CN115801861B - Data communication method, device, equipment, readable storage medium and server - Google Patents

Abstract

The invention discloses a data communication method, a device, equipment, a readable storage medium and a server, belongs to the field of cloud computing, and is used for opening private cloud networks among cloud computing clusters in different areas. In order to get through private cloud networks of cloud computing clusters in different areas, the cloud computing clusters in the application can be mounted to a designated transit network, cloud connection identifiers of the cloud computing clusters can be updated under the control of a cloud management platform, and then static route information of other cloud computing clusters which are mounted on the transit network and belong to the same cloud connection identifier can be obtained.

Description

Data communication method, device, equipment, readable storage medium and server

Technical Field

The present invention relates to the field of cloud computing, and in particular, to a data communication method, and further, to a data communication device, apparatus, computer readable storage medium, and server.

Background

In order to consider some factors such as safety, some large enterprises generally need to build different cloud computing clusters and cloud management platforms in different regions, different services are deployed on the cloud computing clusters in different regions, and certain relations exist between the services, so that the services need to be communicated with each other, however, in the prior art, a scheme for opening respective private cloud networks of the cloud computing clusters in different regions is lacking, and even communication between the cloud computing clusters in different regions cannot be realized, so that data communication efficiency is reduced, and user experience is influenced.

Therefore, how to provide a solution to the above technical problem is a problem that a person skilled in the art needs to solve at present.

Disclosure of Invention

The invention aims to provide a data communication method, which can realize accurate communication of each private cloud network through cloud connection identifiers on the basis of a transit network, ensures safety on the basis of improving communication efficiency and improves user experience; the invention further aims to provide a data communication device, equipment, a computer readable storage medium and a server, on the basis of a transit network, each private cloud network can be precisely communicated through a cloud connection identifier, on the basis of improving communication efficiency, safety is guaranteed, and user experience is improved.

In order to solve the technical problems, the present invention provides a data communication method, which is applied to a cloud computing cluster, and includes:

mounting the cloud computing cluster of the cloud computing cluster to a designated transit network;

under the control of the cloud management platform corresponding to the cloud management platform, the cloud connection identifier of the cloud management platform is updated;

acquiring static route information of a cloud computing cluster which is mounted on the transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster;

and based on the transit network, communicating with the cloud computing clusters with the same cloud connection identifier according to the static routing information.

Preferably, the acquiring static routing information of the cloud computing cluster, which is mounted on the transit network and has the same cloud connection identifier as the static routing information of the cloud computing cluster, specifically includes:

synchronizing the cloud connection identifier and the static routing information of the cloud connection identifier to a preset transfer database;

and acquiring static route information of the cloud computing cluster which is mounted on the transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster.

Preferably, the data communication method further includes:

responding to a creation instruction of the cloud management platform corresponding to the cloud management platform, and creating the transfer database based on a pre-installed SDN controller;

And respectively connecting the transit databases to each designated cloud computing cluster.

Preferably, each cloud computing cluster comprises a plurality of private cloud networks;

under the control of the cloud management platform corresponding to the cloud management platform, updating the cloud connection identifier of the cloud management platform comprises the following steps:

responding to a control instruction of a cloud management platform corresponding to the cloud management platform, and updating cloud connection identifiers of the designated private cloud network in the private cloud networks contained by the cloud management platform.

Preferably, the data communication method further includes:

updating the static routing information of the self in response to an updating instruction;

and synchronizing the updated static route information to the transit database.

Preferably, the data communication method further includes:

and when the cloud connection identifier and/or the static routing information of the cloud connection identifier and/or the static routing information are updated, storing the updated cloud connection identifier and the static routing information in a database of the cloud connection identifier and/or the static routing information of the cloud connection identifier are/is updated, so that the cloud connection identifier and the static routing information of the cloud connection identifier and/or the static routing information of the static routing information are/is/are conveniently inquired and called.

Preferably, the data communication method further includes:

responding to a database table creation instruction, and respectively creating database tables in a cloud computing cluster of the database table creation instruction and the transit database;

the step of synchronizing the cloud connection identifier and the static routing information of the cloud connection identifier to a preset transfer database comprises the following steps:

Updating the cloud connection identifier and the static routing information of the cloud connection identifier to the database table of the cloud connection identifier and the static routing information of the cloud connection identifier;

and synchronizing the data in the database table of the self to a database table of the preset transit database.

Preferably, the database table includes information bits of a cloud connection identifier of the cloud computing cluster, information bits of a cluster address of the cloud computing cluster, information bits of a router ID of the cloud computing cluster, information bits of a transit network routing interface IP of the cloud computing cluster, and information bits of a network segment of a private cloud network in the cloud computing cluster;

the static routing information comprises a cluster address of the cloud computing cluster, a router ID of the cloud computing cluster, a transit network routing interface IP of the cloud computing cluster and a network segment of a private cloud network in the cloud computing cluster.

Preferably, the SDN controller is a distributed SDN controller OVN.

Preferably, after the data communication method based on the transit network communicates with the cloud computing cluster having the same cloud connection identifier according to the static routing information, the data communication method further includes:

judging whether the communication with the cloud computing clusters with the same cloud connection identifier is successful or not;

If not, alarming is carried out to the cloud management platform corresponding to the cloud management platform.

