CN112328390B - Method, device and storage medium for automatically implementing cloud management platform - Google Patents

Abstract

The disclosure relates to the technical field of cloud computing, and in particular relates to a method, a device and a storage medium for automatically implementing a cloud management platform. The method comprises the following steps: the method comprises the steps that an automation implementation system obtains cloud environment information and cloud environment resource information of a cloud environment, the cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating the current resource condition of the cloud environment; presetting a cloud environment access rule, and accessing the cloud environment to a cloud management platform according to cloud environment information and the cloud environment access rule; after the cloud environment is accessed to the cloud management platform, synchronizing current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information. According to the embodiment of the disclosure, the cloud management platform is automatically implemented, so that the condition that the cloud management platform is implemented mainly by means of manual work in the related technology is avoided, the operation error is reduced, the implementation efficiency of the cloud management platform is improved, and the implementation effect of the cloud management platform is ensured.

Description

Method, device and storage medium for automatically implementing cloud management platform

Technical Field

The disclosure relates to the technical field of cloud computing, and in particular relates to a method, a device and a storage medium for automatically implementing a cloud management platform.

Background

Currently, cloud management platforms are mainly implemented by means of manual modes, and technicians access various heterogeneous resources manually. The technical staff analyzes various virtual and physical resources and cloud platforms, judges which mode to access and configure, and can access various heterogeneous resources by performing function point selection and information input operation on cloud management platform software.

Disclosure of Invention

In view of this, the disclosure proposes a method, an apparatus and a storage medium for automatically implementing a cloud management platform. The technical scheme comprises the following steps:

according to an aspect of the present disclosure, there is provided a method for automating an implementation of a cloud management platform, for use in an automation implementation system, the method comprising:

acquiring cloud environment information and cloud environment resource information of a cloud environment, wherein the cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating the current resource condition of the cloud environment;

presetting a cloud environment access rule, and accessing the cloud environment to a cloud management platform according to the cloud environment information and the cloud environment access rule;

after the cloud environment is accessed to the cloud management platform, synchronizing the current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information.

In a possible implementation manner, the accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rule includes:

triggering a service of the cloud management platform based on the cloud environment information to verify the cloud environment according to a verification message in the cloud environment information;

and after the verification information passes the verification, accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rule.

In another possible implementation, the cloud environment information includes a cloud environment type; the cloud environment access rule comprises an access mode corresponding to the cloud environment type;

the accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rule includes:

and after the verification information passes the verification, accessing the cloud environment to the cloud management platform by adopting an access mode corresponding to the cloud environment type according to the cloud environment type.

In another possible implementation manner, the synchronizing the current resource of the cloud environment to the cloud management platform according to the cloud environment resource information for performing nanotubes includes:

and calling the service of the cloud management platform according to the cloud environment resource information so that the cloud management platform synchronizes the current resources of the cloud environment to the cloud management platform for management based on the cloud environment resource information and a resource management rule, wherein the resource management rule is preset in the cloud management platform.

In another possible implementation, the method further includes:

obtaining organization management data of the cloud environment;

and calling the service of the cloud management platform according to the organization management data, and inputting the organization management data to the cloud management platform so as to configure the organization management data on the cloud management platform, wherein the organization management data is used for indicating defined organization architecture and resource authority.

In another possible implementation, the method further includes:

acquiring flow configuration information of the cloud environment;

and calling the service of the cloud management platform according to the flow configuration information so as to establish a cloud service management mechanism in the cloud management platform.

In another possible implementation, the method further includes:

acquiring application configuration information of the cloud environment, wherein the application configuration information comprises configuration information corresponding to each of a plurality of application systems in the cloud environment;

and calling the service of the cloud management platform according to the application configuration information so as to establish a supporting environment installation software package corresponding to each application system in the cloud management platform according to the application configuration information.

In another possible implementation, the method further includes:

acquiring container cloud information of the cloud environment;

and triggering the service of the cloud management platform based on the container cloud information to verify the state of the container cloud according to the container cloud information, if the state of the container cloud is normal, incorporating the container cloud into the cloud management platform, and synchronizing the resources of the container cloud to the cloud management platform for nano-tube.

In another possible implementation, the method further includes:

acquiring operation and maintenance monitoring configuration information and a resource operation script of the cloud environment;

calling the service of the cloud management platform according to the operation and maintenance monitoring configuration information of the cloud environment so that the cloud management platform monitors the operation and maintenance of the resources in the cloud environment;

uploading the resource operation script to the cloud management platform, wherein the operation script is used for operating and maintaining resources in the cloud environment on the cloud management platform.

