CN112068807B - Ecological system, development method and storage medium for process industrial application software - Google Patents

Abstract

The embodiment of the invention discloses a process industrial application software ecosystem, a development method and a storage medium, wherein the system comprises a resource management module, a delivery management module, a service management module and an application management module, wherein the resource management module is used for acquiring function definition information and resource application information corresponding to pre-stored tenant information, distributing resources for tenants to which the tenant information belongs based on the resource application information, acquiring instance configuration information, generating research and development services according to the instance configuration information and the function definition information, and carrying out instantiation processing on the research and development services generated by the delivery management module to obtain application software. The ecological system of the process industrial application software realizes omnibearing and whole-process monitoring in the process of generating the application software, and realizes digital, networked and intelligent management in the process of establishing the application software.

Description

Ecological system, development method and storage medium for process industrial application software

Technical Field

The invention relates to the technical field of communication, in particular to a process industrial application software ecosystem, a development method and a storage medium.

Background

Currently, the improvement of information communication technology (ICT, information and Communication Technology) improves the traditional industry, and the development of intelligent manufacturing has become an important development trend of manufacturing industry. Industry upgrades for the process industry not only require new equipment, new processes and new catalysts, but also are urgently needed to incorporate the latest information communication technologies. For example, many businesses now build a rich-function (also referred to as "service") informationized management system to increase the efficiency of business processes.

However, the process of establishing services by using the conventional process industry at present cannot be monitored in an all-round and all-process manner, and therefore, the digital, networked and intelligent management is difficult to realize.

Disclosure of Invention

In order to at least partially overcome one of the above-mentioned disadvantages in the prior art, the present application proposes the following technical solution.

In a first aspect, an embodiment of the present application provides a process industrial application ecosystem, including:

the resource management module is used for acquiring function definition information and resource application information corresponding to pre-stored tenant information, and distributing resources for the tenant to which the tenant information belongs based on the resource application information, wherein the resource application information comprises information of resources required for realizing functions corresponding to the function definition information;

The delivery management module is used for acquiring instance configuration information and generating research and development services according to the instance configuration information and the function definition information, wherein the instance configuration information is input by research and development personnel based on resources distributed by the resource management module, the function definition information and a development pipeline in the delivery management module;

the service management module is used for carrying out instantiation processing on the research and development service generated by the delivery management module to obtain application software;

and the application management module is used for acquiring the application software acquired by the service management module and putting the application software on shelf.

Optionally, in the above process industry application software ecosystem, the application management module includes:

the information generation unit is used for generating application on-shelf application information of the application software when the application software obtained by the service management module is obtained, and sending the application on-shelf application information to an approval management and control platform associated with the flow industrial application software ecosystem;

and the application shelving management unit is used for shelving the application software when receiving the application shelving application approval passing information of the application software fed back by the approval management and control platform.

Optionally, in the above process industry application ecosystem, the service management module further includes:

and the service upgrading management unit is used for upgrading the application software according to the upgrading program for the application software provided by the delivery management module.

Optionally, in the above process industry application ecosystem, the service management module further includes:

and the service on-shelf management unit is used for on-shelf the to-be-on-shelf research and development service according to the on-shelf parameter information corresponding to the to-be-on-shelf research and development service provided by the service upgrading management unit.

Optionally, in the above process industry application ecosystem, the service management module further includes:

and the permission distribution management unit is used for receiving subscription information input by a user for the application software and distributing permission for using the application software to the user according to the subscription information.

Optionally, in the above process industry application ecosystem, the service management module includes:

the service gateway management unit is used for acquiring the first address information of the application software generated when the application management module acquires the application software sent by the service management module, registering the second address information corresponding to the first address information based on the first address information and feeding back the second address information to the application management module, so that the application management module generates a response result corresponding to the access request according to the received access request comprising the second address information sent by the user terminal and feeds back the response result to the user terminal.

Optionally, in the above-mentioned process industry application software ecosystem, the delivery management module includes:

the service generation unit is used for acquiring the instance configuration information and generating research and development services according to the instance configuration information and the function definition information;

and the service testing unit is used for testing the research and development service according to a testing framework and a testing script which are generated according to the requirement information corresponding to the research and development service, and sending the research and development service to the service management module when the test passes.

Optionally, in the above process industry application ecosystem, the process industry application ecosystem further includes:

and the information management module is used for receiving and storing the tenant information sent by the tenant terminal.

Optionally, in the above process industry application ecosystem, the information management module includes:

the information verification unit is used for matching the access key to be verified with the access key in the target tenant when receiving the adjustment information which carries the access key to be verified and aims at the information of the target tenant;

and the information adjustment unit is used for adjusting the target tenant information according to the adjustment information when the access key to be verified is matched with the access key in the target tenant information.

Optionally, in the above process industry application ecosystem, the resource management module includes:

an application approval unit; used for acquiring resource application information corresponding to pre-stored tenant information and sending the resource application information to an approval management and control platform associated with the process industrial application software ecosystem,

resource allocation unit: when the approval management and control platform receives approval passing feedback information of the resource application information, resources are allocated to the tenant to which the tenant information belongs according to the resource application information.