Preferably, the cloud computing cluster is an OpenStack cluster.

Preferably, the data communication method further includes:

and deleting the cloud connection identification of the designated private cloud network in response to the deleting instruction so as to cut off the cloud connection of the designated private cloud network.

Preferably, the data communication method further includes:

generating information tables of all private cloud networks subordinate to the private cloud networks and cloud connection identifiers corresponding to the private cloud networks;

and responding to an acquisition instruction of the cloud management platform corresponding to the information table, and sending the information table to the cloud management platform.

Preferably, the data communication method further includes:

counting preset communication indexes of each private cloud network subordinate to the private cloud network through the transit network and private cloud networks in other cloud computing clusters;

and sending the counted preset communication indexes to the cloud management platform corresponding to the communication indexes.

Preferably, the mounting the cloud computing cluster of the self to the designated transit network is specifically:

and responding to a control instruction of the cloud management platform corresponding to the cloud computing cluster, and mounting the cloud computing cluster to a designated transit network.

Preferably, the mounting the cloud computing cluster of the self to the designated transit network is specifically:

Responding to a transit network construction instruction, and creating a transit network in the transit database;

and synchronizing the transit network to each cloud computing cluster connected with the transit database through the transit database so as to mount each cloud computing cluster to the transit network.

In order to solve the technical problem, the present invention further provides a data communication device, which is applied to a cloud computing cluster, and includes:

the mounting module is used for mounting the cloud computing cluster to a designated transit network;

the updating module is used for updating the cloud connection identifier of the user under the control of the cloud management platform corresponding to the user;

the acquisition module is used for acquiring static route information of the cloud computing cluster which is hung on the transit network and has the same cloud connection identifier as the acquisition module;

and the communication module is used for communicating with the cloud computing clusters with the same cloud connection identifier according to the static routing information based on the transit network.

In order to solve the above technical problem, the present invention further provides a data communication device, including:

a memory for storing a computer program;

a processor for implementing the steps of the data communication method as described above when executing the computer program.

To solve the above technical problem, the present invention also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the data communication method as described above.

In order to solve the technical problem, the invention also provides a server which comprises a server body and the data communication equipment connected with the server body.

The invention provides a data communication method, in order to get through private cloud networks of cloud computing clusters in different areas, the cloud computing clusters in the method can be mounted to a designated transit network, cloud connection identifiers of the cloud computing clusters can be updated under the control of a cloud management platform, and then static route information of other cloud computing clusters which are also mounted on the transit network and belong to the same cloud connection identifier can be acquired.

The invention also provides data communication transfer, equipment and a computer readable storage medium, which have the same beneficial effects as the data communication method.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required in the prior art and the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of a data communication method provided by the invention;

fig. 2 is a schematic structural diagram of a data communication system according to the present invention;

fig. 3 is a schematic diagram of data plane interworking principle of a cross-regional different cluster provided by the invention;

FIG. 4 is an interface call design diagram of a cloud management platform in a cross-regional scenario provided by the invention;

fig. 5 is a schematic structural diagram of a data communication device according to the present invention;

fig. 6 is a schematic structural diagram of a data communication device according to the present invention.

Description of the embodiments

The core of the invention is to provide a data communication method, on the basis of a transit network, each private cloud network can be precisely communicated through a cloud connection identifier, the safety is ensured on the basis of improving the communication efficiency, and the user experience is improved; the invention further provides a data communication device, equipment, a computer readable storage medium and a server, on the basis of a transit network, each private cloud network can be precisely communicated through a cloud connection identifier, on the basis of improving communication efficiency, safety is guaranteed, and user experience is improved.

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, fig. 1 is a flow chart of a data communication method provided by the present invention, where the data communication method includes:

s101: mounting the cloud computing cluster of the cloud computing cluster to a designated transit network;

specifically, in view of the technical problems in the background art, in order to get through private cloud networks of cloud computing clusters in different areas, the application is to implement intercommunication between private cloud networks of cloud computing clusters in different areas based on a transit network, so that the cloud computing clusters of the application can be firstly mounted to a designated transit network.

It should be noted that the embodiment of the present invention may be applied to cloud computing clusters, that is, in a plurality of cloud computing clusters distributed in different areas, each cloud computing cluster may execute the method in the embodiment of the present invention, so as to implement the opening of private cloud networks of cloud computing clusters in different areas.

S102: under the control of the cloud management platform corresponding to the cloud management platform, the cloud connection identifier of the cloud management platform is updated;

specifically, considering that data interaction requirements are not required between services of all private cloud networks in each cloud computing cluster, a data channel between specific private cloud networks can be accurately opened, and therefore in the embodiment of the invention, the private cloud networks between the cloud computing clusters are accurately opened in a cloud connection identification mode.

Considering that each cloud computing cluster has a corresponding cloud management platform, and communication between the cloud management platforms is easier to realize, the cloud computing clusters can be designed to update their cloud connection identifiers under the control of the corresponding cloud management platform, so that management of global cloud connection identifiers (including all cloud computing clusters all mounted on a transit network) can be realized through data intercommunication between the cloud management platforms, and opening/closing of data channels between private cloud networks can be accurately controlled.