According to another aspect of the present disclosure, there is provided an apparatus for automating an implementation cloud management platform, for use in an automation implementation system, the apparatus comprising:

the cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating the current resource condition of the cloud environment;

the access module is used for presetting cloud environment access rules and accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rules;

and the nano-tube module is used for synchronizing the current resources of the cloud environment to the cloud management platform for nano-tube according to the cloud environment resource information after the cloud environment is accessed to the cloud management platform.

According to another aspect of the present disclosure, there is provided an automated implementation system comprising: a processor; a memory for storing processor-executable instructions;

wherein the processor is configured to:

acquiring cloud environment information and cloud environment resource information of a cloud environment, wherein the cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating the current resource condition of the cloud environment;

presetting a cloud environment access rule, and accessing the cloud environment to a cloud management platform according to the cloud environment information and the cloud environment access rule;

after the cloud environment is accessed to the cloud management platform, synchronizing the current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information.

According to another aspect of the present disclosure, there is provided a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement the above-described method.

The embodiment of the disclosure provides a method for automatically implementing a cloud management platform, which comprises the steps of acquiring cloud environment information and cloud environment resource information of a cloud environment through an automatic implementation system, wherein the cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating the current resource condition of the cloud environment; presetting a cloud environment access rule, and accessing the cloud environment to a cloud management platform according to cloud environment information and the cloud environment access rule; after the cloud environment is accessed to the cloud management platform, synchronizing current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information; the automatic implementation system can automatically implement the cloud management platform, the condition that the cloud management platform is implemented mainly by means of manual work in the related technology is avoided, the operation error is reduced, the implementation efficiency of the cloud management platform is improved, the operation process is normalized, standardized and automatic, and the implementation effect of the cloud management platform is guaranteed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate exemplary embodiments, features and aspects of the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 illustrates a flowchart of a method of automating the implementation of a cloud management platform provided by an exemplary embodiment of the present disclosure;

FIG. 2 illustrates a flow chart of a method of automating the implementation of a cloud management platform provided by another exemplary embodiment of the present disclosure;

fig. 3 illustrates a schematic structural diagram of an apparatus for automatically implementing a cloud management platform according to an exemplary embodiment of the present disclosure.

Detailed Description

Various exemplary embodiments, features and aspects of the disclosure will be described in detail below with reference to the drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. Although various aspects of the embodiments are illustrated in the accompanying drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

In addition, numerous specific details are set forth in the following detailed description in order to provide a better understanding of the present disclosure. It will be understood by those skilled in the art that the present disclosure may be practiced without some of these specific details. In some instances, methods, means, elements, and circuits well known to those skilled in the art have not been described in detail in order not to obscure the present disclosure.

Before describing the method, the device and the storage medium for automatically implementing the cloud management platform provided by the invention, the following description is introduced: an automation implementation system performs the method of automating the cloud management platform. The automatic implementation system is independent of the cloud management platform, and is a platform for implementing the cloud management platform in an automatic mode, namely, the cloud management platform can be automatically connected to a cloud environment used by a data center by means of the automatic implementation system, and resource information such as calculation, storage and network in the cloud environment is synchronized, so that various resources in the hybrid multi-cloud environment can be quickly connected to the nanotubes by the cloud management platform in comparison with the manual mode adopted at present. In addition, by means of the automatic implementation system independent of the cloud management platform, the cloud management platform and the automatic implementation system can be maintained separately, so that software complexity is low and maintenance and upgrading are convenient.

Alternatively, the automation implementation system may employ a multitasking parallelization working mechanism, where the working interface presents the current task content and/or execution progress in at least one of text animation and graphics chart. In the implementation process, manual intervention and manual configuration are supported, and a pre-arrangement and rollback operation is supported. The automation implementation system may also support importing and exporting configuration files in a standard format. The automation implementation system can support a generic data format that is serviced through a standard interface including, for example, at least one of json, xml, yaml, a RESTful interface and/or a SOAP interface. The embodiments of the present disclosure are not limited in this regard.

In the following, several exemplary embodiments are used to describe a method for automatically implementing a cloud management platform according to an embodiment of the present disclosure.

Referring to fig. 1, a flowchart of a method for automatically implementing a cloud management platform according to an exemplary embodiment of the present disclosure is shown, where the method is used in an automation implementation system for illustration. The method comprises the following steps.

