CN116684301B - Method, system, equipment and storage medium for realizing cross-range task collaboration - Google Patents

Abstract

The invention provides a method, a system, equipment and a storage medium for realizing cross-range task collaboration, wherein the method comprises the following steps: publishing the collaborative tasks of which the definition is completed; receiving the issued collaborative task, and splitting the collaborative task into an internal docking task and an external docking task of the network shooting range; screening message sources related to the cooperative task and matched with the network target range; screening API interfaces which are related to cooperative task demands and can be provided by a network target field; executing an internal butt joint task by using the virtualized service unit according to the message source and the API interface; and executing external docking tasks through the event bus and the API gateway according to the message source and the API interface respectively. The invention divides the cooperative task into an inner part and an outer part, so that the network targeting range realizes the butt joint between the resource service and the API interface layer, thereby completing the cooperative task.

Description

Method, system, equipment and storage medium for realizing cross-range task collaboration

Technical Field

The invention relates to the technical field of network shooting ranges, in particular to a method, a system, equipment and a storage medium for realizing cross-shooting range task collaboration.

Background

The network target range is a technology or product for simulating and reproducing the running states and running environments of network architecture, system equipment and business processes in a real network space based on a virtualization technology. The network target range construction is highly valued by enterprises and public institutions of various industries and different levels, the network target range construction is taken as an important supporting means for safety capability construction, the current situation that the network target ranges covering different levels, different industries and different technologies realize coexistence of the network target ranges of the circuits is formed, and how to realize the cooperation of the tasks of the network target ranges of the circuits of different technologies is a problem which is urgently needed to be solved at present.

Disclosure of Invention

In view of the above problems, the implementation method, the system, the equipment and the storage medium for cross-range task collaboration divide the collaborative task into an inner part and an outer part, realize the butt joint of different network ranges at two layers of a message source and an API interface, and finally finish the collaborative task, thereby solving the prior art problems.

In order to solve the technical problems, the invention provides the following technical scheme:

in a first aspect, the present invention provides a method for implementing cross-range task collaboration, where the method includes the following steps:

publishing the collaborative tasks of which the definition is completed;

receiving the issued collaborative task, and splitting the collaborative task into an internal docking task and an external docking task of the network shooting range;

screening message sources related to the cooperative task and matched with the network target range;

screening API interfaces which are related to cooperative task demands and can be provided by a network target field;

executing an internal butt joint task by using the virtualized service unit according to the message source and the API interface;

and executing external docking tasks through the event bus and the API gateway according to the message source and the API interface respectively.

In one embodiment, the collaborative task performed by the publication definition includes:

the definition of the collaborative task is completed through describing basic information, extension content, task type, task process, message receiving mode and API receiving mode of the collaborative task;

and sending the defined collaborative tasks to a designated network target or other network targets by adopting a subscription and release mode, wherein the released content comprises the collaborative tasks, a message source and an API (application program interface).

In one embodiment, the performing the internal docking task with the virtualized service unit according to the message source and the API interface includes:

constructing a virtualized service unit;

executing data acquisition, resource access and resource management of the network target range by using the virtualization service unit, and communicating data of different dimensions of the network target range in the cooperative task process;

replacing the constructed virtualized service unit with a virtualized service unit applicable to the network target range to adapt to the network target range environment and waiting to be called by the API gateway;

the virtualized service unit is a virtual machine or a container.

In one embodiment, the executing the external docking task according to the message source and the API interface through the event bus and the API gateway respectively includes:

the message source and the API interface are respectively shared to a system task initiator through an event bus and an API gateway, and message synchronization, remote observation and file sharing in the cooperative task process are provided;

and calling the opposite-end development service of the API gateway to develop a cooperative task of the network targeting.