S103: acquiring static route information of a cloud computing cluster which is mounted on a transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster;

specifically, after the cloud connection identifier of the cloud connection identifier is provided, if communication with other cloud computing clusters is to be realized, the static route information of the other cloud computing clusters needs to be known, and the cloud connection identifier is used for limiting whether data intercommunication can be performed between different cloud computing clusters, so that in order to perform data intercommunication with the other cloud computing clusters along the way, the static route information of the cloud computing clusters which are mounted on the transit network and have the same cloud connection identifier as the cloud connection identifier of the cloud computing clusters can be obtained in the embodiment of the invention so as to be used as a data basis of the subsequent step.

The static routing information is used for realizing communication with the target cloud computing cluster based on the transit network.

S104: and based on the transit network, communicating with the cloud computing clusters with the same cloud connection identifier according to the static routing information.

Specifically, after the static routing information is obtained, the representative can realize communication with the target cloud computing cluster through the transit network according to the static routing information, so that the communication with the cloud computing cluster with the same cloud connection identifier can be performed according to the static routing information based on the transit network in the step.

The design of the cloud computing identification can limit that data intercommunication can be performed only by the cloud computing clusters with the same cloud connection identification, so that safety is improved.

The invention provides a data communication method, in order to get through private cloud networks of cloud computing clusters in different areas, the cloud computing clusters in the method can be mounted to a designated transit network, cloud connection identifiers of the cloud computing clusters can be updated under the control of a cloud management platform, and then static route information of other cloud computing clusters which are also mounted on the transit network and belong to the same cloud connection identifier can be acquired.

For better illustrating the embodiments of the present invention, please refer to fig. 2, fig. 2 is a schematic structural diagram of a data communication system according to the present invention, wherein the above embodiments are based on:

as a preferred embodiment, the acquiring static routing information of a cloud computing cluster that is mounted on a transit network and has the same cloud connection identifier as itself specifically includes:

synchronizing the cloud connection identifier and the static routing information of the cloud connection identifier to a preset transfer database;

and acquiring static route information of the cloud computing cluster which is hung on the transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster.

Specifically, in consideration of acquiring static route information of cloud computing clusters which are mounted on a transit network from a unified position through a data monitoring mechanism and have cloud connection identifiers identical to the cloud computing clusters, the acquisition efficiency can be effectively improved, so in the embodiment of the invention, the cloud computing clusters can synchronize the cloud connection identifiers and the static route information of the cloud computing clusters to a preset transit database, that is, the cloud connection identifiers and the static route information of all the cloud computing clusters are contained in the transit database, and in this way, each cloud computing cluster can acquire the static route information of the cloud computing clusters which are mounted on the transit network from the transit database and have the cloud connection identifiers identical to the cloud computing clusters, and the work efficiency is improved.

Specifically, when static route information is obtained from the intermediate data base, the cloud connection identifier identical to the cloud connection identifier of the intermediate data base can be searched first, and then the static route information of the cloud computing cluster identical to the cloud connection identifier of the intermediate data base is extracted for standby.

As a preferred embodiment, the data communication method further includes:

responding to a creation instruction of a cloud management platform corresponding to the cloud management controller, and creating a transfer database based on a pre-installed SDN controller;

and respectively connecting the transit databases to each designated cloud computing cluster.

Specifically, an SDN (Software Defined Network) controller is an application in a Software Defined Network (SDN) that is responsible for flow control to ensure an intelligent Network. The SDN controller is based on protocols such as OpenFlow, and allows the server to tell the switch where to send the data packet, and because the SDN controller is a controller based on software implementation, new hardware can be avoided being installed when the SDN controller is based on creation of the transfer database, so that cost is reduced, and working efficiency is improved.

Of course, in addition to the above specific manner, the transit database may be constructed in other manners, and embodiments of the present invention are not limited herein.

As a preferred embodiment, each cloud computing cluster comprises a plurality of private cloud networks;

under the control of the cloud management platform corresponding to the cloud management platform, the cloud connection identification of the cloud management platform is updated specifically as follows:

responding to a control instruction of a cloud management platform corresponding to the cloud management platform, and updating cloud connection identifiers of the designated private cloud network in the private cloud networks contained by the cloud management platform.

Specifically, each cloud computing cluster may include a plurality of private cloud networks, in this case, cloud connection identifiers may be allocated to the private cloud networks that need to establish cloud connection, then the cloud connection established subsequently is a cloud connection between the private cloud networks, and the two private cloud networks are distributed in the cloud computing clusters in different areas, so that the private cloud networks can be opened more accurately through this approach.

The cloud computing clusters commonly mounted under the same transit network are provided with cloud management platforms in one-to-one correspondence, one main cloud management platform can be designated in the plurality of cloud management platforms, and communication between the main cloud management platform and other cloud management platforms is realized through a proxy gateway, so that all other cloud management platforms can be managed and controlled through the main cloud management platform, for example, cloud connection identifiers of private cloud networks subordinate to the other cloud management platforms can be controlled through the main cloud management platform, and the work efficiency is improved.

