CN116032918A - Method and flow of multi-cloud adapter abstraction technology - Google Patents

Abstract

The invention belongs to the technical field of computer software, and particularly relates to a method and a flow of a multi-cloud adapter abstraction technology, wherein the method comprises the following steps: s1, registering a cloud adaptation service instance in a cloud adaptation cluster to a micro-service registration center, and continuously sending heartbeat packets through a message queue; s2, yun Shi the adapter gateway dynamically maintains a cloud adapter catalog by monitoring heartbeat messages; s3, yun Shi adapter gateway obtains a service instance list corresponding to Yun Shi adapter clusters, calls an interface of Yun Shi adapter clusters, and enables Yun Shi adapter clusters to support lateral expansion of services; s4, yun Shi adapter clusters are connected with interfaces of all cloud platforms in a butt joint mode, data and interface abstractions of the cloud platforms are converted into standard abstractions required by a cloud manager, and various service functions of an upper layer are achieved through the cloud manager in a unified mode. The cloud platform management method and the cloud platform management system can solve the problem that cloud platform architectures of different cloud service providers are different and multi-cloud management under different architectures is difficult to unify, and have good market application prospects.

Description

Method and flow of multi-cloud adapter abstraction technology

Technical Field

The invention belongs to the technical field of computer software, and particularly relates to a method and a flow of a multi-cloud adapter abstraction technology.

Background

In recent years, governments, enterprises and institutions all over the country have invested a great deal of effort and funds to build a great deal of basic cloud, government cloud, medical treatment, industrial cloud, education cloud, various industry clouds and the like, and it is desired to facilitate enterprise transformation and digital management of governments by means of a machine.

In the process of cloud construction, multiple clouds are adopted as a cloud construction strategy in consideration of factors such as safety, cost, stability and the like. Because the front-stage cloud is focused on the construction of the cloud capacity, consideration and importance of an operation support and management service system are lacked, and the problem that the whole cloud service is low in opening efficiency, the cloud resource pool interest rate is low and the cloud faults are difficult to locate is caused. Through constructing a multi-cloud management platform, standardization, collaboration and information island opening are realized on various complex multi-resource, multi-organization, multi-application and multi-environment, so that unified portals, unified services and unified management are realized. The power-assisted government, enterprises and institutions reduce cost in digital transformation, and continuously improve operation efficiency and management level.

Traditional multi-cloud management platforms are implemented based on a single software architecture. The cloud management platform service and the cloud platform interface are adaptively coupled, and as the requirement of expansion of the cloud construction is met, new cloud platforms are continuously accessed, and iteration is required in the original single architecture. With the increase of the number of the end points, the problems are gradually revealed, and each time a cloud platform is newly accessed, a developer is in butt joint with a cloud platform interface, and needs to be familiar with the multi-cloud management platform service coupled in the code; after the new cloud platform is accessed and developed, the new cloud platform needs to be reissued, and the normal online service is affected; the system resources with limited monomer service can not support the synchronization of concurrent cloud platform resource nanotubes and monitoring data.

Cloud platform architectures of different cloud service providers are different, and multi-cloud management under different architectures has the problem of difficult unification. In the face of cloud resources under different cloud platform architectures, the cloud resources are different in variety and have no unified standard, and a set of compatible resource management system schemes are needed to conduct nano-tube on different cloud platforms of government, enterprise and public institution data centers.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

The invention aims to provide a method and a flow of a multi-cloud adapter abstraction technology, which are used for solving the problem that multi-cloud management under different architectures is difficult to unify due to different cloud platform architectures of different cloud service providers.