Step 101, acquiring cloud environment information and cloud environment resource information of a cloud environment, wherein the cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating the current resource condition of the cloud environment.

The automation implementation system is in butt joint with the cloud platform planning system and the cloud management platform through the automation implementation system by adopting a standard interface and a universal data format. The cloud platform planning system is a platform for cloud platform planning in the traditional data center, so that cloud platform planning or clouding can be carried out according to a cloud planning scheme planned by the cloud platform planning system, and a cloud environment is finally formed. The cloud management platform is also called a cloud management platform and is used for managing cloud environments. The cloud platform planning system provides blueprints, namely preset planning contents, for the cloud platform construction of the data center, the cloud platform planning system is consistent with the current situation of the cloud platform construction, and dynamic change conditions in the cloud platform construction are kept updated in the cloud platform planning system.

Optionally, the automation implementation system acquires a cloud planning scheme planned by the cloud platform planning system, and clouds or clouds according to the cloud planning scheme to form a cloud environment, wherein the cloud environment is a cloud environment formed by clouding a data center. After the cloud environment is formed, the automation implementation system acquires cloud environment information and cloud environment resource information of the cloud environment according to a cloud planning scheme and from the cloud environment.

In another possible implementation, the automated implementation system may also import formatted cloud planning content on the basis of standard templates, which may be set manually and not obtained from the cloud platform planning system. For convenience of explanation, only the cloud planning scheme is automatically formed by a cloud platform planning system in an automation implementation system, and the automation implementation system is explained by taking the cloud planning scheme and acquiring various information from a cloud environment as examples.

Step 102, presetting a cloud environment access rule, and accessing the cloud environment to a cloud management platform according to the cloud environment information and the cloud environment access rule. The cloud environment access rule comprises an access mode corresponding to the cloud environment.

Optionally, the automation implementation system presets cloud environment access rules, and accesses the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rules. The cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment.

And step 103, after the cloud environment is accessed to the cloud management platform, synchronizing the current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information.

After the cloud environment is successfully accessed to the cloud management platform, the automation implementation system synchronizes the current resources of the cloud environment to the cloud management platform for management according to the cloud environment resource information, and the cloud management platform is used for accessing the resources in the cloud environment to the nanotubes. The cloud environment resource information is used for indicating the current resource condition of the cloud environment.

Optionally, the cloud environment resource information includes resource types corresponding to various resources in the cloud environment.

In summary, the embodiment of the disclosure provides a method for automatically implementing a cloud management platform, where cloud environment information and cloud environment resource information of a cloud environment are acquired through an automatic implementation system, the cloud environment information is used for indicating a current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating a current resource condition of the cloud environment; presetting a cloud environment access rule, and accessing the cloud environment to a cloud management platform according to cloud environment information and the cloud environment access rule; after the cloud environment is accessed to the cloud management platform, synchronizing current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information; the automatic implementation system can automatically implement the cloud management platform, the condition that the cloud management platform is implemented mainly by means of manual work in the related technology is avoided, the operation error is reduced, the implementation efficiency of the cloud management platform is improved, the operation process is normalized, standardized and automatic, and the implementation effect of the cloud management platform is guaranteed.

Referring to fig. 2, a flowchart of a method for automatically implementing a cloud management platform according to another exemplary embodiment of the present disclosure is shown, where the method is used in an automation implementation system for illustration. The method comprises the following steps.

Step 201, according to cloud environment information and cloud environment access rules, the cloud environment is accessed to a cloud management platform.

The automatic implementation system acquires cloud environment information of a cloud environment, presets cloud environment access rules, and accesses the cloud environment to a cloud management platform according to the cloud environment information and the cloud environment access rules.

Optionally, the automation implementation system interfaces with a cloud controller of the cloud environment, and triggers a service of the cloud management platform based on the cloud environment information to verify the cloud environment according to a verification message in the cloud environment information; and after the verification information passes the verification, accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rule.

Optionally, after the cloud environment accesses the cloud management platform, corresponding cloud environment information (including at least one of cloud environment name, type, IP address, port number, region, cloud service, user name, and tenant information) is synchronized to the cloud management platform, where the cloud service is a service of the cloud environment itself.

The cloud management platform automatically verifies the verification information according to preset verification information of the cloud environment, if the verification is passed, the cloud environment is accessed to the cloud management platform, and if the verification fails, the cloud environment fails to be accessed to the cloud management platform.