As a preferred embodiment, the data communication method further includes:

responding to the update instruction, and updating the static route information of the self;

and synchronizing the updated static route information to a transit database.

Specifically, considering that for a private cloud network under a cloud computing cluster, static routing information is not invariable, when the static routing information is updated, the static routing information of the private cloud network in the transit database is required to be updated, so that the updated static routing information can be synchronized to the transit database in the embodiment of the invention, and the reliability of cloud connection is improved.

As a preferred embodiment, the data communication method further includes:

when the cloud connection identifier and/or the static routing information of the cloud connection identifier and/or the static routing information are/is updated, the updated cloud connection identifier and the static routing information are stored in the database of the cloud connection identifier and/or the static routing information of.

Specifically, the fact that along with the change of cloud connection identifiers and static route information, the used cloud connection identifiers and static route information can play a role in recording historical events is considered, and staff have the requirement of inquiring and calling, so that in the embodiment of the invention, when the cloud connection identifiers and/or the static route information are updated, the updated cloud connection identifiers and the static route information can be stored in the database of the staff so as to inquire and call.

As a preferred embodiment, the data communication method further includes:

responding to a database table creation instruction, and respectively creating database tables in a cloud computing cluster and a transfer database of the database table creation instruction;

the cloud connection identification and static route information of the cloud connection identification are synchronized to a preset transfer database, and the method specifically comprises the following steps:

updating the cloud connection identifier and the static routing information of the self into a database table of the self;

and synchronizing the data in the database table of the self to the database table of the preset transit database.

Specifically, in order to more efficiently store and search the cloud connection identifier and the static routing information, the database tables can be respectively created in the cloud computing clusters and the transfer databases in response to the database table creation instruction, so that the cloud computing clusters can update the cloud connection identifier and the static routing information to the database tables, and then synchronize the data in the database tables to the database tables of the preset transfer databases, thereby improving the data processing efficiency, and in addition, the data can be more efficiently searched when the data is searched in the transfer databases in the cloud computing clusters.

As a preferred embodiment, the database table includes information bits of a cloud connection identifier of the cloud computing cluster, information bits of a cluster address of the cloud computing cluster, information bits of a router ID of the cloud computing cluster, information bits of a transit network routing interface IP of the cloud computing cluster, and information bits of a network segment of a private cloud network in the cloud computing cluster;

the static routing information comprises a cluster address of the cloud computing cluster, a router ID of the cloud computing cluster, a transit network routing interface IP of the cloud computing cluster and network segments of a private cloud network in the cloud computing cluster.

Specifically, in order to smoothly realize data communication based on the transit network, the static routing information in the embodiment of the invention includes a cluster address of the cloud computing cluster, a router ID of the cloud computing cluster, a transit network routing interface IP of the cloud computing cluster, and a network segment of a private cloud network in the cloud computing cluster, so that data intercommunication of private cloud networks of different regional cloud computing clusters based on the transit network can be realized, and on this basis, the database table can include information bits of a cloud connection identifier of the cloud computing cluster, information bits of a cluster address of the cloud computing cluster, information bits of a router ID of the cloud computing cluster, information bits of a transit network routing interface IP of the cloud computing cluster, and information bits of a network segment of the private cloud network in the cloud computing cluster, so that the cloud connection identifier and the static routing information can be collated and contained.

Of course, in addition to this specific form, the static routing information may also include other parameters, and embodiments of the present invention are not limited herein.

For better explaining the embodiments of the present invention, please refer to fig. 4 and fig. 5, fig. 3 is a schematic diagram of data plane interworking principle of a cross-regional different cluster provided by the present invention; FIG. 4 is an interface call design diagram of a cloud management platform in a cross-regional scenario provided by the invention;

specifically, in fig. 3, cluster a of area 1 and cluster B of area 2 are respectively communicated through own routers and intermediate transit networks, each router is connected to a private cloud network corresponding to itself, where 192.168.1.0/24 and 172.10.1.0/24 are network segments of the private cloud network of cluster a, 192.168.2.0/24 and 172.10.2.0/24 are network segments of the private cloud network of cluster B, 169.254.1.1 is an IP address of a router of cluster B, 169.254.1.2 is an IP address of a router of cluster a, E via F indicates that the next address of network segment E is F, and the network segment of the transit network is 169.254.1.1/24.

Specifically, in fig. 4, in order to implement the interworking of the cloud management platforms of any two areas, the data interworking of the cloud management platforms of any two areas needs to be implemented, and fig. 3 describes an internal processing flow chart in which the cloud management platform of the area 1 sends data to the cloud management platform of the area 2 to obtain data in the area 2, a request is initiated by a user interface of the area 1, a gateway forwards the request to a corresponding network program module iretwork according to a request address in the request, the iretwork is subjected to data encapsulation, parameters in the request are converted into a standard data format, the data content includes a destination area, a destination micro service, a request URL (Uniform Resource Locator, a uniform resource locator), a request type, a request Body, a returned VDC (Virtual Data Center, a virtual data center) of an operation, and a resource domain, after encapsulation, the iregin determines the destination area according to the destination area, and then sends the request to the gateway of the destination area 2, and the gateway forwards the request to the iregineon to the gateway according to the destination micro service in the request, and executes a response to the corresponding request in the network.

