CN114124951B - Method and system for constructing industry cloud service instance in multi-cloud environment - Google Patents

Abstract

The invention discloses a method and a system for constructing an industry cloud service instance in a multi-cloud environment, which belong to the field of cloud computing service instance arrangement, the technical problem to be solved by the invention is that an arrangement device in the prior art lacks of refining and packaging cloud computing basic capability, and cannot abstract the combination of multi-cloud application capability to form a new product, and the adopted technical scheme is as follows: the method comprises the following steps: based on the differentiated atomic capacity and atomic object under the cloud environment, carrying out common business logic extraction; the combination and multiplexing of the capability and the object are realized through the service unit; defining a service model facing to a final client through a service template; the creation and change distribution of the time service is automated through the service instantiation manager. The system comprises a visual editor, a logical capability abstract unit, a cloud service unit, a service template manager and a service instantiation manager.

Description

Method and system for constructing industry cloud service instance in multi-cloud environment

Technical Field

The invention relates to the field of cloud computing service instance arrangement, in particular to a method and a system for constructing an industry cloud service instance in a multi-cloud environment.

Background

In the 5G era, the cloud path of a telecom operator needs to be comprehensively promoted from four aspects of network architecture, infrastructure, business service and operation mode, network capability opening is taken as a basis while network requirements of future converged application scenes are met, innovation investment in the capability platform and cloud service field is required to be increased, and cloud service oriented to the vertical industry field is accelerated to be promoted so as to adapt to the upcoming digital economic era.

The 5G era is forthcoming, cloud computing will come into a new burst, and for telecom operators, opportunities and challenges coexist, so that the cloud computing field in China is occupied, market demands are accurately mastered while innovative drive development is maintained, diversified cooperation is sought, and a benign ecological system is created, so that continuous increase of business income is realized

Existing public cloud computing products in the market are roughly divided into five categories of products, namely cloud computing, cloud storage, cloud network, cloud security and cloud SASS application. On one hand, aiming at small and medium-sized enterprises or individual owner client groups, the client needs are single, the main marketing means is an internet ordering marketing mode, the business mode is advanced and mature, and on-line consumer ordering and opening are realized by establishing product marketing with refined classification on standardized products. On the other hand, for medium and large enterprises, a single product cannot meet the cloud rising requirements of clients. In order to meet the diversified customer requirements of customers, a one-to-one butt consultation marketing service mode under a scheme manager is generally adopted, and the customer requirements are met through customized services.

The prior art has a visual arrangement tool which is generally used for visual configuration of product deployment parameters and visual configuration of business processes. Convergence of customer requirements and formation of industry solutions relies on project manager experience and capabilities, both lacking support tools for project manager project design and inability to form industry solution templates for subsequent standardized marketing.

The prior art orchestrator has the following technical disadvantages:

① The product arrangement is simple, the arrangement object is a cloud product, and no support for industry solutions is provided;

② Only a single cloud platform is supported, and multi-cloud environment support for industry users is not considered;

③ The lack of definition of service operation generally only involves opening and deleting, and is not supported for common service operations such as backup, migration and the like.

The orchestrator in the prior art is mainly suitable for the visual orchestration of the flow and the visual orchestration of the product parameters, is mainly used for the instantiation of the product to open the adaptation and the scheduling of the flow, lacks the extraction and encapsulation of the basic capability of cloud computing, and cannot abstract the combination of the multiple cloud application capabilities to form a new product.

Disclosure of Invention

The technical task of the invention is to provide a method and a system for constructing an industry cloud service instance in a multi-cloud environment, which are used for solving the problems that an orchestrator in the prior art lacks of refining and packaging the basic capability of cloud computing and cannot abstract the combination of multi-cloud application capability to form a new product.

The technical task of the invention is realized in the following way, namely a method for constructing an industrial cloud service instance in a multi-cloud environment, which comprises the following steps:

based on the differentiated atomic capacity and atomic object under the cloud environment, carrying out common business logic extraction;

The combination and multiplexing of the capability and the object are realized through the service unit;

Defining a service model facing to a final client through a service template;

the creation and change distribution of the time service is automated through the service instantiation manager.

Preferably, the common business logic extraction is specifically as follows:

Extracting common interface capability facing cloud computing service by analyzing and extracting API interfaces of each cloud platform;

assembling and extracting common yard objects based on the common interface capability; wherein the business granularity of atomic objects can be freely combined.

