwards the request, calls an on-line E-commerce platform interface and returns a platform response result to the off-line cloud hub, and the off-line cloud hub writes the response result into a database.

Compared with the prior art, the system is convenient to maintain, and only the online cloud hub is required to be modified when the platform interface is modified, so that the program independently deployed by each client is not required to be modified; the efficiency is improved, and the data interaction mode of the client and the platform is changed from that each client calls the platform interface by itself: the off-line cloud hub program of each client uses the MQ mode to uniformly call the on-line cloud hub interface, and the on-line cloud hub transfers the call platform interface in the tower and in the tripod, so that the call efficiency is higher.

Drawings

Fig. 1 is a schematic structural diagram of a cloud platform supporting multiple e-commerce platforms and pushing data to a specific environment in an embodiment.

Fig. 2 is a flow chart of a pushing method of a cloud platform supporting multiple e-commerce platforms and pushing data to a specific environment in an embodiment.

Fig. 3 is a flowchart of updating server data of an e-commerce backend system in a pushing method of a cloud platform supporting multiple e-commerce platforms and pushing data to a specified environment in an embodiment.

Fig. 4 is a schematic diagram of a pushing flow of panning and jindong in a cloud platform supporting multiple e-commerce platforms and pushing data to a specific environment in an embodiment.

Fig. 5 is a schematic flow chart of data reading-forwarding-feedback for example in a cloud platform supporting multiple e-commerce platforms and pushing data to a designated environment in an embodiment.

Detailed Description

The invention is further described below with reference to the accompanying drawings, but is not intended to be limiting.

Referring to fig. 1, the invention designs a cloud platform supporting multiple e-commerce platforms and pushing data to a designated environment, which comprises a cloud hub monitoring platform 1, wherein the cloud hub monitoring platform is a configuration center of a cloud hub and is used for configuring various client data and business tasks, and an LTS task scheduling center 3 can trigger the business tasks of the platform at fixed time;

the LTS task scheduling center 3 is an automatic task triggering tool and can access a service task interface at regular time according to configuration;

the on-line cloud hub 2 is used for pushing data of the cloud hub monitoring platform 1, receiving data of the off-line cloud hub 4 and calling an interface of the cloud hub monitoring platform 1;

the offline cloud hub 4 is configured to receive the online cloud hub 2 data and call the online cloud hub 2 interface with a specific service.

Preferably, the online cloud hub 2 is deployed on the cloud hub monitoring platform 1, and the offline cloud hub 4 is deployed in a server 5 of a background system of an online electronic commerce; the online cloud hub 2 is respectively connected with the e-commerce platform 6, the offline cloud hub 4 and the task scheduling center 3.

Preferably, the data transmission modes among the online cloud hub 2, the cloud hub monitoring platform 1, the server 5 of the offline electronic commerce background system, the offline cloud hub 4, the electronic commerce platform 6 and the task scheduling center 3 all adopt MQ technology.

The MQ technology is a data transmission mode, and the MQ technology is used by both an interface requester and a receiver, so that the interface request address is not required to be configured, peak clipping and valley filling can be realized, the performance is higher and more stable, and automatic readjustment can be configured.

Referring to fig. 2, the invention further designs a data pushing method of a cloud platform supporting multiple e-commerce platforms and pushing data to a designated environment, which comprises the following steps:

s1, the online cloud hub 2 completes interface butt joint with each online E-commerce platform 6 according to service requirements and interface development specifications of each online E-commerce platform 6, and bidirectional interaction of system data of both parties is realized;

s2, deploying an off-line cloud hub 4 in a server 5 of an off-line electronic commerce background system which needs to perform data interaction with an on-line electronic commerce platform 6;

s3, deploying an online cloud hub 2 on the cloud hub monitoring platform 1;

s4, establishing a unique association relationship between the online cloud hub 2 and the offline cloud hub 4 through tags;

s5, configuring a needed timing task in the LTS task scheduling center 3, wherein the needed timing task is used for triggering the interaction between the online cloud hub 2 and the online E-commerce platform 6;

s6, when the timing task reaches the execution time, the online cloud hub 2 is automatically triggered to acquire the data of the online E-commerce platform 6 and pushed to a client database through the offline cloud hub 4;

s7, the off-line cloud hub 4 of each client reads the intermediate table or view data at regular time, the on-line cloud hub 2 forwards the request, the on-line E-commerce platform 6 interface is called, the platform response result is returned to the off-line cloud hub 4, and the off-line cloud hub 4 writes the response result into a database.