As a preferred embodiment, the SDN controller is a distributed SDN controller OVN.

Specifically, OVN (Open Virtual Network ) is a distributed SDN software system supporting virtual network abstraction, OVN supports virtual network abstraction natively based on the existing functions of OVS (Open Virtual Switch ), and implements functions of network, router, security group, firewall, etc. based on OVS flow table, and has advantages of strong stability and simple deployment.

Of course, besides OVN, the SDN controller may be of various other types, and embodiments of the present invention are not limited herein.

As a preferred embodiment, after communicating with a cloud computing cluster having the same cloud connection identifier according to static routing information based on a transit network, the data communication method further includes:

judging whether communication with the cloud computing clusters with the same cloud connection identifier is successful or not;

if not, alarming is carried out to the cloud management platform corresponding to the cloud management platform.

Specifically, considering that communication with a cloud computing cluster with the same cloud connection identifier has a possibility of failure due to parameter errors and other reasons, in the embodiment of the invention, after communication with the cloud computing cluster with the same cloud connection identifier according to static routing information based on a transit network, whether communication with the cloud computing cluster with the same cloud connection identifier is successful or not can be judged, if not, an alarm can be given to a cloud management platform corresponding to the cloud computing cluster, so that a worker can find the situation in time and overhaul the situation, and the reliability of private cloud network communication of cloud computing clusters in different areas can be improved.

As a preferred embodiment, the cloud computing cluster is an OpenStack cluster.

Specifically, the OpenStack platform covers various basic function services such as computation, storage, network and the like, is a mature IaaS management platform at present, openStack also becomes an industry standard, and each SDN manufacturer basically uses an OpenStack network and an interface as primary standards to develop, design and adapt SDN products, so that the use is convenient and reliable.

Of course, the cloud computing clusters may be of various types other than OpenStack clusters, and embodiments of the present invention are not limited herein.

As a preferred embodiment, the data communication method further includes:

and deleting the cloud connection identification of the designated private cloud network in response to the deletion instruction so as to cut off the cloud connection of the designated private cloud network.

Specifically, considering that in some cases, the existing cloud connection may not have the need of continuous use, and in this case, the cloud connection need not be continuous, so in the embodiment of the present invention, in response to the deletion instruction, the cloud connection identifier of the designated private cloud network may be deleted, so as to cut off the cloud connection of the designated private cloud network, thereby improving security and reducing space occupation.

As a preferred embodiment, the data communication method further includes:

generating information tables of all private cloud networks subordinate to the private cloud networks and cloud connection identifiers corresponding to the private cloud networks;

and responding to an acquisition instruction corresponding to the cloud management platform, and sending the information table to the cloud management platform.

In particular, consider

As a preferred embodiment, the data communication method further includes:

counting preset communication indexes of each private cloud network subordinate to the private cloud network through a transit network and private cloud networks in other cloud computing clusters;

and sending the counted preset communication indexes to the cloud management platform corresponding to the communication indexes.

Specifically, considering that a plurality of private cloud networks belong to a cloud computing cluster, in order to facilitate the Yun Guanping platform to uniformly manage cloud connection communication conditions of the plurality of private cloud networks of the cloud computing cluster, in the embodiment of the invention, preset communication indexes of each private cloud network of the cloud computing cluster and the private cloud networks in other cloud computing clusters through a transit network can be counted, and then the counted preset communication indexes are sent to cloud management platforms corresponding to the cloud computing cluster.

The preset communication index may include various indexes, such as communication data amount, communication times, and the like, which are not limited herein.

As a preferred embodiment, the mounting of the cloud computing cluster to the designated transit network specifically includes:

and responding to a control instruction of the cloud management platform corresponding to the cloud computing cluster, and mounting the cloud computing cluster to a designated transit network.

Specifically, the designated transit network can be mounted for the corresponding cloud computing cluster through each cloud management platform, so that the operation is convenient and efficient.

Of course, besides this manner, the installation of the transit network may be performed in other manners, and the embodiment of the present invention is not limited herein.

As a preferred embodiment, the mounting of the cloud computing cluster to the designated transit network specifically includes:

responding to a transit network construction instruction, and creating a transit network in a transit database;

and synchronizing the transit network to each cloud computing cluster connected with the transit database through the transit database so as to mount each cloud computing cluster to the transit network.

Specifically, in order to further improve efficiency of mounting the transit network, in the embodiment of the invention, the transit network can be created in the transit database in response to the transit network construction instruction, so that the transit network is synchronized to each cloud computing cluster connected with the transit database through the transit database, and each cloud computing cluster is mounted to the transit network.

Of course, besides this specific manner, the installation of the transit network may also be performed in other manners, and the embodiment of the present invention is not limited herein.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a data communication device provided by the present invention, where the data communication device is applied to a cloud computing cluster, and includes:

the mounting module 51 is configured to mount the cloud computing cluster to a designated transit network;

the updating module 52 is configured to update the cloud connection identifier of the user under control of the cloud management platform corresponding to the user;

the acquiring module 53 is configured to acquire static routing information of a cloud computing cluster that is mounted on the transit network and has the same cloud connection identifier as the static routing information of the cloud computing cluster;

the communication module 54 is configured to communicate with a cloud computing cluster having the same cloud connection identifier according to static routing information based on the transit network.