Compared with the prior art, the embodiment in the scheme can have the following advantages or beneficial effects:

the embodiment of the invention discloses a process industrial application software ecosystem, which comprises the following steps: the system comprises a resource management module, a delivery management module, a service management module and an application management module, wherein the resource management module is used for acquiring function definition information and resource application information corresponding to pre-stored tenant information, distributing resources for the tenant to which the tenant information belongs based on the resource application information, the delivery management module is used for acquiring instance configuration information, generating research and development services according to the instance configuration information and the function definition information, the service management module is used for acquiring instance configuration information, generating research and development services according to the instance configuration information and the function definition information, and the application management module is used for acquiring application software acquired by the service management module and putting the application software on shelf. Therefore, enterprises can realize the omnibearing and whole-process monitoring of the application software development process only through the process industrial application software ecosystem, and further realize the digital, networked and intelligent management.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and should not be considered as limiting the scope, and other related drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of an ecosystem for process industrial applications according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a process industrial application ecosystem generation application provided by an embodiment of the present application;

FIG. 3 is an ecological diagram of a process industrial application ecosystem generation application provided by an embodiment of the present application;

fig. 4 is a schematic flow chart of a method for developing industrial application software according to an embodiment of the present application.

Icon: 100-a process industrial application software ecosystem; 110-an information management module; 120-a resource management module; 130-a delivery management module; 140-a service management module; 150-application management module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following detailed description of the implementation method of the present invention will be given with reference to the accompanying drawings and examples, by which the technical means are applied to solve the technical problems, and the implementation process for achieving the technical effects can be fully understood and implemented accordingly.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Example 1

Referring to fig. 1 and fig. 2 in combination, fig. 1 is a block schematic diagram of a process industrial application ecosystem 100 according to the present embodiment.

The process industry application ecosystem 100 includes an information management module 110, a resource management module 120, a delivery management module 130, a service management module 140, and an application management module 150.

The process industry application ecosystem 100 may be a management platform running on a server for deploying services (applications) and centrally managing (e.g., putting on/off shelf, upgrading, testing, maintaining, etc.) various services (applications). The server may be a single server or may be a clustered server (e.g., a Web server).

When the process industrial application ecosystem 100 is applied to a server and used for building application software, the functions of each module are as follows:

the information management module 110 is configured to store tenant information; the resource management module 120 is configured to obtain function definition information and resource application information corresponding to pre-stored tenant information (tenant information stored in the information management module 110), and allocate resources for a tenant to which the tenant information belongs based on the resource application information, where the resource application information includes information of resources required for implementing a function corresponding to the function definition information; the delivery management module 130 is configured to obtain instance configuration information, and generate a development service according to the instance configuration information and the function definition information, where the instance configuration information is obtained by a developer based on the resources allocated by the resource management module 120, the function definition information, and a development pipeline input in the delivery management module 130; the service management module 140 is configured to instantiate the development service generated by the delivery management module 130 to obtain application software; the application management module 150 is configured to obtain the application software obtained by the service management module 140, and put the application software on shelf.

By adopting the process industrial application software ecosystem 100, resources are automatically allocated only when function definition information and resource application information corresponding to tenant information sent by tenants are received in the application software establishment process, so that research and development personnel input instance configuration information based on the allocated resources and a development pipeline, research and development services are generated according to the instance configuration information and the function definition information, the research and development services are instantiated to obtain application software and put on shelf, subsequent users can conveniently use the put-on-shelf application software, the establishment process is realized in the process industrial application software ecosystem 100, and therefore, the process industrial application software ecosystem 100 is used for realizing omnibearing and comprehensive process monitoring in the application software generation process, and realizing digitalized, networked and intelligent management in the application software establishment process.

The information management module 110 may be associated with a tenant end, and is configured to receive and store tenant information sent by a tenant of the tenant end, where the tenant end is a terminal device of a service provider (i.e., a tenant).

It can be understood that, when tenant information needs to be adjusted, in order to ensure reliability of tenant information stored in the information management module 110, whether a person who inputs the adjustment information is a preset manager can be verified before the adjustment information is received, and when the person is the preset manager, the adjustment information input by the person is received, and tenant information corresponding to the adjustment information is adjusted based on the adjustment information; the adjustment information may also include an access key to be verified, when the corresponding tenant information is adjusted according to the adjustment information, whether the access key to be verified included in the adjustment information is consistent with the access key included in the tenant information corresponding to the adjustment information is verified, and when the access key to be verified is consistent with the access key included in the tenant information corresponding to the adjustment information, the tenant information corresponding to the adjustment information is adjusted according to the adjustment information. The above adjustment method is not particularly limited herein, and may be set according to actual requirements.

Optionally, in this embodiment, the information management unit includes: an information verification unit and an information adjustment unit.

The information verification unit is used for matching the access key to be verified with the access key in the target tenant when receiving the adjustment information which carries the access key to be verified and aims at the information of the target tenant.

The information adjustment unit is used for adjusting the target tenant information according to the adjustment information when the access key to be verified is matched with the access key in the target tenant information.

When the access key to be verified is the same as the access key in the target tenant, the target tenant information can be adjusted according to the adjustment information, and when the access key to be verified is different from the access key in the target tenant, the target tenant information cannot be adjusted according to the adjustment information, so that any user can be prevented from adjusting the tenant information stored in the information management module 110, and further reliability of the tenant information in the information management module 110 is effectively ensured.

In addition, it should be noted that, the tenant is a manager of the user authority, so the information management module 110 may also store software information of the application software corresponding to the tenant information and user groups that can use the application software, where the user groups are obtained by dividing all user information corresponding to the tenant information according to user responsibilities, and each user group is respectively and correspondingly provided with a corresponding authority.