In a second aspect, the present invention provides a system for implementing cross-range task collaboration, the system comprising:

the collaborative task publishing module: the collaborative task is used for issuing definition completion;

and the collaborative task splitting module is used for: the method comprises the steps of receiving a published collaborative task, and splitting the collaborative task into an internal docking task and an external docking task of a network shooting range;

a first screening module: for screening message sources related to collaborative tasks and matching a network targeting;

and a second screening module: an API interface which is used for screening and is related to the cooperative task requirement and can be provided by a network target field;

a first docking module: the system comprises a virtualization service unit, a message source and an API interface, wherein the virtualization service unit is used for executing internal docking tasks according to the message source and the API interface;

and a second docking module: and the external docking tasks are executed through the event bus and the API gateway according to the message source and the API interface respectively.

In an embodiment, the collaborative task publishing module is specifically configured to:

the definition of the collaborative task is completed through describing basic information, extension content, task type, task process, message receiving mode and API receiving mode of the collaborative task;

and sending the defined collaborative tasks to a designated network target or other network targets by adopting a subscription and release mode, wherein the released content comprises the collaborative tasks, a message source and an API (application program interface).

In an embodiment, the first docking module is specifically configured to:

constructing a virtualized service unit;

executing data acquisition, resource access and resource management of the network target range by using the virtualization service unit, and communicating data of different dimensions of the network target range in the cooperative task process;

replacing the constructed virtualized service unit with a virtualized service unit applicable to the network target range to adapt to the network target range environment and waiting to be called by the API gateway;

the virtualized service unit is a virtual machine or a container.

In an embodiment, the second docking module is specifically configured to:

the message source and the API interface are respectively shared to a system task initiator through an event bus and an API gateway, and message synchronization, remote observation and file sharing in the cooperative task process are provided;

and calling the opposite-end development service of the API gateway to develop a cooperative task of the network targeting.

In a third aspect, the present invention provides an electronic device comprising:

a processor, a memory, an interface in communication with the gateway;

the memory is used for storing programs and data, and the processor calls the programs stored in the memory to execute the implementation method of cross-range task collaboration provided by any one of the first aspects.

In a fourth aspect, the present invention provides a computer readable storage medium comprising a program which, when executed by a processor, is adapted to carry out a method of implementing cross-range task collaboration as provided in any of the first aspects.

From the above description, the present invention receives the published collaborative task by publishing the collaborative task defined and splits the collaborative task into an internal docking task and an external docking task of the network target range, screens the message source and the API interface, executes the internal docking task by using the virtualized service unit according to the message source and the API interface, and executes the external docking task by respectively using the event bus and the API gateway according to the message source and the API interface. The collaborative task is divided into an inner part and an outer part, so that the network targeting range realizes the butt joint between the resource service and the API interface layer, and the collaborative task is further completed.

Drawings

Fig. 1 is a schematic flow chart of a method for implementing task collaboration across a target range according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a system for implementing task collaboration across a target range according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an electronic device according to an embodiment of the invention.

Detailed Description

The present invention will be further described with reference to the drawings and the detailed description below, in order to make the objects, technical solutions and advantages of the present invention more apparent. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Based on the shortcomings of the prior art, the embodiment of the present invention provides a specific implementation manner of a control method, as shown in fig. 1, the method includes the following steps:

s110: the collaborative tasks that define completion are published.

Specifically, the step mainly comprises the steps of completing definition and release of collaborative tasks among different network targets, and releasing the defined collaborative tasks to the interconnected network targets or receiving the defined collaborative tasks from other network targets needing to be subjected to collaborative task butt joint.

The cooperative task is defined in the following manner: the definition of the collaborative task is completed by describing basic information, extension content, task type, task process, message receiving mode and API receiving mode of the collaborative task. The basic information includes the name of the collaborative task, the target, the task details, etc. The expansion content comprises external resource acquisition required by the cooperative task, communication in the cooperative task process, feedback information mode in the cooperative task executing process, final delivery of cooperative task data, remote verification and calling mode of a network target range in the task process and the like, and the expansion content can be expanded and perfected in the cooperative task defining process according to actual requirements. Through the description of the task process, the network targeting can fully understand the main execution process of the cooperative task. By describing the message receiving mode and the API receiving mode, corresponding docking foundations are provided for different network targets at a message layer and a behavior layer respectively.