Preferably, the combination and multiplexing of the capability and the object are realized by the service unit specifically as follows:

the combination relation between the atomic objects is realized through the combination management carding between the atomic objects, so that the construction of the atomic objects to the service unit is realized; wherein the combination relationship includes a constituent relationship, a combination relationship, and a subordinate relationship.

Preferably, the service model for the final client is defined by the service template specifically as follows:

The rapid visual model construction facing the user is realized by carrying out a graphical-based combination assembly mode on the atomic capacity, the atomic object, the attribute and the parameter of the service unit and the combination relation metadata.

More preferably, the creation and change distribution of the automatic time service by the service instantiation manager is specifically as follows:

The service initiator dynamically generates a configurable service parameter logic interface facing the final client by acquiring parameter information of the service template;

after the final customer selects the logic parameters corresponding to the service template, the service instantiation manager changes and creates the service instance according to the state of the current service instance; wherein the state of the current service instance includes an existing state and an absent state;

in the creation operation, the service instantiation manager decomposes the combination management of the service units and the atomic objects layer by layer downwards through the service template, and dynamically builds a call relation directed acyclic graph of the atomic capacity;

under the changing operation, the service instantiation manager automatically calculates an atom object set to be added and deleted by a modifier according to the change of the target instance and the current instance and a service template, and dynamically constructs a call relation directed acyclic graph of the atomic capacity;

the service instantiation manager dynamically updates and maintains the internal instances and instance parameters of the service instance object.

A system for building industry cloud service instances in a multi-cloud environment, the system comprising,

The visual editor is used for assembling and designing the atomic objects, the service units and the logic association relations, and realizing the design and arrangement of the component logic relations and the configuration parameters in a dragging mode;

The logic capability abstract unit is used for providing three layers of logic abstractions of cloud capability, namely a basic capability layer, a service unit layer and a service template layer, and realizing extraction of the basic capability in the cloud, assembly of the service unit and arrangement of the service template based on an industry solution;

the cloud service unit is used for forming logic services capable of bearing services in the cloud through the arrangement designer by the visual dragging of the atomic objects; the cloud service unit bears an independently-openable service minimum service unit required by a customer service, and consists of a basic capability layer and a service unit layer;

the service template manager is used for realizing scene-based service template design by depending on the visual service arrangement tool and constructing new product service or industry-based solutions; the service template manager is based on a basic capability layer and a service unit layer;

The service instantiation manager is used for managing defined atomic objects, atomic capabilities, service units, service templates and attribute, parameter and combination relation thereof, and is also used for dynamically updating and maintaining internal instances and instance parameters of the service instance objects.

Preferably, the visual composer comprises a componentization area, a visual logic composing design area, a parameter composing design area and an automatic code composing design area; the componentization region includes basic capability componentization and service unit componentization.

More preferably, the atomic object is the smallest programmable element in the model design, such as: VRF route target; the atomic object basic capability is a minimum capability unit which is indispensible to the cloud service, the cloud basic capability forms a cloud service unit, for example, an L3VPN is an atomic object, FFR protection is an atomic object, and VLAN is also an atomic object; the atomic object has action attributes such as creation, deletion of VRF route target. These actions map to the atomic capabilities of the controller and resource through business logic orchestration; the atomic object is encapsulation and combination of atomic capability from the concrete implementation;

The service instantiation manager specifically works as follows:

(1) The service initiator dynamically generates a configurable service parameter logic interface facing the final client by acquiring parameter information of the service template;

(2) After the final client selects the logic parameters corresponding to the service template, the service instantiation manager changes and creates the service instance according to the state of the current service instance; wherein the state of the current service instance includes an existing state and an absent state;

(3) In the creation operation, the service instantiation manager decomposes the combination management of the service units and the atomic objects layer by layer downwards through the service template, and dynamically builds a call relation directed acyclic graph of the atomic capacity;

(4) Under the changing operation, the service instantiation manager automatically calculates an atom object set to be added and deleted by a modifier according to the change of the target instance and the current instance and a service template, and dynamically constructs a call relation directed acyclic graph of the atomic capacity;

(5) And the service instantiation manager dynamically updates and maintains the internal instance and instance parameters of the service instance object.

An electronic device, comprising: a memory and at least one processor;

Wherein the memory has a computer program stored thereon;

The at least one processor executes the computer program stored by the memory, causing the at least one processor to perform the method of building an industry cloud business instance in a multi-cloud environment as described above.

A computer readable storage medium having stored therein a computer program executable by a processor to implement a method of building an industry cloud service instance in a multi-cloud environment as described above.