Preferably, the offline cloud hub 4 is deployed in a client server docked with the online electronic commerce platform 6, and the specific deployment method is as follows:

(1) Installing and deploying a JAVA environment, wherein the off-line cloud hub 4 program needs to run in the JAVA environment;

(2) Then, carrying out Tomcat environment deployment;

(3) Modifying database configurations such as IP, database account numbers, database passwords, etc.;

(4) Modifying task configuration, taking a TAG name according to a client company, wherein a name taking rule can be company name pinyin or English abbreviation and the like, and then replacing the TAG;

(5) Modifying the con semerid to replace XXXXX in ons = GID _ O2O _ XXXXX with the TAG name in the previous step, note that all english letters are in uppercase format;

(6) Configuring an off-line switch, namely modifying a required service into true according to a service corresponding to a client, and modifying an unnecessary service into false;

(7) Configuring online subscription TOPIC, adding corresponding numbers after ons.mq.index=according to the service corresponding to the customer and the required service, and separating the corresponding numbers by English commas, for example, if the customer has a trepanned service, then the ons.mq.index= 1,2,3,7,9,10,11,15; according to the service configuration of the client platform, the index sequence number is from small to large and cannot be repeated, if a plurality of platforms need to be combined, for example, the client has the treasured-washing and the Beijing-east service, and ons.mq.index= 1,2,3,7,9,10,11,12,13,14,15,16;

(8) After the configuration is completed, the configuration is stored;

(9) And establishing a service.

Preferably, the specific deployment method for deploying the cloud hub 2 on the line in S3 is as follows:

(1) Platform configuration, taking panning as an example: modifying the RDS configuration of the stone column: modifying default database passwords, adding a database and pushing configuration data, and the following should be noted: binding a store nickname of data to be pushed in RDS, and newly adding ConsumerId for binding identification of the on-line cloud hub 2 and the off-line cloud hub 4;

(2) On-line cloud hub 2 configuration-cloud hub monitoring platform 1 configuration: the method is used for establishing client information storage and various information pushing tasks, such as: maintaining a client company; maintaining corporate message tags (identification of cloud hubs for identifying customer information); maintaining an e-commerce warehouse (i.e., store information of a customer); maintaining an e-commerce store KEY (i.e., store KEY information of a customer); maintenance execution time: according to different platform services, creating the following executive programs (the same client tag is the same), clicking and storing, and clicking and updating the cache time (not Beijing east click [ updating the cache time ], beijing east click [ updating the cache time (Beijing east));

(3) On-line cloud hub 2 configuration-LTS task scheduling center 3 configuration, for example: the Taobao LTS is used for triggering Taobao and general platform tasks at fixed time; the Beijing Dong LTS is used for triggering the Beijing Tong platform task at fixed time; the unique meeting XXJOB is used for triggering the unique meeting platform task at fixed time;

after all the above configuration is completed, a task is started, a client environment is entered, whether data exists in each business intermediate table or not is checked, and the data represents that deployment is completed.

In specific implementation, referring to fig. 4, taking the process of data acquisition-pushing of the order of the panda and jindong platforms as an example:

naughty device:

(1) The Taobao-washing LTS task scheduler triggers the Taobao-washing Yun Shuniu single-pulling program at regular time;

(2) The naughty Yun Shuniu menu program obtains data from RDS;

(3) Pushing the data to the offline cloud hub 4 through an odd gate;

(4) The offline cloud hub 4 performs a write library.