The mode of collaborative task release is as follows: and sending the defined collaborative tasks to a designated network target or other network targets by adopting a subscription and release mode, wherein the released content comprises the collaborative tasks, a message source and an API (application program interface). That is, defined completed collaborative tasks may interface with multiple network sites, published collaborative tasks stored in message pairs and sent to designated network sites or other network sites via message queues. The publisher of the collaborative task does not need to make any change after the collaborative task is published, the network targeting does not need to trigger any action, and when one of the network targeting fails, the other network targeting can continue to execute the collaborative task without being affected. In the collaborative task release process, the network target of the release party can continue to execute the task without waiting for the processing result of the docking network target, thereby reducing delay. When the amount of cooperative task is increased, the cooperative task definition process can process according to the maximum processing capacity of the cooperative task definition process, the defined cooperative tasks are all stored in a message queue, and the ultrahigh traffic of a certain period of time is shared for digestion in a longer period of time, so that systematic breakdown is avoided.

S120: and receiving the published collaborative task, and splitting the collaborative task into an internal docking task and an external docking task of the network shooting range.

Specifically, the step mainly comprises the steps of receiving the defined and completed collaborative task and splitting the collaborative task into an internal part and an external part. After receiving the collaborative task, the content of the collaborative task needs to be known and the detailed information thereof is consulted, and the collaborative task is split into an internal docking task and an external docking task, such as the progress condition of the network shooting range, data synchronization, result synchronization, external service access and the like.

S130: message sources associated with the collaborative task and matching the network targeting are screened.

Specifically, this step is to define the message source. The message source is required to be related to the requirements of the cooperative task and matched with the network target range, so that the butt joint of the network target range is realized at the message layer conveniently. Message sources include, but are not limited to, message queues in a network target, http gateways, databases, log services, application engines, etc., and docking modes. The subject of the docking includes, but is not limited to, a centralized management system, a core component, a virtualized management platform, a mission critical entity device, a data storage device, or a database within a network target. And synchronizing each item of information in the cooperative task duration process by using the screened message sources.

S140: the API interfaces associated with the collaborative task requirements and provided by the network targets are screened.

Specifically, this step is to define an API interface. The API interface is required to be relevant to the requirements of the cooperative task, and the network target field can be provided, so that the butt joint of the network target field is realized at the behavior layer conveniently. API interfaces include, but are not limited to, generic network protocols (e.g., FTP services, http services, etc.) in a network vault and other proprietary protocols that require proxy implementation when accessed (e.g., industrial control protocols, terminals/proxies that require proprietary client software access, are not TCP/IP protocol stack-based, and can provide an integrated access environment and simulation protocol).

S150: and executing the internal butt joint task by utilizing the virtualized service unit according to the message source and the API interface.

Specifically, the step is to provide the resource access form and mode of the message layer (message source) and the behavior layer (API interface) which can be controlled or supported by the network target by the resource management, and realize the butt joint of the message layer and the behavior layer in the basic resource definition or basic composition unit mode of the current network target.

In order to achieve the above object, it is necessary to construct a virtualized service unit, which is a virtual machine, a container, or the like. The virtual service unit is in unified docking with the network target range, can be composed of existing basic elements of the network target range, is integrated and constructed with the network target range, and finally is integrated into the network target range or realizes configuration management.

And executing data acquisition, resource access and resource management of the network target range by using the virtualization service unit, and communicating data of different dimensions of the network target range in the cooperative task process so as to realize interconnection and intercommunication of the network target range in a message layer. The resource management includes management of mirror resources, container resources and data resources. The mirror image resources refer to various virtual machine resources, the resources can be used as virtualized resources, and can be flexibly accessed into a network target range and called by an external API gateway at the same time, and the provision comprises the access of an access terminal and the access of the network target range by using a specific program; non-tcp/ip protocols, access modes of non-generic protocol clients, etc. may be provided. The container resource refers to various service applications, including but not limited to tcp/ip protocols or general protocols, which can be directly accessed by network targets such as ftp service, web service, telnet service and the like; the context of the message queue may also be run for collecting message data for the network target. The data resource refers to data required by the task process and provided for the outside, or the obtained data provided for the outside is stored, or the process or result data in the stored task can be issued through the API gateway.