The data center can have a plurality of proprietary cloud environments and public cloud environments, and all needed cloud environments can be acquired through the cloud platform planning system and accessed to the cloud management platform nanotubes. Namely, the automation implementation system can acquire verification information corresponding to each cloud environment; and for each cloud environment in the plurality of cloud environments, after verification information of the cloud environment passes, accessing the cloud environment into a cloud management platform. Any one cloud environment in the plurality of cloud environments is a proprietary cloud environment or a public cloud environment.

Optionally, the cloud environment information includes a cloud environment type; the cloud environment access rule comprises an access mode corresponding to the type of the cloud environment; the automatic implementation system accesses the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rule, and comprises: after the verification information passes the verification, the automation implementation system accesses the cloud environment into the cloud management platform according to the cloud environment type by adopting an access mode corresponding to the cloud environment type.

The automatic implementation system stores the preset corresponding relation between the cloud environment type and the access mode. A plurality of cloud environments exist in the data center, and when the cloud management platform is accessed, a corresponding access mode is used for access. Schematically, when the cloud environment type is the first cloud environment type, the corresponding access mode is the first access mode, and when the cloud environment type is the second cloud environment type, the corresponding access mode is the second access mode, wherein the first cloud environment type is different from the second cloud environment type, and the first access mode is different from the second access mode. The embodiments of the present disclosure are not limited in this regard.

More specifically, when the cloud environment type is VMWare Center, the VMWare Center is accessed to the cloud management platform using an interface applicable to the VMWare Center. When the cloud environment type is Openstack, an interface applicable to Openstack is used for accessing the Openstack to the cloud management platform. When the cloud environment type is HUAWEI Cloud Stack, the HUAWEI Cloud Stack is accessed to the cloud management platform by using a corresponding interface mode. Cloud environment types also include, but are not limited to, HMC for Power, VMPowerVC for PowerVM, powerVC for PowerKVM, xCAT for OpenPower, xCAT for Power, VMWare Integrated openstack, H3C VCFC controller, and the like.

Step 202, after the cloud environment is accessed to the cloud management platform, synchronizing current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information.

And the automation implementation system acquires the cloud environment resource information. After the cloud environment is accessed to the cloud management platform, the automation implementation system synchronizes the current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information.

After the cloud environment is accessed to the cloud management platform, the automation implementation system calls the service of the cloud management platform according to the cloud environment resource information, so that the cloud management platform synchronizes the current resource of the cloud environment to the cloud management platform for management based on the cloud environment resource information and resource management rules, and the resource management rules are preset in the cloud management platform.

Optionally, the cloud environment resource information includes resource types corresponding to multiple resources in the cloud environment, and for each resource in the cloud environment, the cloud management platform synchronizes the current resource of the cloud environment to the cloud management platform for nano-tube by adopting a synchronization mode corresponding to the resource type of the resource.

And storing the corresponding relation between the preset resource types and the synchronization modes in the automation implementation system. Illustratively, the synchronization mode corresponding to the resource type is a first synchronization mode when the resource type is a computing resource, the synchronization mode corresponding to the resource type is a second synchronization mode when the resource type is a storage resource, the synchronization mode corresponding to the resource type is a third synchronization mode when the resource type is a network resource, and the first synchronization mode, the second synchronization mode and the third synchronization mode are three different synchronization modes. The embodiments of the present disclosure are not limited in this regard.

Optionally, the automation implementation system invokes a service of the cloud management platform according to the cloud environment resource information, so that the cloud management platform establishes a resource pool, and the resource pool is used for managing resources in the cloud environment, wherein the resources comprise at least one of computing resources, storage resources and network resources.

Optionally, the computing resource includes at least one resource of a virtual machine, a physical machine, and a mirror image, the storage resource includes at least one resource of a physical storage, a virtual storage, and a cloud hard disk, and the network resource includes at least one resource of a virtual network, a physical network, a load balancing, an elastic public network IP, and a firewall.

Optionally, the cloud management platform further obtains resource data corresponding to each of the computing resource, the storage resource and the network resource, where the resource data includes at least one of configuration information, capacity information and operation information, so that the cloud management platform manages, for example, resource allocation, monitoring and early warning, and visual display.

And 203, invoking the service of the cloud management platform according to the organization management data, and inputting the organization management data to the cloud management platform so as to configure the organization management data on the cloud management platform, wherein the organization management data is used for indicating the defined organization architecture and resource authority.