Specifically, the above manner of dividing the user group may be to divide the users corresponding to the user responsibility information into the groups corresponding to the user responsibility information according to the corresponding relationship between the preset responsibility information and the groups, so as to obtain the user group. When a target user in the user group needs to access the application software, determining the authorization service corresponding to the user group to which the target user belongs according to the corresponding relation between the preset user group and the authorization service, so that the target user can only subscribe the authorization service corresponding to the user group to which the user belongs in the application software, and the user can conveniently use the authorization service.

It may be understood that the number of tenant information stored in the information management module 110 may be one or more, and when the number of tenant information is more than one, the resource management module 120 may receive the resource application information and the function definition information corresponding to the plurality of tenant information at the same time, and allocate resources for each tenant corresponding to the tenant information according to the resource application information corresponding to each tenant information, so as to meet the requirement that the plurality of tenants establish application software at the same time, thereby enabling the industrial application software ecosystem 100 to have the capability of serving multiple tenants.

The resource management module 120 is configured to allocate resources for a tenant to which tenant information belongs according to function definition information and resource application information corresponding to the tenant information, where the resources allocated by the resource management module 120 are abstract representations of resource entities that an application program depends on when creating and running, and represent one or more physical resource entities, for example: physical resource entities such as computing, storage, network, and the like.

The resources allocated by the resource management module 120 may include, but are not limited to, computing resources, storage resources, network resources, and the like. The resources allocated by the resource management module 120 to the tenant may further include an IP address, a user name, a password, etc., and after the resource management module 120 completes the allocation of the resources, the resources allocated are further used to feed back the allocated resources to the service management module 140, so as to develop research and development services and application software.

It will be appreciated that the above-described allocated resources may also be allocated to the application management module 150 for use in off-the-shelf processing of development services or application software using the allocated resources.

The function definition information acquired by the resource management module 120 may include function software code of an application software that needs to be designed or configured.

The function definition information may be obtained by soliciting the needs of the user, or may be proposed by a developer or tenant, which is not specifically limited herein.

The resource application information includes information such as material resources, network resources, and computing resources required for implementing the functions in the function definition information.

In order to ensure the reasonability of the resource management module 120 in allocating resources for the resource application information, in this embodiment, the resource management module 120 includes a resource approval unit and a resource allocation unit.

The resource approval unit; the method is used for acquiring resource application information corresponding to pre-stored tenant information and sending the resource application information to an approval management and control platform associated with the process industrial application software ecosystem 100.

The resource allocation unit: when the approval management and control platform receives approval passing feedback information of the resource application information, resources are allocated to the tenant to which the tenant information belongs according to the resource application information.

The above-mentioned approval of the resource application information may be an approval according to the resource application information and the cost paid by the tenant, or may be an approval according to the resource application information of a plurality of tenants and the total resources of the process industrial application software ecosystem 100, where the process industrial application software ecosystem 100 simultaneously serves a plurality of tenants to generate a plurality of application software at the same time. Based on the above, the resource application information is sent to the approval management and control platform for approval, so that the rationality of the resource application information is ensured, and the rationality of the resources allocated to the tenant to which the tenant information belongs according to the resource information is further ensured.

Taking approval according to the resource application information and the fees paid by the tenant as an example, when the tenant uses the process industrial application software ecosystem 100 to generate the application software, the tenant needs to pay corresponding fees, and in order to ensure that the function information corresponding to the tenant information is matched with the paid fees, the application approval unit also sends the function definition information to an approval management platform associated with the process industrial application software ecosystem 100. When the resource allocation unit receives feedback information of approval passing of the approval management and control platform to the resource application information and the function definition information according to the function information and the resource information corresponding to the paid fees, resources are allocated to the tenant to which the tenant information belongs according to the resource application information, wherein multiple payment types, the function information and the resource information corresponding to each paid fee type are stored in the approval management and control platform, and the function information and the resource information corresponding to each paid fee type are multiple.

It can be understood that the above-mentioned examination and approval management and control platform can automatically examine and approve according to the payment cost in the tenant information and the corresponding function information and resource information of each payment cost; the approval management and control platform can be associated with an approval terminal, and transmits resource application information and payment cost to the approval terminal, so that an auditor can transmit approval feedback information based on the resource application information to the approval platform through the approval terminal to perform manual approval, namely, the mode of using the approval management and control platform to approve the resource application information is not particularly limited, and the configuration can be performed according to actual requirements.

The delivery management module 130 may interact with a development platform of a developer to obtain instance configuration information input to the development platform by the developer of the development platform according to the development pipeline in the delivery management module 130, the function definition information, and the resources allocated by the resource management module 120. And generating research and development services according to the instance configuration information and the function definition information.

The example configuration information comprises configuration parameters, program codes and the like required by the application software to be deployed, wherein the software refers to a process that the service becomes the application software after being deployed on required infrastructure resources, and the application software is obtained by inputting the service into a development platform through terminal equipment by a developer. The configuration parameters include, but are not limited to, the name, domain name, authentication mode, IP address black-and-white list and the like of the application software.