In order to achieve the above object, the present invention provides the following technical solutions:

a method and a flow of a multi-cloud adapter abstraction technology comprise the following steps:

s1, registering a cloud adaptation service instance in a cloud adaptation cluster to a micro-service registration center, and continuously sending heartbeat packets through a message queue;

s2, yun Shi the adapter gateway dynamically maintains a cloud adapter catalog by monitoring heartbeat messages;

s3, the Yun Shi adapter gateway obtains a service instance list corresponding to the Yun Shi adapter cluster through a micro-service registry, completes interface call to the Yun Shi adapter cluster through a load balancing mechanism, and enables the Yun Shi adapter cluster to support transverse expansion of service through a micro-service architecture mechanism;

s4, yun Shi adapter clusters are connected with interfaces of all cloud platforms in a butt joint mode, data and interface abstractions of the cloud platforms are converted into standard abstractions required by a cloud manager, and various service functions of an upper layer are achieved through the cloud manager in a unified mode.

Preferably, each cloud adapter cluster correspondingly adapts to different cloud platforms; each cloud adapter cluster has a plurality of cloud adapter service instances.

Preferably, the heartbeat package contains micro-service coordinate information of the cloud adaptation service instance.

Preferably, a unified specification standard is provided by the cloud manager over the Yun Shi adapter gateway and the cloud adapter cluster; the specification criteria include a nanotube flow criteria, an authentication authorization criteria, an organizational hierarchy criteria, and a resource abstract representation.

Compared with the prior art, the invention has the following beneficial effects:

(1) According to the method and the process of the multi-cloud adapter abstraction technology, aiming at the problem of difficult unification of cloud platform heterogeneous resources of different manufacturers and multi-cloud management under different architectures, unified abstraction adaptation is carried out on various cloud platforms and cloud resources through the multi-cloud adapter abstraction technology, the method and the process can be compatible with the various cloud platforms and cloud resources, and access work of the cloud platforms can be completed very efficiently.

(2) According to the method and the process of the multi-cloud adapter abstraction technology, the cloud platform interface can be subjected to abstraction adaptation by decoupling the multi-management platform service and the cloud platform interface adaptation; the cloud adapter catalog is maintained through the heartbeat mechanism, and the cloud adapter catalog can be dynamically perceived when a new cloud platform is accessed, so that the cloud platform can be accessed to be hot plugged.

(3) According to the method and the process of the multi-cloud adapter abstraction technology, the Yun Shi adapter cluster supports the transverse expansion of the service through the mechanism of the micro-service architecture, when a new cloud platform is accessed, a developer only needs to complete cloud adaptation development, and independently deploys the cloud adaptation after the development, incremental deployment is carried out according to the concurrency of the service, so that the robustness and low coupling of the system can be enhanced, the system has good expansibility and flexibility, and the requirements of updating, maintenance and quick deployment are met conveniently.

Drawings

Fig. 1 is a schematic flow chart of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be apparent from the description of the embodiments of the present invention, which is provided in part, but not in whole. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, are intended to fall within the scope of the present invention.

Referring to fig. 1, a method and a flow of a multi-cloud adapter abstraction technique include the following steps:

s1, registering a cloud adaptation service instance in a cloud adaptation cluster to a micro-service registration center, and continuously sending heartbeat packets through a message queue; the heartbeat packet comprises micro-service coordinate information of the cloud adaptation service instance;

s2, yun Shi the adapter gateway dynamically maintains a cloud adapter catalog by monitoring heartbeat messages;

s3, the Yun Shi adapter gateway obtains a service instance list corresponding to the Yun Shi adapter cluster through a micro-service registry, completes interface call to the Yun Shi adapter cluster through a load balancing mechanism, and enables the Yun Shi adapter cluster to support transverse expansion of service through a micro-service architecture mechanism;

s4, yun Shi adapter clusters are connected with interfaces of all cloud platforms in a butt joint mode, data and interface abstractions of the cloud platforms are converted into standard abstractions required by a cloud manager, and various service functions of an upper layer are achieved through the cloud manager in a unified mode.