The invention provides a data communication device, in order to get through private cloud networks of cloud computing clusters in different areas, the cloud computing clusters in the application can be mounted to a designated transit network, then cloud connection identifiers of the cloud computing clusters can be updated under the control of a cloud management platform, and then static route information of other cloud computing clusters which are also mounted on the transit network and belong to the same cloud connection identifier can be acquired.

As a preferred embodiment, the acquisition module 33 comprises:

the first synchronization module is used for synchronizing the cloud connection identifier and the static routing information of the first synchronization module to a preset transfer database;

and the acquisition sub-module is used for acquiring static route information of the cloud computing cluster which is mounted on the transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster.

As a preferred embodiment, the data communication apparatus further includes:

the first action module is used for responding to a creation instruction of the cloud management platform corresponding to the first action module, and creating a transfer database based on a pre-installed SDN controller;

and the second action module is used for respectively connecting the transit databases to each designated cloud computing cluster.

As a preferred embodiment, each cloud computing cluster comprises a plurality of private cloud networks;

the update module 32 is specifically configured to:

responding to a control instruction of a cloud management platform corresponding to the cloud management platform, and updating cloud connection identifiers of the designated private cloud network in the private cloud networks contained by the cloud management platform.

As a preferred embodiment, the data communication apparatus further includes:

the third action module is used for responding to the updating instruction and updating the static route information of the third action module;

And the second synchronization module is used for synchronizing the updated static route information to the transfer database.

As a preferred embodiment, the data communication apparatus further includes:

and the storage module is used for storing the updated cloud connection identification and the static routing information in the database when the cloud connection identification and/or the static routing information of the storage module are updated so as to inquire and call.

As a preferred embodiment, the data communication apparatus further includes:

the fourth action module is used for responding to the database table creation instruction and respectively creating database tables in the cloud computing cluster and the transit database;

the first synchronization module includes:

the updating sub-module is used for updating the cloud connection identifier and the static routing information of the updating sub-module into the database table of the updating sub-module;

and the synchronization sub-module is used for synchronizing the data in the database table of the synchronization sub-module to the database table of the preset transit database.

As a preferred embodiment, the database table includes information bits of a cloud connection identifier of the cloud computing cluster, information bits of a cluster address of the cloud computing cluster, information bits of a router ID of the cloud computing cluster, information bits of a transit network routing interface IP of the cloud computing cluster, and information bits of a network segment of a private cloud network in the cloud computing cluster;

The static routing information comprises a cluster address of the cloud computing cluster, a router ID of the cloud computing cluster, a transit network routing interface IP of the cloud computing cluster and network segments of a private cloud network in the cloud computing cluster.

As a preferred embodiment, the SDN controller is a distributed SDN controller OVN.

As a preferred embodiment, the data communication device further includes, after communicating with a cloud computing cluster having the same cloud connection identifier according to static routing information based on the transit network:

the judging module is used for judging whether the communication with the cloud computing clusters with the same cloud connection identifier is successful or not, and if not, the alarming module is triggered;

and the alarm module is used for alarming the cloud management platform corresponding to the alarm module.

As a preferred embodiment, the cloud computing cluster is an OpenStack cluster.

As a preferred embodiment, the data communication apparatus further includes:

and the deleting module is used for deleting the cloud connection identification of the designated private cloud network in response to the deleting instruction so as to cut off the cloud connection of the designated private cloud network.

As a preferred embodiment, the data communication apparatus further includes:

the generation module is used for generating information tables of all private cloud networks subordinate to the generation module and cloud connection identifiers corresponding to the private cloud networks;

The first sending module is used for responding to the acquisition instruction of the cloud management platform corresponding to the first sending module and sending the information table to the cloud management platform.

As a preferred embodiment, the data communication apparatus further includes:

the statistics module is used for counting preset communication indexes of each private cloud network subordinate to the statistics module and the private cloud networks in other cloud computing clusters through the transit network;

the second sending module is used for sending the counted preset communication indexes to the cloud management platform corresponding to the second sending module.

As a preferred embodiment, the mounting module 51 is specifically configured to:

and responding to a control instruction of the cloud management platform corresponding to the cloud computing cluster, and mounting the cloud computing cluster to a designated transit network.

As a preferred embodiment, the mounting module 51 includes:

the creation module is used for responding to the construction instruction of the transit network and creating the transit network in the transit database;

and the third synchronization module is used for synchronizing the transit network to each cloud computing cluster connected with the transit database through the transit database so as to mount each cloud computing cluster to the transit network.

For the description of the data communication apparatus provided in the embodiment of the present invention, reference is made to the foregoing embodiments of the data communication method, and the embodiments of the present invention are not repeated herein.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a data communication device according to the present invention, where the data communication device includes:

a memory 61 for storing a computer program;

a processor 62 for implementing the steps of the data communication method in the previous embodiment when executing the computer program.