Optionally, the automation implementation system acquires organization management data of the cloud environment; and calling the service of the cloud management platform according to the organization management data, and inputting the organization management data to the cloud management platform so as to configure the organization management data on the cloud management platform. The organization management data has organization names, parent organizations, cloud environments, quotas, descriptions, user information, and the like. The user information includes user name, affiliated organization, role, e-mail, cipher, mobile phone number, fixed telephone, address, special authority, etc

And the cloud management platform establishes corresponding relations among the organization, the user, the role, the authority and the resource according to the organization management data and preset rules. For example, the preset rule is a Role-based access control (RBAC) rule. The embodiments of the present disclosure are not limited in this regard.

It should be noted that, the data obtained from the cloud planning scheme is non-detailed data, for example, at least one of organization name, father organization, and verification information; the data obtained from the cloud environment is data of comparison details, such as: quota and/or description of cloud environment. The method comprises the following steps of acquiring required non-detail data from a cloud planning scheme, and acquiring the detail data in an actual cloud environment, wherein the data acquisition process is relatively simple. Of course, in practical application, all required data can be acquired in the actual cloud environment.

By means of step 203, the automation implementation system can automatically configure organization management on the cloud management platform, the organization management defines organization architecture and resource authority, and resources which can be used or operated by a user are allocated in the organization management.

Step 204, calling the service of the cloud management platform according to the flow configuration information to establish a cloud service management mechanism in the cloud management platform.

Optionally, the automation implementation system acquires flow configuration information of the cloud environment; and calling the service of the cloud management platform according to the flow configuration information to establish a cloud service management mechanism in the cloud management platform. The cloud service management mechanism is used for indicating an operation link and an operation flow. For example, the operation link includes at least one of service product making, putting on shelf, applying, approving and delivering.

Optionally, the automation implementation system acquires flow configuration information, where the flow configuration information includes at least one of organization information, application service information, resource application flow information, resource quota information, and metering charging information in the cloud environment; and calling the service of the cloud management platform according to the flow configuration information to establish a cloud service management mechanism in the cloud management platform.

Optionally, the automated implementation system acquires organization information and/or application service information from the cloud planning scheme; and acquiring at least one of resource application flow information, resource quota information and metering charging information from the cloud environment.

Optionally, the automated implementation system invokes a service of the cloud management platform to establish a cloud service management mechanism; after the establishment is completed, technicians can modify and perfect on the cloud management platform, so that flexible modification is facilitated.

Optionally, the automation implementation system acquires installation files such as a multi-version operating system, middleware, a database, load balancing and the like used in the cloud environment; uploading the required installation files to a cloud management platform, and establishing a service directory, wherein the service directory comprises service products. The service catalog is a service menu for providing option service, and the service product comprises at least one link of making, putting on shelf, applying, examining and approving and delivering.

By means of the step 204, the automation implementation system performs initialized configuration on the operation function of the cloud management platform, and establishes a cloud service management mechanism, so that compared with the traditional manual configuration mode, the cloud service management system can be rapidly delivered and used on line, and the efficiency of implementing the cloud management platform is further improved. The operation functions include, but are not limited to, activities such as establishing flows, operation links, etc. The operation link comprises at least one of service product manufacture, shelf loading, application, approval and delivery.

And step 205, calling the service of the cloud management platform according to the application configuration information so as to establish a supporting environment installation software package corresponding to each application system in the cloud management platform according to the application configuration information.

Optionally, the automation implementation system acquires application configuration information of the cloud environment, where the application configuration information includes configuration information corresponding to each of a plurality of application systems in the cloud environment; and calling the service of the cloud management platform according to the application configuration information so as to establish a supporting environment installation software package corresponding to each application system in the cloud management platform according to the application configuration information.

Optionally, the application configuration information includes, but is not limited to, configuration information of operating system version, application server, middleware, database, java language software development kit (Java Development Kit, JDK), environment variables, software development kit (Software Development Kit, SDK), etc.

By means of step 205, the automation implementation system obtains application configuration information of the cloud environment from the cloud planning scheme and the cloud environment, and automatically establishes support environment installation software packages corresponding to the application systems in the cloud management platform, so that a user of the cloud management platform can conveniently apply for service and execute tasks for redeployment of the application systems, and at least one requirement in an order is completed.

Optionally, an application architecture diagram and a deployment view corresponding to at least one application system are generated on the cloud management platform for implementation procedure call and technician reference. The application architecture diagram is used for indicating the connection relation among the application system, the operating system, the server, the middleware and the network, and the deployment view is used for indicating the deployment position of the application system.