The method and the system for constructing the industry cloud service instance in the multi-cloud environment have the following advantages:

The method comprises the steps of (a) extracting and managing the atomic capacity of the multi-cloud product in versions, so as to adapt to different multi-resource pool cloud platforms and diversification of third party applications, packaging basic capacity is realized through abstraction, definition and componentization of the atomic capacity, and different version numbers of the components are defined to distinguish capacity sources;

Secondly, the invention supports the encapsulation and adjustment of atomic capacity parameters, and realizes the quick opening and adjustment of client side business in a cloud environment;

The method and the system can effectively improve the opening, changing and stopping efficiency of the client service instance in the multi-cloud environment, reduce manual participation, realize cost reduction and efficiency improvement, and bring better foundation for subsequent automatic and intelligent client side service change.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of a logic capability extraction principle.

Detailed Description

The method and system for constructing an industry cloud service instance in a multi-cloud environment according to the present invention are described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1:

the invention discloses a method for constructing an industry cloud service instance in a multi-cloud environment, which comprises the following steps:

S1, carrying out common business logic extraction on differentiated atomic capacity and atomic objects in a cloud environment;

s2, combining and multiplexing the capacity and the objects through the service unit;

S3, defining a service model facing to a final client through a service template;

s4, automatic time service creation and change distribution are carried out through the service instantiation manager.

The common business logic extraction in step S1 in this embodiment is specifically as follows:

s101, extracting common interface capacity facing cloud computing service by analyzing and extracting API interfaces of each cloud platform;

s102, assembling and extracting common yard objects based on common interface capability; wherein the business granularity of atomic objects can be freely combined.

In this embodiment, the combination and multiplexing of the capability and the object implemented by the service unit in step S2 is specifically as follows:

the combination relation between the atomic objects is realized through the combination management carding between the atomic objects, so that the construction of the atomic objects to the service unit is realized; wherein the combination relationship includes a constituent relationship, a combination relationship, and a subordinate relationship.

In this embodiment, the defining the service model facing the final client through the service template in step S3 is specifically as follows:

The rapid visual model construction facing the user is realized by carrying out a graphical-based combination assembly mode on the atomic capacity, the atomic object, the attribute and the parameter of the service unit and the combination relation metadata.

In this embodiment, the creation and change distribution of the automatic time service through the service instantiation manager in step S4 is specifically as follows:

S401, a service initiator dynamically generates a configurable service parameter logic interface facing a final client by acquiring parameter information of a service template;

s402, after the final client selects the logic parameters corresponding to the service template, the service instantiation manager changes and creates the service instance according to the state of the current service instance; wherein the state of the current service instance includes an existing state and an absent state;

s403, in the creation operation, the service instantiation manager decomposes the combination management of the service units and the atomic objects layer by layer downwards through the service template, and dynamically builds a call relation directed acyclic graph of the atomic capacity;

s404, under the changing operation, the service instantiation manager automatically calculates an atomic object set to be added and deleted by a modifier according to the change of the target instance and the current instance and a service template, and dynamically constructs a call relation directed acyclic graph of atomic capacity;

s405, the service instantiation manager dynamically updates and maintains the internal instance and instance parameters of the service instance object.

Example 2:

The invention relates to a system for constructing an industry cloud service instance in a multi-cloud environment, which comprises,

The visual editor is used for assembling and designing the atomic objects, the service units and the logic association relations, and realizing the design and arrangement of the component logic relations and the configuration parameters in a dragging mode;

The logic capability abstract unit is used for providing three layers of logic abstraction of the cloud capability, namely a basic capability layer, a service unit layer and a service template layer, and extracting the basic capability in the cloud, assembling the service unit and arranging the service template based on an industry solution is realized as shown in the figure 1;

The cloud service unit is used for forming logic services capable of bearing services in the cloud through the arrangement designer by the visual dragging of the atomic objects; the cloud service unit bears an independently-openable service minimum service unit required by a customer service, and consists of a basic capability layer and a service unit layer; the cloud service unit extracts the following table:

The service template manager is used for realizing scene-based service template design by depending on the visual service arrangement tool and constructing new product service or industry-based solutions; the service template manager is based on a basic capability layer and a service unit layer; service template extraction is shown in the following table:

The service instantiation manager is used for managing defined atomic objects, atomic capabilities, service units, service templates and attribute, parameter and combination relation thereof, and is also used for dynamically updating and maintaining internal instances and instance parameters of the service instance objects.