Specifically, the memory includes a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and computer readable instructions, and the internal memory provides an environment for the operating system and the execution of the computer readable instructions in the non-volatile storage medium. When the processor executes the computer program stored in the memory, the following steps may be implemented: mounting the cloud computing cluster of the cloud computing cluster to a designated transit network; under the control of the cloud management platform corresponding to the cloud management platform, the cloud connection identifier of the cloud management platform is updated; acquiring static route information of a cloud computing cluster which is mounted on a transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster; and based on the transit network, communicating with the cloud computing clusters with the same cloud connection identifier according to the static routing information.

The invention provides data communication equipment, in order to get through private cloud networks of cloud computing clusters in different areas, the cloud computing clusters in the application can be mounted to a designated transit network, cloud connection identifiers of the cloud computing clusters can be updated under the control of a cloud management platform, and then static route information of other cloud computing clusters which are also mounted on the transit network and belong to the same cloud connection identifier can be acquired.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: synchronizing the cloud connection identifier and the static routing information of the cloud connection identifier to a preset transfer database;

and acquiring static route information of the cloud computing cluster which is hung on the transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: responding to a creation instruction of a cloud management platform corresponding to the cloud management controller, and creating a transfer database based on a pre-installed SDN controller;

and respectively connecting the transit databases to each designated cloud computing cluster.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: each cloud computing cluster includes a plurality of private cloud networks;

responding to a control instruction of a cloud management platform corresponding to the cloud management platform, and updating cloud connection identifiers of the designated private cloud network in the private cloud networks contained by the cloud management platform.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: responding to the update instruction, and updating the static route information of the self;

And synchronizing the updated static route information to a transit database.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: when the cloud connection identifier and/or the static routing information of the cloud connection identifier and/or the static routing information are/is updated, the updated cloud connection identifier and the static routing information are stored in the database of the cloud connection identifier and/or the static routing information of.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: responding to a database table creation instruction, and respectively creating database tables in a cloud computing cluster and a transfer database of the database table creation instruction;

the cloud connection identification and static route information of the cloud connection identification are synchronized to a preset transfer database, and the method specifically comprises the following steps:

updating the cloud connection identifier and the static routing information of the self into a database table of the self;

and synchronizing the data in the database table of the self to the database table of the preset transit database.

As a preferred embodiment, the database table includes information bits of a cloud connection identifier of the cloud computing cluster, information bits of a cluster address of the cloud computing cluster, information bits of a router ID of the cloud computing cluster, information bits of a transit network routing interface IP of the cloud computing cluster, and information bits of a network segment of a private cloud network in the cloud computing cluster;

The static routing information comprises a cluster address of the cloud computing cluster, a router ID of the cloud computing cluster, a transit network routing interface IP of the cloud computing cluster and network segments of a private cloud network in the cloud computing cluster.

As a preferred embodiment, the SDN controller is a distributed SDN controller OVN.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: judging whether communication with the cloud computing clusters with the same cloud connection identifier is successful or not;

if not, alarming is carried out to the cloud management platform corresponding to the cloud management platform.

As a preferred embodiment, the cloud computing cluster is an OpenStack cluster.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: and deleting the cloud connection identification of the designated private cloud network in response to the deletion instruction so as to cut off the cloud connection of the designated private cloud network.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: generating information tables of all private cloud networks subordinate to the private cloud networks and cloud connection identifiers corresponding to the private cloud networks;

And responding to an acquisition instruction corresponding to the cloud management platform, and sending the information table to the cloud management platform.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: counting preset communication indexes of each private cloud network subordinate to the private cloud network through a transit network and private cloud networks in other cloud computing clusters;

and sending the counted preset communication indexes to the cloud management platform corresponding to the communication indexes.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: and responding to a control instruction of the cloud management platform corresponding to the cloud computing cluster, and mounting the cloud computing cluster to a designated transit network.

As an alternative embodiment, the processor may implement the following steps when executing the computer subroutine stored in the memory: responding to a transit network construction instruction, and creating a transit network in a transit database;

and synchronizing the transit network to each cloud computing cluster connected with the transit database through the transit database so as to mount each cloud computing cluster to the transit network.

For the description of the data communication device provided in the embodiment of the present invention, reference is made to the foregoing embodiment of the data communication method, and the embodiment of the present invention is not repeated herein.

The present invention also provides a computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of the data communication method as in the previous embodiments.

The invention provides a computer readable storage medium, in order to get through private cloud networks of cloud computing clusters in different areas, the cloud computing clusters in the application can be mounted to a designated transit network, then cloud connection identifiers of the cloud computing clusters can be updated under the control of a cloud management platform, and then static route information of other cloud computing clusters which are also mounted on the transit network and belong to the same cloud connection identifier can be acquired.

For the description of the computer readable storage medium provided in the embodiment of the present invention, reference is made to the foregoing embodiments of the data communication method, and the embodiments of the present invention are not repeated here.

The invention also provides a server, which comprises a server body and data communication equipment connected with the server body in the embodiment.

The invention provides a server, in order to get through private cloud networks of cloud computing clusters in different areas, the cloud computing clusters in the application can be mounted to a designated transit network, cloud connection identifiers of the cloud computing clusters can be updated under the control of a cloud management platform, and then static route information of other cloud computing clusters which are also mounted on the transit network and belong to the same cloud connection identifier can be acquired.