As can be seen from the foregoing, the delivery management module 130 is configured to implement a process from demand to delivery of a development service, provide a series of automated collaboration tools such as a story map, a billboard, a distribution roadmap, etc. for a developer, and provide a powerful online document editing capability, and support functions such as Office documents, common multimedia videos, icons, code highlighting, custom labels, subscriptions, comments, etc., so that the developer can input instance configuration information based on the functions provided by the delivery management module 130 and the development pipeline in the delivery module, the function definition information, and the resources allocated by the resource management module 120.

It should be noted that, in order to ensure the reliability of the development service generated by the delivery management module 130, in this embodiment, the delivery management module 130 further includes: a service generating unit and a service testing unit.

The service generating unit is used for acquiring the instance configuration information and generating research and development services according to the instance configuration information and the function definition information.

The service testing unit is configured to test the development service according to a test framework and a test script generated according to the requirement information corresponding to the development service, and send the development service to the service management module 140 when the test passes.

The test framework is built by a research and development personnel or a tester based on the requirement information, the test script can be obtained by inputting the requirement information or inputting the requirement information and the function definition information, and when the research and development service is tested by the test framework and the test script, the service generating unit can automatically call a service testing unit to automatically test the research and development service when the research and development service is generated, or manually test the research and development service, and when the test result is passed, the research and development service can be sent to the service management module 140 for instantiation management; and when the test result is that the test result does not pass, the research and development personnel need to adjust the configuration information so as to generate new research and development services according to the adjusted configuration information and the function definition information, and the test framework and the test script are used for testing the new research and development services again until the test passes.

It should be noted that when the development service is tested by using the test framework and the test script, the testing is mainly implemented from multiple aspects of code detection, code quality inspection, code walking, version branch merging, automatic unit testing, compiling, packaging, mirror image generation and the like.

By adopting the above test method, the research and development service generated by the delivery management module 130 can be ensured to be reliable and effective, and further the reliability and effectiveness of the application software finally generated by the process industrial application software ecosystem 100 can be ensured.

In addition, when the application software needs to be upgraded, the delivery management module 130 may further obtain an upgrade program input by a developer and send the upgrade program to the service management module 140.

Through the above arrangement, the delivery management module 130 has continuous delivery capability, so as to realize development, operation and maintenance integration, i.e. realize periodic collaboration communication of development, test and operation and maintenance, so that the process industrial application software ecosystem 100 has continuous integration, continuous deployment and continuous delivery capability.

The service management module 140 is configured to perform instantiation management on a development service, and also perform real-time monitoring and maintenance management on the development service.

Where instantiation refers to the process of creating objects with classes, i.e., creating a development service as application software, in object-oriented programming.

The service management module 140 may also be configured to provide functions of putting the developed service on-line, off-line, etc., and to provide functions of accessing, subscribing, upgrading, etc., the application software.

To facilitate the user's access to the application software, in this embodiment, the service management module 140 includes:

the service gateway management unit is configured to obtain, when the application management module 150 obtains the application software sent by the service management module 140, generate first address information of the application software, register second address information corresponding to the first address information based on the first address information, and feed back the second address information to the application management module 150, so that the application management module 150 generates a response result corresponding to the access request according to the received access request including the second address information sent by the user terminal, and feed back the response result to the user terminal.

In this embodiment, the first address information refers to address information of the application software in the application management module 150, the second address information refers to address information of the application software in a gateway, and the gateway realizes forwarding of the access request and the response result between the user side and the application management module 150 according to a correspondence between the first address information and the second address information. Alternatively, the gateway may be a single gateway or a cluster gateway (e.g., a KONG gateway).

Through the arrangement, various required services and infrastructure resources required by building application software are not required to be intensively researched and developed in the enterprise, so that the construction and maintenance difficulties of an enterprise internal informatization management system and the dependence on professional teams for system research and development are greatly reduced.

In one embodiment, the first address information may include a first IP address and a first port number of the application software (i.e., an IP address and a port number of the application software in the application management module 150), and the second address information includes a domain name pointing to a second IP address of the gateway and a second port number of the gateway, wherein the first IP address corresponds to the second IP address, and the first port number corresponds to the second port number. Based on the above, the user inputs a domain name and a port number of the application software in the browser of the user side, and then can initiate an access request to the application software and receive a response result returned by the application software.

Optionally, the gateway further allows the user side to obtain the second address information of the application software by inputting the name of the application software. That is, in response to the operation of the user side inputting the name of the application software, the gateway transmits the second address information of the application software to the user side. Further, the second address information may include a domain name pointing to a second IP address of the gateway and a second port number of the gateway. Based on the access request, the user initiates the access request to the application software and receives the response result returned by the application software by inputting the acquired second address information (comprising the domain name and the second port number) in the browser.

In addition, the resource management module 120, the delivery management module 130, the service management module 140 and the application management module 150 in the process industrial application ecosystem 100 may be multiple applications, and when there are multiple users accessing one or more applications at the same time, the service gateway management unit may provide a round robin and IP consistency hash manner to provide a load balancing function for the one or more applications that are accessed by the process industrial application ecosystem, so as to generate access results corresponding to the multiple access requests respectively and send the access results to the multiple users respectively.

The service management module 140 may be further configured to count corresponding data obtained when the user accesses the application software, for example, at least one of data traffic, access times, IP address of the accessing party, and response time. The statistics can be performed on the data recorded in the preset time interval, and log information can be generated.