Step 206, triggering the service of the cloud management platform based on the container cloud information to verify the state of the container cloud according to the container cloud information, if the state of the container cloud is normal, incorporating the container cloud into the cloud management platform, and synchronizing the resources of the container cloud to the cloud management platform for nano-management.

Optionally, the automation implementation system acquires container cloud information of the cloud environment; and triggering the service of the cloud management platform based on the container cloud information to verify the state of the container cloud according to the container cloud information, if the state of the container cloud is normal, incorporating the container cloud into the cloud management platform through a cloud controller of the container cloud, and synchronizing the resources of the container cloud to the cloud management platform for nano-management.

Optionally, the container cloud information includes configuration information and deployment information of the container cloud.

Optionally, the container cloud information includes configuration information of Kubernetes clusters and deployment information of application program interface (Application Programming Interface, API) hosts, API tokens, and the like.

Optionally, after the container cloud is brought into the cloud management platform, information such as vendor information, host number information, processor information, memory information and the like of the container cloud is synchronized, so that management by a subsequent cloud management platform is facilitated.

Wherein, the container is a lightweight virtualization technology in terms of computational morphology, unlike the Guest OS package at kernel level of traditional virtualization, the container service is a virtualization morphology package at process level. The container cloud serves container technology in a cloud environment.

By means of the step 206, the automation implementation system obtains the container cloud information from the cloud planning scheme and the cloud environment, adds the container cloud to the cloud management platform through the cloud console of the container cloud, triggers the service of the cloud management platform to verify the container cloud state according to the container cloud information, if the verification is passed, the container cloud is added to the cloud management platform, and synchronizes the container cloud information, so that the cloud management platform can conveniently perform nano-tube on the container cloud information. The automatic implementation system automatically analyzes the data and the verification information, and adds the container cloud into the cloud management platform to conduct nano-tube, so that the traditional manual operation is not needed.

Step 207, calling the service of the cloud management platform according to the operation and maintenance monitoring configuration information of the cloud environment, so that the cloud management platform monitors the operation and maintenance of the resources in the cloud environment; uploading a resource operation script to the cloud management platform, wherein the operation script is used for operating and maintaining resources in a cloud environment on the cloud management platform.

Optionally, the automation implementation system acquires operation and maintenance monitoring configuration information and resource operation scripts of the cloud environment; calling the service of the cloud management platform according to the operation and maintenance monitoring configuration information of the cloud environment so that the cloud management platform monitors the operation and maintenance of resources in the cloud environment; uploading a resource operation script to the cloud management platform, wherein the operation script is used for operating and maintaining resources in a cloud environment on the cloud management platform.

By means of the step 207, the cloud management platform can monitor and display the usage amount, the running state and the performance faults of the resources in the cloud environment according to a preset strategy, a resource monitoring interface and an alarm rule are configured, meanwhile, the operation scripts of the resources in the cloud environment are uploaded to the cloud management platform, the cloud management platform establishes a script library, and the cloud management platform operates and maintains the resources in the cloud environment. The automatic implementation system automatically completes the initialization of the monitoring function of the cloud management platform, and provides a basis for the operation of the cloud management platform according to the design of the cloud planning scheme.

Optionally, the operation and maintenance monitoring configuration information included in the cloud planning scheme is at least one of configuration information defining monitoring, monitoring attention points and alarm rules.

In practical application, the automation implementation system and the cloud management platform always keep running, so that when the cloud environment invention changes, new cloud resources in the cloud environment can be automatically found and nanotubes can be added.

It should be noted that, in the step 204, the "operation center" of the cloud management platform is implemented, the step 205, the "application center" of the cloud management platform is implemented, the step 206, the "container cloud center" of the cloud management platform is implemented, the step 207, the "operation and maintenance center" of the cloud management platform is implemented, and the complete cloud management platform can be implemented by means of the steps, however, in practical applications, one of the steps 204 to 207 may be executed, or at least two of the steps may be executed. The embodiments of the present disclosure are not limited in this regard. Further, steps 204 to 207 may be executed in parallel or in sequential order. The execution sequence of steps 204 to 207 is not limited by the embodiments of the present disclosure.

In summary, compared to the previous embodiment, the embodiment of the present disclosure further configures organization management data, operation center implementation, application center implementation, container cloud center implementation, and operation and maintenance center implementation by the automation implementation system interfacing the cloud platform planning system and the cloud management platform, and can rapidly improve the efficiency of implementing the entire cloud management platform compared with the conventional manual configuration method.