The visual orchestrator in the embodiment comprises a componentization area, a visual logic orchestration design area, a parameter orchestration design area and an automatic code orchestration design area; the componentization region includes basic capability componentization and service unit componentization.

The atomic object in this embodiment is the smallest unit that can be laid out in the model design, such as: VRF route target; the atomic object basic capability is a minimum capability unit which is indispensible to the cloud service, the cloud basic capability forms a cloud service unit, for example, an L3VPN is an atomic object, FFR protection is an atomic object, and VLAN is also an atomic object; the atomic object has action attributes such as creation, deletion of VRF route target. These actions map to the atomic capabilities of the controller and resource through business logic orchestration; atomic objects are, in particular, packages and combinations of atomic capabilities. Atomic object extraction is shown in the following table:

The working process of the service instantiation manager in this embodiment is specifically as follows:

(1) The service initiator dynamically generates a configurable service parameter logic interface facing the final client by acquiring parameter information of the service template;

(2) After the final client selects the logic parameters corresponding to the service template, the service instantiation manager changes and creates the service instance according to the state of the current service instance; wherein the state of the current service instance includes an existing state and an absent state;

(3) In the creation operation, the service instantiation manager decomposes the combination management of the service units and the atomic objects layer by layer downwards through the service template, and dynamically builds a call relation directed acyclic graph of the atomic capacity;

(4) Under the changing operation, the service instantiation manager automatically calculates an atom object set to be added and deleted by a modifier according to the change of the target instance and the current instance and a service template, and dynamically constructs a call relation directed acyclic graph of the atomic capacity;

(5) And the service instantiation manager dynamically updates and maintains the internal instance and instance parameters of the service instance object.

Example 3:

the embodiment of the invention also provides electronic equipment, which comprises: a memory and a processor;

wherein the memory stores computer-executable instructions;

and the processor executes the computer-executed instructions stored in the memory, so that the processor executes the method for constructing the industry cloud service instance in the multi-cloud environment in any embodiment of the invention.

Example 4:

The embodiment of the invention also provides a computer readable storage medium, wherein a plurality of instructions are stored, and the instructions are loaded by a processor, so that the processor executes the method for constructing the industry cloud service instance in the multi-cloud environment in any embodiment of the invention. Specifically, a system or apparatus provided with a storage medium on which a software program code realizing the functions of any of the above embodiments is stored, and a computer (or CPU or MPU) of the system or apparatus may be caused to read out and execute the program code stored in the storage medium.

In this case, the program code itself read from the storage medium may realize the functions of any of the above-described embodiments, and thus the program code and the storage medium storing the program code form part of the present invention.

Examples of storage media for providing program code include floppy disks, hard disks, magneto-optical disks, optical disks (e.g., CD-ROMs, CD-R, CD-RW, DVD-ROMs, DVD-RYM, DVD-RW, DVD+RW), magnetic tapes, nonvolatile memory cards, and ROMs. Alternatively, the program code may be downloaded from a server computer by a communication network.

Further, it should be apparent that the functions of any of the above-described embodiments may be implemented not only by executing the program code read out by the computer, but also by causing an operating system or the like operating on the computer to perform part or all of the actual operations based on the instructions of the program code.

Further, it is understood that the program code read out by the storage medium is written into a memory provided in an expansion board inserted into a computer or into a memory provided in an expansion unit connected to the computer, and then a CPU or the like mounted on the expansion board or the expansion unit is caused to perform part and all of actual operations based on instructions of the program code, thereby realizing the functions of any of the above embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (9)

1. The method for constructing the industry cloud service instance in the multi-cloud environment is characterized by comprising the following steps of:

based on the differentiated atomic capacity and atomic object under the cloud environment, carrying out common business logic extraction;

The combination and multiplexing of the capability and the object are realized through the service unit;

Defining a service model facing to a final client through a service template;

The creation and change distribution of the time service are automatically carried out through the service instantiation manager; the method comprises the following steps:

The service initiator dynamically generates a configurable service parameter logic interface facing the final client by acquiring parameter information of the service template;

after the final customer selects the logic parameters corresponding to the service template, the service instantiation manager changes and creates the service instance according to the state of the current service instance; wherein the state of the current service instance includes an existing state and an absent state;

in the creation operation, the service instantiation manager decomposes the combination management of the service units and the atomic objects layer by layer downwards through the service template, and dynamically builds a call relation directed acyclic graph of the atomic capacity;

under the changing operation, the service instantiation manager automatically calculates an atom object set to be added and deleted by a modifier according to the change of the target instance and the current instance and a service template, and dynamically constructs a call relation directed acyclic graph of the atomic capacity;

the service instantiation manager dynamically updates and maintains the internal instances and instance parameters of the service instance object.