Taking as an example the data traffic (or number of accesses) obtained by accessing the application software, the log information may comprise a sum of daily, weekly or monthly data traffic (number of accesses). The number of accesses and the IP address of the accessing party are included with the relevant data, and the log information may include the most (or least) IP address to access the service instance daily, weekly or monthly or a list of IP addresses ordered by how many times to access.

In addition, the service management module 140 may further provide a function of limiting access to the application software, for example, for a target application software, an upper limit value of data traffic or access times may be set for the target application software, or a black-and-white list of IP addresses of the access party may be set.

In order to facilitate the upgrade process of the application software, so as to ensure the performance and complete functions of the application software, in this embodiment, the service management module 140 further includes: and a service upgrade management unit.

The service upgrade management unit is configured to upgrade the application software according to an upgrade program for the application software provided by the delivery management module 130.

The upgrade program may include one or more of a program for upgrading a function of the application software, a program for upgrading an interface of the application software, a program for upgrading performance of the application software, and a program for upgrading compatibility of the application program, which are set according to actual requirements, and are not limited herein specifically.

By upgrading the application software, the application software has stronger functions, better performance, compatibility and even more beautiful interfaces, and the BUG of the old version application software is repaired, so that a user has better use experience.

In order to put the development service on shelf, the service management module 140 further includes a service put-on-shelf management unit.

The service on-shelf management unit is used for acquiring on-shelf parameter information corresponding to the on-shelf research and development service to be on-shelf, and on-shelf the on-shelf research and development service to be on-shelf according to the on-shelf parameter information.

The on-shelf parameter information includes parameter information such as service name, version number, service type, deployment mode, etc., and can be obtained based on input of a developer, for example, the on-shelf parameter can be obtained based on input of the developer through a development platform.

The development service is set up, so that when a target application software (set up application software) needs to be expanded to realize function upgrading, the target development service corresponding to the function to be expanded can be searched from the set up development service, the updated target application software can be obtained according to the target application software and the target development service, and meanwhile, the problem of too low upgrading efficiency when each function is upgraded can be effectively avoided.

In order to ensure the reliability of the on-shelf research and development service, in this embodiment, the service management module 140 further includes a service on-shelf approval unit and a service on-shelf management unit.

The service on-shelf approval unit is configured to generate service on-shelf application information of the to-be-on-shelf research and development service, and send the service on-shelf application information to an approval management and control platform associated with the process industrial application software ecosystem 100.

The service shelving management unit is used for acquiring shelf parameter information corresponding to the to-be-shelf research and development service when receiving the service shelving application approval passing information fed back by the approval management and control platform and carrying out shelf-setting on the to-be-shelf research and development service according to the shelf parameter information.

The approval management and control platform can pre-store the corresponding relation between the service on-shelf application of the research and development service and the approval result, so as to automatically approve the service on-shelf application information of the research and development service according to the corresponding relation, can also be associated with an approval terminal, and send the service on-shelf application information to the approval terminal, and acquire the approval result fed back by the approval terminal based on the service on-shelf application information by the approval personnel, so that manual approval is realized, and the approval mode is not particularly limited and can be set according to actual requirements.

In order to facilitate the off-shelf of the development service, in this embodiment, the service management module 140 further includes a service off-shelf approval unit and a service off-shelf management unit.

The service off-shelf approval unit is configured to obtain service off-shelf application information for a target development service, and send the service off-shelf application information to an approval management and control platform associated with the process industrial application software ecosystem 100. The service shelving application information comprises a shelving reason.

And the service shelving management unit is used for shelving the target research and development service when receiving the service shelving application approval passing information fed back by the approval management and control platform for the target research and development service.

The service off-shelf application information further comprises information such as the name, version number, service type, deployment mode and the like of the target research and development service.

It can be understood that the corresponding relation between the preset off-shelf reason and the approval result can be pre-stored in the approval management and control platform so as to perform automatic approval according to the corresponding relation, the approval management and control platform can be also associated with an approval terminal, the service off-shelf application information is sent to the approval terminal, the approval result fed back by the approval terminal based on the service off-shelf application information by the approval personnel is obtained, so that manual approval is realized, the above approval mode is not specifically limited, and the device can be set according to actual requirements.

To facilitate assigning different rights to different users, in this embodiment, the service management module 140 further includes:

and the permission distribution management unit is used for receiving subscription information input by a user for the application software and distributing permission for using the application software to the user according to the subscription information.

The subscription information comprises subscribed function names, tertiary domain names, authentication modes, IP black-and-white lists, user information and the like.

The subscription information may further include authority application information for using the application software, and the authority allocation management unit may be specifically configured to allocate, to the user, the authority for using the application software according to the authority application information for using the application software in the subscription information.

It may be appreciated that, when the subscription information includes rights application information for using the application software, the service management module 140 may further include a rights approval unit, where the rights approval unit is configured to send the rights application information in the application subscription information to an approval management platform associated with the process industrial application ecosystem 100; the permission distribution management unit can also distribute the permission for using the application software to the user according to the subscription information when receiving approval passing information of the permission application information in the application software subscription information fed back by the approval management and control platform.

When the information management module 110 stores user groups corresponding to different user responsibilities corresponding to the application software and authority information corresponding to each user group, the application management unit may further search, according to the user responsibilities included in the user information, authority information corresponding to the subscription information from a correspondence between the user responsibilities corresponding to the application software and the authority stored in the information management module 110, and allocate the authority to the user corresponding to the subscription information according to the authority information.