The following are device embodiments of the disclosed embodiments, and for parts of the device embodiments that are not described in detail, reference may be made to the technical details disclosed in the method embodiments described above.

Referring to fig. 3, a schematic structural diagram of an apparatus for automatically implementing a cloud management platform according to an exemplary embodiment of the present disclosure is shown. The device for automating the implementation of the cloud management platform may be implemented as all or part of an automation implementation system by software, hardware, and a combination of both. The device comprises: an acquisition module 310, an access module 320, and a nanotube module 330.

The acquiring module 310 is configured to acquire cloud environment information and cloud environment resource information of a cloud environment, where the cloud environment information is used to indicate a current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used to indicate a current resource condition of the cloud environment;

the access module 320 is configured to preset a cloud environment access rule, and access the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rule;

and the nanotube module 330 is configured to synchronize current resources of the cloud environment to the cloud management platform for nanotubes according to the cloud environment resource information after the cloud environment accesses the cloud management platform.

In one possible implementation, the access module 320 is further configured to: triggering a service of the cloud management platform based on the cloud environment information to verify the cloud environment according to a verification message in the cloud environment information; and after the verification information passes the verification, accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rule.

In another possible implementation, the cloud environment information includes a cloud environment type; the cloud environment access rule comprises an access mode corresponding to the type of the cloud environment; the access module 320 is further configured to: and after the verification information passes the verification, accessing the cloud environment to the cloud management platform by adopting an access mode corresponding to the cloud environment type according to the cloud environment type.

In another possible implementation, the nanotube module 330 is further configured to: and calling the service of the cloud management platform according to the cloud environment resource information so that the cloud management platform synchronizes the current resources of the cloud environment to the cloud management platform for management based on the cloud environment resource information and the resource management rules, wherein the resource management rules are preset in the cloud management platform.

In another possible implementation, the apparatus further includes: a first calling module; the first calling module is used for: obtaining organization management data of a cloud environment; and calling the service of the cloud management platform according to the organization management data, and inputting the organization management data to the cloud management platform so as to configure the organization management data on the cloud management platform, wherein the organization management data is used for indicating the defined organization architecture and resource authority.

In another possible implementation, the apparatus further includes: a second calling module; a second calling module, configured to: acquiring flow configuration information of a cloud environment; and calling the service of the cloud management platform according to the flow configuration information to establish a cloud service management mechanism in the cloud management platform.

In another possible implementation, the apparatus further includes: a third calling module; a third calling module, configured to: acquiring application configuration information of a cloud environment, wherein the application configuration information comprises configuration information corresponding to each of a plurality of application systems in the cloud environment; and calling the service of the cloud management platform according to the application configuration information so as to establish a supporting environment installation software package corresponding to each application system in the cloud management platform according to the application configuration information.

In another possible implementation, the apparatus further includes: a container cloud access module; the container cloud access module is used for: acquiring container cloud information of a cloud environment; and triggering the service of the cloud management platform based on the container cloud information to verify the state of the container cloud according to the container cloud information, if the state of the container cloud is normal, incorporating the container cloud into the cloud management platform, and synchronizing the resources of the container cloud to the cloud management platform for nano-management.

In another possible implementation, the apparatus further includes: a fourth calling module and an uploading module; the fourth calling module is used for acquiring operation and maintenance monitoring configuration information of the cloud environment; calling the service of the cloud management platform according to the operation and maintenance monitoring configuration information of the cloud environment so that the cloud management platform monitors the operation and maintenance of resources in the cloud environment; the uploading module is used for acquiring a resource operation script of the cloud environment, uploading the resource operation script to the cloud management platform, and the operation script is used for operating and maintaining resources in the cloud environment on the cloud management platform.

It should be noted that, when the apparatus provided in the foregoing embodiment implements the functions thereof, only the division of the foregoing functional modules is used as an example, in practical application, the foregoing functional allocation may be implemented by different functional modules according to actual needs, that is, the content structure of the device is divided into different functional modules, so as to implement all or part of the functions described above.

The specific manner in which the various modules perform the operations in the apparatus of the above embodiments have been described in detail in connection with the embodiments of the method, and will not be described in detail herein.

The embodiment of the disclosure also provides an automated implementation system, which comprises: a processor; a memory for storing processor-executable instructions; wherein the processor is configured to: the steps performed by the automated implementation system in the various method embodiments described above are implemented.

Alternatively, the automated implementation system is a terminal or a server.

The disclosed embodiments also provide a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement the methods of the various method embodiments described above.