And replacing the constructed virtualized service unit with a virtualized service unit suitable for the network target range to adapt to the environment of the network target range and waiting to be called by an API gateway, so as to realize interconnection and intercommunication in a behavior layer inside the network target range. That is, the virtualized service unit can be downloaded by different network targets and then updated, and the updated virtualized service unit is uploaded again, so that the current network target environment can be ensured to be adapted, and a universal technical component is adapted to lay a foundation for the subsequent call of the API gateway. More specifically, the virtualized service unit is constructed to integrate with and build and integrate into the network target ranges, and in this way, the virtualized service unit is integrated and docked with different network target ranges, and after docking, the different network target ranges can interact with each other at a message layer and a behavior layer to perform internal docking tasks.

S160: and executing external docking tasks through the event bus and the API gateway according to the message source and the API interface respectively.

Specifically, a message source and an API interface are respectively shared to a system task initiator through an event bus and an API gateway, and message synchronization, remote observation and file sharing in a collaborative task process are provided;

and calling the opposite-end development service of the API gateway to develop a cooperative task of the network targeting.

That is, the message source and the API interface resource which are butted inside the built network target are shared by the cooperative task initiator through the event bus and the API gateway respectively, and the message synchronization, the remote viewing (VNC/RPD), the file sharing (SFTP/FTP) and other services in the cooperative task process are provided until the cooperative task is finished.

As will be appreciated by those skilled in the art: the event bus allows communication between different network ranges without mutual dependence, and the decoupling purpose is achieved. Events are made up of event sources and event processing, defining a one-to-many dependency between objects such that every time an object changes state, all objects that depend on it are notified and automatically updated. There are two keywords in the publish-subscribe model-notification and update. The observed person state change informs the observer to make a corresponding update. The problem that other objects need to be informed of corresponding changes when the objects change is solved.

API gateway: can be placed between two network targets, the API gateway acts as the only portal to the system, and all requests entering the system need to go through the API gateway. When an application or client outside the system accesses the system, it is necessary to judge their rights. If the transmission protocols are inconsistent, the protocols need to be converted; if the horizontally extended service is called, load balancing is needed; once the requested flow exceeds the range that the system is subjected to, a throttling operation is required. For each request and reply, the system may record a log of the response, and the function that can be extracted from the service may be implemented on the API gateway as long as the function relates to the request to the system.

The invention receives the published collaborative task by publishing the defined collaborative task, and splits the collaborative task into an internal docking task and an external docking task of the network shooting range. And screening the message source and the API interface, executing an internal docking task by using the virtualized service unit according to the message source and the API interface, and executing an external docking task through the event bus and the API gateway according to the message source and the API interface. The collaborative task is divided into an inner part and an outer part, so that the network targeting range realizes the butt joint between the resource service and the API interface layer, and the collaborative task is further completed.

Based on the same inventive concept, the embodiment of the application also provides a system for realizing cross-range task collaboration, which can be used for realizing the method for realizing cross-range task collaboration described in the embodiment, as described in the following embodiment. Because the principle of solving the problem by the system is similar to that of the method, the implementation of the system can be referred to as the implementation of the method, and the repetition is not repeated. As used below, the term "unit" or "module" may be a combination of software and/or hardware that implements the intended function. While the system described in the following embodiments is preferably implemented in software, implementation in hardware, or a combination of software and hardware, is also possible and contemplated.

As shown in fig. 2, the present invention provides a system for implementing task collaboration across a target range, where in fig. 2, the system includes:

collaborative task publishing module 210: the collaborative task is used for issuing definition completion;

the collaborative task splitting module 220: the method comprises the steps of receiving a published collaborative task, and splitting the collaborative task into an internal docking task and an external docking task of a network shooting range;

the first screening module 230: for screening message sources related to collaborative tasks and matching a network targeting;

the second screening module 240: an API interface which is used for screening and is related to the cooperative task requirement and can be provided by a network target field;

the first docking module 250: the system comprises a virtualization service unit, a message source and an API interface, wherein the virtualization service unit is used for executing internal docking tasks according to the message source and the API interface;

the second docking module 260: and the external docking tasks are executed through the event bus and the API gateway according to the message source and the API interface respectively.