The above manner of assigning rights to the user according to the subscription information may be set according to actual requirements, which is not specifically limited herein.

The application management module 150 is configured to put on shelf the application software for the user to subscribe to and use the application software, and in addition, the application management module 150 may be further configured to monitor and maintain the application software, for example, put on shelf, put off shelf, upgrade, and the like, of the application software.

In order to ensure the reliability of the application software on the shelf, in this embodiment, the application management module 150 includes an information generating unit and an application on-shelf management unit.

The information generating unit is configured to generate application information for application software when the application software obtained by the service management module 140 is obtained, and send the application information for application software to an approval management platform associated with the process industrial application software ecosystem 100.

The application shelving management unit is used for shelving the application software when receiving the application shelving application approval passing information of the application software fed back by the approval management and control platform.

In this embodiment, when the application software is put on the shelf, the application software is put on the shelf according to the put-on-shelf parameters, where the put-on-shelf parameters include: information such as the name, version number, access port number, operating system, installation script, etc. of the application software.

The approval management and control platform can pre-store the corresponding relation between the application shelf application information of the application software and the approval result, so as to automatically approve the application shelf application information of the application software according to the corresponding relation, can also be associated with an approval terminal, and send the application shelf application information of the application software to the approval terminal, and acquire the approval result that the approval terminal receives the approval result fed back by the approval personnel based on the application shelf application information of the application software, so that manual approval is realized, and the approval mode is not specifically limited herein and can be set according to actual requirements.

In order to ensure the reliability of the application software that is put on shelf, in this embodiment, the application management module 150 further includes an application-off-shelf approval unit and an application-off-shelf management unit.

The application off-shelf approval unit is configured to obtain application off-shelf application information for the target application software and send the application off-shelf application information to an approval management and control platform associated with the process industrial application software ecosystem 100. The application shelving application information comprises a shelving reason.

And the application shelving management unit is used for shelving the target application software when receiving application shelving application approval passing information fed back by the approval management and control platform.

The application off-shelf application information also comprises information such as the name, version number, service type, deployment mode and the like of the target application software.

It can be understood that the corresponding relation between the application information of the application software and the approval result can be pre-stored in the approval management and control platform so as to perform automatic approval according to the corresponding relation, the approval management and control platform can also be associated with an approval terminal, the application information of the application software applied by the application platform can be sent to the approval terminal, and the approval result, which is fed back by the approval terminal based on the application information of the application platform, is obtained, so that manual approval is realized.

Example two

Referring to fig. 2 and 3 in combination, an embodiment of the present application provides a process for generating and putting on-shelf application software by the process industrial application software ecosystem 100 in the first application embodiment, including:

the developer tenant pre-storing the tenant information sends function definition information and resource application information corresponding to the tenant information of the developer tenant to the resource management module 120, wherein the tenant information of the developer tenant is pre-stored in the information management module 110, and payment cost of the tenant to which the tenant information belongs is pre-stored in the information management module 110.

The resource management module 120 submits the resource application information to an approval management platform associated with the process industrial application software ecosystem 100 when receiving the function definition information and the resource application information, so that the approval management platform can audit the resource application information.

When receiving the resource application information sent by the resource management module 120, the approval management platform determines an approval result corresponding to the resource application information according to the resource application information, the payment cost of the tenant corresponding to the resource application information stored in the resource management module 120, and a plurality of prestored payment fees, and functional information and resource information corresponding to each payment fee, wherein the approval result is that the approval is passed or failed.

When receiving feedback information of approval passing of the approval management and control platform for the resource application information, the resource management module 120 allocates resources for the tenant to which the tenant information belongs according to the resource application information.

The developer inputs instance configuration information to a development platform associated with the delivery management module 130 based on the allocated resources, the function definition information, and a development pipeline in the delivery management module 130, and the development platform sends the instance configuration information to the delivery management module 130 upon receiving the instance configuration information.

The delivery management module 130 generates a development service according to the instance configuration information and the function definition information when the instance configuration information is acquired, tests the development service by using a test framework and a test script generated according to the requirement information corresponding to the development service, and transmits the development service to the service management module 140 when the test passes.

The service management module 140 generates service on-shelf application information of the development service and sends the service on-shelf application information to the approval management and control platform to approve on-shelf of the development service when receiving the on-shelf approval passing information of the development service, and on-shelf the development service based on the acquired on-shelf parameter information corresponding to the development service when receiving the on-shelf approval passing information of the development service. After the development service is put on shelf, the development service is instantiated to obtain application software, and the application software is sent to the application management module 150.

The application management module 150 generates application-on-shelf application information for the application software when receiving the application software, and sends the application-on-shelf application information to an approval management platform associated with the process industrial application software ecosystem 100.

And the approval management and control platform performs automatic approval on the application information according to the application information and the corresponding relation between the application information pre-stored with the application software and the approval result, wherein the approval result is approval passing or approval failing.

And when receiving the application on-shelf application approval passing information of the application software fed back by the approval management and control platform, the application management module 150 puts the application software on shelf.

Example III

Referring to fig. 4 in combination, the present embodiment provides a method for developing process industrial application software, which can be applied to the process industrial application software ecosystem 100 in the first embodiment, and the method for developing process industrial application software includes steps S110 to S140.

Step S110: acquiring function definition information and resource application information corresponding to pre-stored tenant information, and distributing resources for the tenant to which the tenant information belongs based on the resource application information, wherein the resource application information comprises information of resources required for realizing functions corresponding to the function definition information.