In this embodiment, the platform has a plurality of cloud adapter clusters, and each cloud adapter cluster is correspondingly adapted to a different cloud platform; each cloud adapter cluster has a plurality of cloud adapter service instances. The cloud adaptation gateway comprises a cloud adaptation catalog and a cloud interface route. Providing unified specification standards by a cloud manager over the Yun Shi adapter gateway and the cloud adapter cluster; the specification criteria include a nanotube flow criteria, an authentication authorization criteria, an organizational hierarchy criteria, and a resource abstract representation.

When a new Yun Shi adapter cluster is added, the Yun Shi adapter gateway can timely sense; if one cloud adapter cluster is offline, the Yun Shi adapter gateway also manages the state of the cloud adapter through a heartbeat mechanism and removes the corresponding record from the cloud adapter directory, which is the implementation principle of Yun Shi adapter hot plug.

By transversely expanding the cloud adapter, the nanotube capacity of the multi-cloud management platform can be rapidly expanded from 10 clouds of the nanotube to 100 clouds of the nanotube, and from 5000 resource instances of the nanotube to more than 50000 resource instances of the nanotube.

A unified specification standard is provided by the cloud manager over the Yun Shi adapter gateway and the cloud adapter cluster. Therefore, the cloud adapter only needs to butt joint the interfaces of all cloud platforms, data and interface abstractions of the cloud platforms are converted into standard abstractions required by the cloud manager, and then nanotube adaptation of the corresponding cloud platforms can be achieved. After the Yun Shi adapter completes the output of standard abstraction, various service functions of an upper layer are uniformly realized by the cloud manager, and the realization of the cloud manager can be compatible with most of cloud platforms and cloud resources, so that the access work of the cloud platforms can be completed very efficiently.

According to the method and the process of the multi-cloud adapter abstraction technology, aiming at the problem that the cloud platform architectures of different cloud service providers are different and the multi-cloud management under different architectures is difficult to unify, the multi-cloud adapter abstraction technology is used for carrying out unified abstraction adaptation on various cloud platforms and cloud resources, so that the method and the process can be compatible with various cloud platforms and cloud resources, can achieve very efficient completion of the access work of the cloud platforms, are very practical and have good market application value.

The foregoing descriptions of specific exemplary embodiments of the present invention are presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the invention and its practical application to thereby enable one skilled in the art to make and utilize the invention in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (4)

1. A method and a flow of a multi-cloud adapter abstraction technology are characterized by comprising the following steps:

s1, registering a cloud adaptation service instance in a cloud adaptation cluster to a micro-service registration center, and continuously sending heartbeat packets through a message queue;

s2, yun Shi the adapter gateway dynamically maintains a cloud adapter catalog by monitoring heartbeat messages;

s3, the Yun Shi adapter gateway obtains a service instance list corresponding to the Yun Shi adapter cluster through a micro-service registry, completes interface call to the Yun Shi adapter cluster through a load balancing mechanism, and enables the Yun Shi adapter cluster to support transverse expansion of service through a micro-service architecture mechanism;

s4, yun Shi adapter clusters are connected with interfaces of all cloud platforms in a butt joint mode, data and interface abstractions of the cloud platforms are converted into standard abstractions required by a cloud manager, and various service functions of an upper layer are achieved through the cloud manager in a unified mode.

2. The method and flow of multi-cloud adapter abstraction technique according to claim 1, wherein each cloud adapter cluster correspondingly adapts to a different cloud platform; each cloud adapter cluster has a plurality of cloud adapter service instances.

3. The method and flow of multi-cloud adapter abstraction technique according to claim 1, wherein the heartbeat packet contains micro-service coordinate information of the cloud adaptation service instance.

4. The method and flow of multi-cloud adapter abstraction technology according to claim 1, wherein a unified specification standard is provided by a cloud manager over a Yun Shi adapter gateway and a cloud adapter cluster; the specification criteria include a nanotube flow criteria, an authentication authorization criteria, an organizational hierarchy criteria, and a resource abstract representation.

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