Jingdong:

(1) The Beijing east LTS task scheduler triggers the Beijing east Yun Shuniu list pulling program at regular time;

(2) The Beijing Dong Yun Shuniu pull-down procedure obtains data through the Beijing Dong order acquisition interface;

(3) Pushing the data to an offline cloud hub 4 through tiger symbols;

(4) The offline cloud hub 4 performs a library writing operation.

Preferably, referring to fig. 3 and fig. 5, in the step S7, the specific method for updating the server data of the electronic commerce background system at regular time by the sub-line cloud hub 4 includes:

s71, executing a specific service task by the cloud hub 4 program under the line at regular time;

s72, acquiring data from a server 5 of a background system of an off-line electronic commerce;

s73, the offline cloud hub 4 calls an online cloud hub 2 interface;

s74, calling a platform interface by the cloud hub 2 interface on the line;

s75, the online cloud hub 2 forwards the interface calling result to the offline cloud hub 4;

and S76, the offline cloud hub 4 writes the interface calling result into a server of the e-commerce background system.

The invention also designs a cloud platform device for pushing data to the appointed environment, which is characterized in that: comprises a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to: the method for executing the right is as follows: firstly, the online cloud hub 2 completes interface butt joint with each online E-commerce platform 6 according to service requirements and interface development specifications of each online E-commerce platform 6, so that two-party system data bidirectional interaction is realized; secondly, deploying an off-line cloud hub 4 in a server 5 of an off-line electronic commerce background system which needs to perform data interaction with an on-line electronic commerce platform 6; then, deploying an online cloud hub 2 on the cloud hub monitoring platform 1; the on-line cloud hub 2 and the off-line cloud hub 4 establish a unique association relationship through tag; then, a needed timing task is configured in the LTS task scheduling center 3 to trigger the on-line cloud hub 2 to interact with the on-line E-commerce platform 6; when the timing task reaches the execution time, the online cloud hub 2 is automatically triggered to acquire the data of the online E-commerce platform 6 and pushed to the appointed client database through the offline cloud hub 4; and finally, the offline cloud hub 4 of each client reads the intermediate table or view data at regular time, the online cloud hub 2 forwards the request, the online E-commerce platform 6 interface is called, the platform response result is returned to the offline cloud hub 4, and the offline cloud hub 4 writes the response result into a database.

The present invention also contemplates a computer storage medium having stored thereon computer program instructions characterized by: the computer program instructions, when executed by a processor, implement the method of: firstly, the online cloud hub 2 completes interface butt joint with each online E-commerce platform 6 according to service requirements and interface development specifications of each online E-commerce platform 6, so that two-party system data bidirectional interaction is realized; secondly, deploying an off-line cloud hub 4 in a server 5 of an off-line electronic commerce background system which needs to perform data interaction with an on-line electronic commerce platform 6; then, deploying an online cloud hub 2 on the cloud hub monitoring platform 1; the on-line cloud hub 2 and the off-line cloud hub 4 establish a unique association relationship through tag; then, a needed timing task is configured in the LTS task scheduling center 3 to trigger the on-line cloud hub 2 to interact with the on-line E-commerce platform 6; when the timing task reaches the execution time, the online cloud hub 2 is automatically triggered to acquire the data of the online E-commerce platform 6 and pushed to the appointed client database through the offline cloud hub 4; and finally, the offline cloud hub 4 of each client reads the intermediate table or view data at regular time, the online cloud hub 2 forwards the request, the online E-commerce platform 6 interface is called, the platform response result is returned to the offline cloud hub 4, and the offline cloud hub 4 writes the response result into a database.

Those skilled in the art will appreciate that all or part of the processes of the methods of the embodiments described above may be implemented by hardware associated with computer program instructions, where the program may be stored on a computer readable storage medium, such as a storage medium of a computer system, and executed by at least one processor of the computer system to implement processes including embodiments of the methods described above. Wherein the storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), or the like.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features of the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention, it being understood that variations and modifications can be made by those skilled in the art without departing from the spirit of the invention.