The description of step S110 may refer to the detailed description of the resource management module 120 shown in fig. 1, that is, step S110 may be performed by the resource management module 120, and thus, the detailed description of step S110 is not described herein.

Step S120: and obtaining instance configuration information and generating a research and development service according to the instance configuration information and the function definition information, wherein the instance configuration information is obtained by research and development personnel based on the allocated resources and the input of a development pipeline.

The description of step S120 may refer specifically to the detailed description of the delivery management module 130 shown in fig. 1, that is, step S120 may be performed by the delivery management module 130, and thus, the detailed description of step S120 is not described herein in detail.

Step S130: and carrying out instantiation processing on the development service to obtain application software.

The description of step S130 may refer to the detailed description of the service management module 140 shown in fig. 1, that is, step S130 may be performed by the service management module 140, and thus, the detailed description of step S130 is not described herein.

Step S140: and putting the application software on the shelf.

The description of step S140 may refer to the detailed description of the application management module 150 shown in fig. 1, that is, step S140 may be performed by the application management module 150, and thus, the detailed description of step S140 is not described herein.

Example IV

The present embodiment also provides a storage medium having a computer program stored thereon, where the computer program, when executed, can implement the steps of the method for developing process industrial application software provided in the foregoing method embodiment, where the method includes:

acquiring function definition information and resource application information corresponding to pre-stored tenant information, and distributing resources for the tenant to which the tenant information belongs based on the resource application information, wherein the resource application information comprises information of resources required for realizing functions corresponding to the function definition information;

acquiring instance configuration information, and generating research and development services according to the instance configuration information and the function definition information, wherein the instance configuration information is obtained by research and development personnel based on the distributed resources and input of a development pipeline;

carrying out instantiation processing on the development service to obtain application software;

and putting the application software on the shelf.

For a specific description of the storage medium, reference may be made to the foregoing description of the specific embodiment of the process industrial application ecosystem 100 and the specific description of the method for developing process industrial application in the third embodiment, which are not described in detail herein.

Example five

The embodiment of the application also provides a process industrial application software development device which can be a server, wherein the server can comprise a processor and a memory.

The processor is electrically connected to the memory, either directly or indirectly, to enable transmission or interaction of data, for example, the elements may be electrically connected to each other via one or more communication buses or signal lines. The storage medium in the fourth embodiment may be stored in a memory in the form of software or Firmware (Firmware) or a software module solidified in an Operating System (OS) of the flow industrial application software development device. The processor is configured to execute an executable module stored in the memory, such as a computer program stored in the storage medium, and the like, and to process the industrial application software development method. The processor may execute the computer program after receiving the execution instruction.

The processor may be an integrated circuit chip having signal processing capabilities. The processor may also be a general-purpose processor, such as a digital signal processor (Digital Signal Processor, DSP), application specific integrated circuit (Application Specific Integrated Circuit, ASIC), discrete gate or transistor logic, discrete hardware components, or may implement or perform the methods, steps, and logic blocks disclosed in embodiments of the present application. Further, the general purpose processor may be a microprocessor or any conventional processor or the like.

The Memory may be, but is not limited to, random access Memory (Random Access Memory, RAM), read Only Memory (ROM), programmable Read Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read Only Memory (Erasable Programmable Read-Only Memory, EPROM), and electrically erasable programmable Read Only Memory (Electric Erasable Programmable Read-Only Memory, EEPROM). The memory is used for storing a program, and the processor executes the program after receiving the execution instruction.

It should be understood that the process industry application software development device provided by the embodiments of the present application may also have fewer or more components than described above, or the same configuration. Furthermore, the components may be implemented by software, hardware, or a combination thereof.

When the process industrial application software development device is a server, the server may be a single server or a cluster server.

When the server is a cluster server, it may include one or more of a DNS server, a KONG service gateway, a Web application server, an elastic search server, and the like.

Wherein, the DNS server converts the domain name and the corresponding IP address. KONG service network management is an API gateway that forwards AOI traffic between clients and (micro) servers. The Web application server refers to a computer program of some type of mainstream and internet, and can provide documents to Web clients such as a browser, and can also place website files. The elastiscearch server is a Lucenede-based search server that provides a distributed, multi-user-capable full-text search engine.

In summary, the embodiment of the present invention provides a process industrial application software ecosystem 100, a development method and a storage medium, where the process industrial application software ecosystem 100 is configured with a resource management module 120, a delivery management module 130, a service management module 140 and an application management module 150, where the resource management module 120 is configured to obtain function definition information and resource application information corresponding to pre-stored tenant information, and allocate resources for a tenant to which the tenant information belongs based on the resource application information, where the resource application information includes information of resources required for implementing a function corresponding to the function definition information; a delivery management module 130, configured to obtain instance configuration information, and generate a development service according to the instance configuration information and the function definition information, where the instance configuration information is obtained by a developer based on the resources allocated by the resource management module 120, the function definition information, and a development pipeline input in the delivery management module 130; the service management module 140 is configured to instantiate the development service generated by the delivery management module 130 to obtain application software; and the application management module 150 is configured to obtain the application software obtained by the service management module 140, and put the application software on shelf. By using the process industrial application ecosystem 100 described above, an omnibearing, overall process monitoring is realized in the process of generating the application software, and a digitalized, networked and intelligent management in the process of establishing the application software is realized.