2. The method for building an industry cloud service instance in a multi-cloud environment according to claim 1, wherein the common service logic extraction is specifically as follows:

Extracting common interface capability facing cloud computing service by analyzing and extracting API interfaces of each cloud platform;

assembling and extracting common yard objects based on the common interface capability; wherein the business granularity of atomic objects can be freely combined.

3. The method for constructing an industry cloud service instance in a multi-cloud environment according to claim 1, wherein the combination and multiplexing of the capability and the object are implemented by a service unit specifically comprises:

the combination relation between the atomic objects is realized through the combination management carding between the atomic objects, so that the construction of the atomic objects to the service unit is realized; wherein the combination relationship includes a constituent relationship, a combination relationship, and a subordinate relationship.

4. The method for building an industry cloud service instance in a multi-cloud environment according to claim 1, wherein the service model for the final customer is defined by a service template specifically as follows:

The rapid visual model construction facing the user is realized by carrying out a graphical-based combination assembly mode on the atomic capacity, the atomic object, the attribute and the parameter of the service unit and the combination relation metadata.

5. A system for constructing an industry cloud service instance in a multi-cloud environment is characterized in that the system comprises,

The visual editor is used for assembling and designing the atomic objects, the service units and the logic association relations, and realizing the design and arrangement of the component logic relations and the configuration parameters in a dragging mode;

The logic capability abstract unit is used for providing three layers of logic abstractions of cloud capability, namely a basic capability layer, a service unit layer and a service template layer, and realizing extraction of the basic capability in the cloud, assembly of the service unit and arrangement of the service template based on an industry solution;

the cloud service unit is used for forming logic services capable of bearing services in the cloud through the arrangement designer by the visual dragging of the atomic objects; the cloud service unit bears an independently-openable service minimum service unit required by a customer service, and consists of a basic capability layer and a service unit layer;

the service template manager is used for realizing scene-based service template design by depending on the visual service arrangement tool and constructing new product service or industry-based solutions; the service template manager is based on a basic capability layer and a service unit layer;

The service instantiation manager is used for managing defined atomic objects, atomic capabilities, service units, service templates and attribute, parameter and combination relation thereof, and is also used for dynamically updating and maintaining internal instances and instance parameters of the service instance objects.

6. The system for building an industry cloud service instance in a multi-cloud environment of claim 5, wherein said visualization orchestrator comprises a componentization area, a visualization logic orchestration design area, a parameter orchestration design area, and an automatic code orchestration design area; the componentization region includes basic capability componentization and service unit componentization.

7. The system for building an industry cloud service instance in a multi-cloud environment according to claim 5 or 6, wherein the atomic object is a minimum programmable element in a model design; the atomic object basic capability is a minimum capability unit which is not divided by the cloud service, and the cloud basic capability forms a cloud service unit; the atomic object has action attributes; the atomic object is encapsulation and combination of atomic capability from the concrete implementation;

The service instantiation manager specifically works as follows:

(1) The service initiator dynamically generates a configurable service parameter logic interface facing the final client by acquiring parameter information of the service template;

(2) After the final client selects the logic parameters corresponding to the service template, the service instantiation manager changes and creates the service instance according to the state of the current service instance; wherein the state of the current service instance includes an existing state and an absent state;

(3) In the creation operation, the service instantiation manager decomposes the combination management of the service units and the atomic objects layer by layer downwards through the service template, and dynamically builds a call relation directed acyclic graph of the atomic capacity;

(4) Under the changing operation, the service instantiation manager automatically calculates an atom object set to be added and deleted by a modifier according to the change of the target instance and the current instance and a service template, and dynamically constructs a call relation directed acyclic graph of the atomic capacity;

(5) And the service instantiation manager dynamically updates and maintains the internal instance and instance parameters of the service instance object.

8. An electronic device, comprising: a memory and at least one processor;

Wherein the memory has a computer program stored thereon;

the at least one processor executing the computer program stored by the memory, causes the at least one processor to perform the method of building an industry cloud service instance in a multi-cloud environment as claimed in any of claims 1 to 4.

9. A computer readable storage medium having stored therein a computer program executable by a processor to implement a method of building an industry cloud service instance in a multi-cloud environment according to any of claims 1 to 4.