In the implementation system of cross-range task collaboration according to an embodiment of the present invention, the collaborative task publishing module 210 is specifically configured to:

the definition of the collaborative task is completed through describing basic information, extension content, task type, task process, message receiving mode and API receiving mode of the collaborative task;

and sending the defined collaborative tasks to a designated network target or other network targets by adopting a subscription and release mode, wherein the released content comprises the collaborative tasks, a message source and an API (application program interface).

In an embodiment of the present invention, the first docking module 250 is specifically configured to:

constructing a virtualized service unit;

executing data acquisition, resource access and resource management of the network target range by using the virtualization service unit, and communicating data of different dimensions of the network target range in the cooperative task process;

replacing the constructed virtualized service unit with a virtualized service unit applicable to the network target range to adapt to the network target range environment and waiting to be called by the API gateway;

the virtualized service unit is a virtual machine or container.

In an embodiment of the present invention, the second docking module 260 is specifically configured to:

the message source and the API interface are respectively shared to a system task initiator through an event bus and an API gateway, and message synchronization, remote observation and file sharing in the cooperative task process are provided;

and calling the opposite-end development service of the API gateway to develop a cooperative task of the network targeting.

The embodiment of the present application further provides a specific implementation manner of an electronic device capable of implementing all the steps in the method in the foregoing embodiment, and referring to fig. 3, the electronic device 300 specifically includes the following:

a processor 310, a memory 320, a communication unit 330, and a bus 340;

wherein the processor 310, the memory 320, and the communication unit 330 perform communication with each other through the bus 340; the communication unit 330 is configured to implement information transmission between the server-side device and the terminal device.

The processor 310 is configured to invoke a computer program in the memory 320, and when the processor executes the computer program, implement all the steps in the implementation method of cross-range task collaboration in the above embodiment.

Those of ordinary skill in the art will appreciate that: the Memory may be, but is not limited to, random access Memory (Random Access Memory; RAM; ROM; programmable Read-Only Memory; PROM; erasable ROM; erasable Programmable Read-Only Memory; EPROM; electrically erasable ROM; electric Erasable Programmable Read-Only Memory; EEPROM; etc.). The memory is used for storing a program, and the processor executes the program after receiving the execution instruction. Further, the software programs and modules within the memory may also include an operating system, which may include various software components and/or drivers for managing system tasks (e.g., memory management, storage device control, power management, etc.), and may communicate with various hardware or software components to provide an operating environment for other software components.

The processor may be an integrated circuit chip with signal processing capabilities. The processor may be a general-purpose processor, including a central processing unit (Central Processing Unit, abbreviated as CPU), a Network Processor (NP), and the like. The disclosed methods, steps, and logic blocks in the embodiments of the present application may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The present application also provides a computer readable storage medium comprising a program which, when executed by a processor, is adapted to carry out the implementation method of cross-range task collaboration provided by any of the method embodiments described above.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the method embodiments described above may be performed by hardware associated with program instructions. The foregoing program may be stored in a computer readable storage medium. The program, when executed, performs steps including the method embodiments described above; and the aforementioned storage medium includes: various media may store program code, such as ROM, RAM, magnetic or optical disks, and the specific type of media is not limiting in this application.

The present invention is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present invention are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims (10)

1. The method for realizing cross-range task collaboration is characterized by comprising the following steps:

publishing the collaborative tasks of which the definition is completed;

receiving the issued collaborative task, and splitting the collaborative task into an internal docking task and an external docking task of the network shooting range; the splitting of the cooperative task into the internal butt joint task and the external butt joint task is based on understanding the content of the cooperative task and consulting detailed information thereof, and the content of the task and consulting the detailed information thereof comprises the progress condition, data synchronization, result synchronization and external service access of the network target range;

screening message sources related to the cooperative task and matched with the network target range;

screening API interfaces which are related to cooperative task demands and can be provided by a network target field;

executing an internal butt joint task by using the virtualized service unit according to the message source and the API interface;

and executing external docking tasks through the event bus and the API gateway according to the message source and the API interface respectively.