The foregoing description of the embodiments of the present disclosure has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the technical improvements in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (12)

1. A method for automating an implementation of a cloud management platform for use in an automation implementation system, the method comprising:

acquiring cloud environment information and cloud environment resource information of a cloud environment, wherein the cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating the current resource condition of the cloud environment;

presetting a cloud environment access rule, and accessing the cloud environment to a cloud management platform according to the cloud environment information and the cloud environment access rule;

after the cloud environment is accessed to the cloud management platform, synchronizing the current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information.

2. The method of claim 1, wherein the accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rules comprises:

triggering a service of the cloud management platform based on the cloud environment information to verify the cloud environment according to verification information in the cloud environment information;

and after the verification information passes the verification, accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rule.

3. The method of claim 2, wherein the cloud environment information comprises a cloud environment type; the cloud environment access rule comprises an access mode corresponding to the cloud environment type;

the accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rule includes:

and after the verification information passes the verification, accessing the cloud environment to the cloud management platform by adopting an access mode corresponding to the cloud environment type according to the cloud environment type.

4. The method of claim 1, wherein synchronizing the current resources of the cloud environment to the cloud management platform for hosting according to the cloud environment resource information comprises:

and calling the service of the cloud management platform according to the cloud environment resource information so that the cloud management platform synchronizes the current resources of the cloud environment to the cloud management platform for management based on the cloud environment resource information and a resource management rule, wherein the resource management rule is preset in the cloud management platform.

5. The method according to any one of claims 1 to 4, further comprising:

obtaining organization management data of the cloud environment;

and calling the service of the cloud management platform according to the organization management data, and inputting the organization management data to the cloud management platform so as to configure the organization management data on the cloud management platform, wherein the organization management data is used for indicating defined organization architecture and resource authority.

6. The method according to any one of claims 1 to 4, further comprising:

acquiring flow configuration information of the cloud environment;

and calling the service of the cloud management platform according to the flow configuration information so as to establish a cloud service management mechanism in the cloud management platform.

7. The method according to any one of claims 1 to 4, further comprising:

acquiring application configuration information of the cloud environment, wherein the application configuration information comprises configuration information corresponding to each of a plurality of application systems in the cloud environment;

and calling the service of the cloud management platform according to the application configuration information so as to establish a supporting environment installation software package corresponding to each application system in the cloud management platform according to the application configuration information.

8. The method according to any one of claims 1 to 4, further comprising:

acquiring container cloud information of the cloud environment;

and triggering the service of the cloud management platform based on the container cloud information to verify the state of the container cloud according to the container cloud information, if the state of the container cloud is normal, incorporating the container cloud into the cloud management platform, and synchronizing the resources of the container cloud to the cloud management platform for nano-tube.

9. The method according to any one of claims 1 to 4, further comprising:

acquiring operation and maintenance monitoring configuration information and a resource operation script of the cloud environment;

calling the service of the cloud management platform according to the operation and maintenance monitoring configuration information of the cloud environment so that the cloud management platform monitors the operation and maintenance of the resources in the cloud environment;

uploading the resource operation script to the cloud management platform, wherein the operation script is used for operating and maintaining resources in the cloud environment on the cloud management platform.

10. An apparatus for automating an implementation cloud management platform for use in an automation implementation system, the apparatus comprising:

the cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating the current resource condition of the cloud environment;

the access module is used for presetting cloud environment access rules and accessing the cloud environment to the cloud management platform according to the cloud environment information and the cloud environment access rules;

and the nano-tube module is used for synchronizing the current resources of the cloud environment to the cloud management platform for nano-tube according to the cloud environment resource information after the cloud environment is accessed to the cloud management platform.

11. An automated enforcement system, the automated enforcement system comprising: a processor; a memory for storing processor-executable instructions;

wherein the processor is configured to:

acquiring cloud environment information and cloud environment resource information of a cloud environment, wherein the cloud environment information is used for indicating the current cloud platform environment condition of the cloud environment, and the cloud environment resource information is used for indicating the current resource condition of the cloud environment;

presetting a cloud environment access rule, and accessing the cloud environment to a cloud management platform according to the cloud environment information and the cloud environment access rule;

after the cloud environment is accessed to the cloud management platform, synchronizing the current resources of the cloud environment to the cloud management platform for nano-management according to the cloud environment resource information.

12. A non-transitory computer readable storage medium having stored thereon computer program instructions, which when executed by a processor, implement the method of any of claims 1 to 9.