In the several embodiments provided in the present application, it should be understood that the disclosed system and method may be implemented in other manners as well. The above-described embodiments are merely illustrative, for example, of the flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, functional modules in the embodiments of the present application may be integrated together to form a single part, or each module may exist alone, or two or more modules may be integrated to form a single part.

The functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and variations will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

It should be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

It should be noted that the above description is only a specific embodiment of the present application, but the description is only an embodiment adopted for the purpose of facilitating understanding of the present application, and is not intended to limit the present application. It will be understood by those skilled in the art that various changes and modifications in form and detail may be made therein without departing from the spirit and scope of the application as defined by the appended claims, and that various changes and substitutions may be readily made therein without departing from the spirit and scope of the application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (11)

1. A process industry application ecosystem, comprising:

the resource management module is used for acquiring function definition information and resource application information corresponding to pre-stored tenant information, and distributing resources for the tenant to which the tenant information belongs based on the resource application information, wherein the resource application information comprises information of resources required for realizing functions corresponding to the function definition information;

The delivery management module is used for acquiring instance configuration information and generating research and development services according to the instance configuration information and the function definition information, wherein the instance configuration information is input by research and development personnel based on resources distributed by the resource management module, the function definition information and a development pipeline in the delivery management module;

the service management module is used for carrying out instantiation processing on the research and development service generated by the delivery management module to obtain application software;

the application management module is used for acquiring the application software acquired by the service management module and putting the application software on shelf;

the information management module is used for receiving and storing tenant information sent by the tenant end, storing software information of application software corresponding to the tenant information and user groups capable of using the application software, wherein the user groups are obtained by dividing all user information corresponding to the tenant information according to user responsibilities, and each user group is respectively and correspondingly provided with corresponding permissions.

2. The process industrial application ecosystem of claim 1, wherein the service management module comprises:

The service gateway management unit is used for acquiring the first address information of the application software generated when the application management module acquires the application software sent by the service management module, registering the second address information corresponding to the first address information based on the first address information and feeding back the second address information to the application management module, so that the application management module generates a response result corresponding to the access request according to the received access request comprising the second address information sent by the user terminal and feeds back the response result to the user terminal.

3. The process industrial application ecosystem of claim 1, wherein the service management module further comprises:

and the service upgrading management unit is used for upgrading the application software according to the upgrading program for the application software provided by the delivery management module.

4. The process industrial application ecosystem of claim 1, wherein the service management module further comprises:

and the service shelving management unit is used for acquiring the shelving parameter information corresponding to the to-be-shelved research and development service and shelving the to-be-shelved research and development service according to the shelving parameter information.

5. The process industrial application ecosystem of claim 1, wherein the service management module further comprises:

and the permission distribution management unit is used for receiving subscription information input by a user for the application software and distributing permission for using the application software to the user according to the subscription information.

6. The process industrial application ecosystem of claim 1, wherein the application management module comprises:

the information generation unit is used for generating application on-shelf application information of the application software when the application software obtained by the service management module is obtained, and sending the application on-shelf application information to an approval management and control platform associated with the flow industrial application software ecosystem;

and the application shelving management unit is used for shelving the application software when receiving the application shelving application approval passing information of the application software fed back by the approval management and control platform.

7. The process industrial application ecosystem of claim 1, wherein the delivery management module comprises:

the service generation unit is used for acquiring the instance configuration information and generating research and development services according to the instance configuration information and the function definition information;

And the service testing unit is used for testing the research and development service according to a testing framework and a testing script which are generated according to the requirement information corresponding to the research and development service, and sending the research and development service to the service management module when the test passes.

8. The process industrial application ecosystem of claim 1, wherein the information management module comprises:

the information verification unit is used for matching the access key to be verified with the access key in the target tenant when receiving the adjustment information which carries the access key to be verified and aims at the information of the target tenant;

and the information adjustment unit is used for adjusting the target tenant information according to the adjustment information when the access key to be verified is matched with the access key in the target tenant information.

9. The process industrial application ecosystem of claim 1, wherein the resource management module comprises:

an application approval unit; used for acquiring resource application information corresponding to pre-stored tenant information and sending the resource application information to an approval management and control platform associated with the process industrial application software ecosystem,

resource allocation unit: when the approval management and control platform receives approval passing feedback information of the resource application information, resources are allocated to the tenant to which the tenant information belongs according to the resource application information.

10. A process industry application software development method, the method comprising:

acquiring function definition information and resource application information corresponding to pre-stored tenant information, and distributing resources for the tenant to which the tenant information belongs based on the resource application information, wherein the resource application information comprises information of resources required for realizing functions corresponding to the function definition information;

acquiring instance configuration information and generating research and development services according to the instance configuration information and the function definition information, wherein the instance configuration information is formed by research and development personnel based on allocated resources,The function definition informationAnd inputting development pipeline;

carrying out instantiation processing on the development service to obtain application software;

putting the application software on shelf;

and receiving and storing tenant information sent by the tenant end, storing software information of application software corresponding to the tenant information and user groups capable of using the application software, wherein the user groups are obtained by dividing all user information corresponding to the tenant information according to user responsibilities, and each user group is respectively and correspondingly provided with corresponding rights.

11. A storage medium having stored thereon a computer program which, when executed by one or more processors, implements the method of claim 10.