2. The method for implementing cross-range task collaboration according to claim 1, wherein the publishing the defined completion of the collaborative task comprises:

the definition of the collaborative task is completed through describing basic information, extension content, task type, task process, message receiving mode and API receiving mode of the collaborative task;

and sending the defined collaborative tasks to a designated network target or other network targets by adopting a subscription and release mode, wherein the released content comprises the collaborative tasks, a message source and an API (application program interface).

3. The method for implementing cross-stadium task collaboration of claim 1, wherein the performing internal docking tasks with a virtualization service unit according to a message source and an API interface comprises:

constructing a virtualized service unit;

executing data acquisition, resource access and resource management of the network target range by using the virtualization service unit, and communicating data of different dimensions of the network target range in the cooperative task process;

replacing the constructed virtualized service unit with a virtualized service unit applicable to the network target range to adapt to the network target range environment and waiting to be called by the API gateway;

the virtualized service unit is a virtual machine or a container.

4. The method for implementing cross-range task collaboration according to claim 1, wherein the performing external docking tasks according to the message source and the API interface via the event bus and the API gateway, respectively, comprises:

the message source and the API interface are respectively shared to a system task initiator through an event bus and an API gateway, and message synchronization, remote observation and file sharing in the cooperative task process are provided;

and calling the opposite-end development service of the API gateway to develop a cooperative task of the network targeting.

5. A system for implementing cross-range task collaboration, the system comprising:

the collaborative task publishing module: the collaborative task is used for issuing definition completion;

and the collaborative task splitting module is used for: the method comprises the steps of receiving a published collaborative task, and splitting the collaborative task into an internal docking task and an external docking task of a network shooting range; the splitting of the cooperative task into the internal butt joint task and the external butt joint task is based on understanding the content of the cooperative task and consulting detailed information thereof, and the content of the task and consulting the detailed information thereof comprises the progress condition, data synchronization, result synchronization and external service access of the network target range;

a first screening module: for screening message sources related to collaborative tasks and matching a network targeting;

and a second screening module: an API interface which is used for screening and is related to the cooperative task requirement and can be provided by a network target field;

a first docking module: the system comprises a virtualization service unit, a message source and an API interface, wherein the virtualization service unit is used for executing internal docking tasks according to the message source and the API interface;

and a second docking module: and the external docking tasks are executed through the event bus and the API gateway according to the message source and the API interface respectively.

6. The system for implementing cross-range task collaboration according to claim 5, wherein the collaborative task publishing module is specifically configured to:

the definition of the collaborative task is completed through describing basic information, extension content, task type, task process, message receiving mode and API receiving mode of the collaborative task;

and sending the defined collaborative tasks to a designated network target or other network targets by adopting a subscription and release mode, wherein the released content comprises the collaborative tasks, a message source and an API (application program interface).

7. The system for implementing cross-range task collaboration of claim 6, wherein the first docking module is specifically configured to:

constructing a virtualized service unit;

executing data acquisition, resource access and resource management of the network target range by using the virtualization service unit, and communicating data of different dimensions of the network target range in the cooperative task process;

replacing the constructed virtualized service unit with a virtualized service unit applicable to the network target range to adapt to the network target range environment and waiting to be called by the API gateway;

the virtualized service unit is a virtual machine or a container.

8. The system for implementing cross-range task collaboration of claim 5, wherein the second docking module is specifically configured to:

the message source and the API interface are respectively shared to a system task initiator through an event bus and an API gateway, and message synchronization, remote observation and file sharing in the cooperative task process are provided;

and calling the opposite-end development service of the API gateway to develop a cooperative task of the network targeting.

9. An electronic device, comprising:

a processor, a memory, an interface in communication with the gateway;

the memory is used for storing programs and data, and the processor calls the programs stored in the memory to execute a method for realizing cross-range task collaboration according to any one of claims 1 to 4.

10. A computer readable storage medium, characterized in that it comprises a program for performing a method of achievement of cross-range task collaboration according to any of claims 1 to 4 when executed by a processor.