Claims (3)

1. A data pushing method of a cloud platform supporting multiple e-commerce platforms and pushing data to a specified environment is characterized by comprising the following steps: the method comprises the following steps:

s1, the online cloud hub (2) and the online E-commerce platform (6) are in interface butt joint, so that bidirectional interaction of system data of the two parties is realized;

s2, deploying an offline cloud hub (4) in a server (5) of an online E-commerce background system;

s3, cloud hubs (2) are deployed on a cloud hub monitoring platform (1);

s4, connecting an on-line cloud hub (2) and an off-line cloud hub (4);

s5, configuring a task scheduling center (3), and periodically triggering the on-line cloud hub (2) to interact with the on-line E-commerce platform (6);

s6, acquiring data generated by interaction of the online cloud hub (2) and the online e-commerce platform (6), transmitting the data to the offline cloud hub (4), and pushing the data to a server of a designated e-commerce background system;

s7, the cloud hub (4) under the line updates server data of the electronic commerce background system at regular time; the method specifically comprises the following steps: s71, executing a specific business task by the cloud hub (4) program under the line at regular time; s72, acquiring data from a server (5) of a background system of an off-line electronic commerce; s73, the offline cloud hub (4) calls an online cloud hub (2) interface; s74, calling a platform interface by the cloud hub (2) interface on the line; s75, the online cloud hub (2) forwards the interface calling result to the offline cloud hub (4); s76, the offline cloud hub (4) writes the interface calling result into a server of the e-commerce background system;

the cloud hub monitoring platform (1) is used for configuring various client data and business tasks;

the task scheduling center (3) is used for triggering the service tasks of the online cloud hub (2) at fixed time;

the on-line cloud hub (2) is used for pushing data of the cloud hub monitoring platform (1), receiving data of the off-line cloud hub (4) and calling an interface of the cloud hub monitoring platform (1);

the off-line cloud hub (4) is used for receiving the data of the on-line cloud hub (2) and calling an interface of the on-line cloud hub (2) by specific service at fixed time; the online cloud hub (2) is deployed on the cloud hub monitoring platform (1), and the offline cloud hub (4) is deployed in a server (5) of an online E-commerce background system; the online cloud hub (2) is respectively connected with the e-commerce platform (6), the offline cloud hub (4) and the task scheduling center (3); the data transmission modes among the online cloud hub (2), the cloud hub monitoring platform (1), the server (5) of the offline electronic commerce background system, the offline cloud hub (4), the electronic commerce platform (6) and the task scheduling center (3) all adopt MQ technology;

the deployment method for deploying the offline cloud hub 4 in the client server docked by the online E-commerce platform 6 comprises the following steps: the first step: installing and deploying a JAVA environment, wherein the off-line cloud hub 4 program needs to run in the JAVA environment; and a second step of: then, carrying out Tomcat environment deployment; and a third step of: modifying the database configuration; fourth step: modifying task configuration, taking a TAG name according to a client company, taking a name rule as company name pinyin or English abbreviation, and then replacing the TAG; fifth step: modifying the CONSUMERID to replace XXXXX in ons = GID_O2O_XXXXX with the TAG name in the previous step, all English letters being in uppercase format; sixth step: configuring an off-line switch, namely modifying a required service into true according to a service corresponding to a client, and modifying an unnecessary service into false; seventh step: configuring online subscription TOPIC, adding corresponding numbers after ons.mq.index=according to the service corresponding to the customer and the service required, and separating by English commas; according to the service configuration of the client platform, the index sequence number is from small to large and cannot be repeated; eighth step: after the configuration is completed, the configuration is stored; ninth step: and establishing a service.

2. A cloud platform device for pushing data to a specified environment, comprising: comprises a processor; a memory for storing processor-executable instructions; wherein the processor is configured to: the method of claim 1 is performed.

3. A computer storage medium having stored thereon computer program instructions, characterized by: which when executed by a processor, implement the method of claim 1.

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