For the description of the server provided by the embodiment of the present invention, reference is made to the foregoing embodiments of the data communication method, and the embodiments of the present invention are not repeated herein.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section. It should also be noted that in this specification the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (19)

1. A data communication method, applied to a cloud computing cluster, comprising:

mounting the cloud computing cluster of the cloud computing cluster to a designated transit network;

under the control of the cloud management platform corresponding to the cloud management platform, the cloud connection identifier of the cloud management platform is updated;

acquiring static route information of a cloud computing cluster which is mounted on the transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster;

based on the transit network, communicating with the cloud computing clusters with the same cloud connection identifier according to the static routing information;

the obtaining static route information of the cloud computing cluster which is mounted on the transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster comprises the following specific steps:

synchronizing the cloud connection identifier and the static routing information of the cloud connection identifier to a preset transfer database;

acquiring static route information of a cloud computing cluster which is mounted on the transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster from the transit database;

under the control of the cloud management platform corresponding to the cloud management platform, updating the cloud connection identifier of the cloud management platform comprises the following steps:

responding to a control instruction of a cloud management platform corresponding to the cloud management platform, and updating cloud connection identifiers of the designated private cloud network in the private cloud networks contained by the cloud management platform.

2. The data communication method according to claim 1, characterized in that the data communication method further comprises:

responding to a creation instruction of the cloud management platform corresponding to the cloud management platform, and creating the transfer database based on a pre-installed SDN controller;

and respectively connecting the transit databases to each designated cloud computing cluster.

3. The data communication method of claim 2, wherein each of the cloud computing clusters comprises a plurality of private cloud networks.

4. The data communication method according to claim 2, characterized in that the data communication method further comprises:

updating the static routing information of the self in response to an updating instruction;

and synchronizing the updated static route information to the transit database.

5. The data communication method according to claim 4, further comprising:

and when the cloud connection identifier and/or the static routing information of the cloud connection identifier and/or the static routing information are updated, storing the updated cloud connection identifier and the static routing information in a database of the cloud connection identifier and/or the static routing information of the cloud connection identifier are/is updated, so that the cloud connection identifier and the static routing information of the cloud connection identifier and/or the static routing information of the static routing information are/is/are conveniently inquired and called.

6. The data communication method according to claim 2, characterized in that the data communication method further comprises:

Responding to a database table creation instruction, and respectively creating database tables in a cloud computing cluster of the database table creation instruction and the transit database;

the step of synchronizing the cloud connection identifier and the static routing information of the cloud connection identifier to a preset transfer database comprises the following steps:

updating the cloud connection identifier and the static routing information of the cloud connection identifier to the database table of the cloud connection identifier and the static routing information of the cloud connection identifier;

and synchronizing the data in the database table of the self to a database table of the preset transit database.

7. The data communication method according to claim 6, wherein the database table includes information bits of a cloud connection identifier of a cloud computing cluster, information bits of a cluster address of the cloud computing cluster, information bits of a router ID of the cloud computing cluster, information bits of a transit network routing interface IP of the cloud computing cluster, and information bits of a network segment of a private cloud network in the cloud computing cluster;

the static routing information comprises a cluster address of the cloud computing cluster, a router ID of the cloud computing cluster, a transit network routing interface IP of the cloud computing cluster and a network segment of a private cloud network in the cloud computing cluster.

8. The data communication method of claim 2, wherein the SDN controller is a distributed SDN controller OVN.

9. The data communication method according to claim 2, wherein after the communicating with the cloud computing clusters having the same cloud connection identifier according to the static routing information based on the transit network, the data communication method further comprises:

judging whether the communication with the cloud computing clusters with the same cloud connection identifier is successful or not;

if not, alarming is carried out to the cloud management platform corresponding to the cloud management platform.

10. The data communication method according to claim 2, wherein the cloud computing cluster is an OpenStack cluster.

11. The data communication method according to claim 5, characterized in that the data communication method further comprises:

and deleting the cloud connection identification of the designated private cloud network in response to the deleting instruction so as to cut off the cloud connection of the designated private cloud network.

12. The data communication method according to claim 5, characterized in that the data communication method further comprises:

generating information tables of all private cloud networks subordinate to the private cloud networks and cloud connection identifiers corresponding to the private cloud networks;

and responding to an acquisition instruction of the cloud management platform corresponding to the information table, and sending the information table to the cloud management platform.

13. The data communication method according to claim 5, characterized in that the data communication method further comprises:

counting preset communication indexes of each private cloud network subordinate to the private cloud network through the transit network and private cloud networks in other cloud computing clusters;

and sending the counted preset communication indexes to the cloud management platform corresponding to the communication indexes.

14. The data communication method according to claim 2, wherein the mounting the cloud computing cluster of the data communication system to the designated transit network specifically comprises:

and responding to a control instruction of the cloud management platform corresponding to the cloud computing cluster, and mounting the cloud computing cluster to a designated transit network.

15. The data communication method according to any one of claims 2 to 13, wherein the mounting the cloud computing cluster of the data communication system to the designated transit network specifically comprises:

responding to a transit network construction instruction, and creating a transit network in the transit database;

and synchronizing the transit network to each cloud computing cluster connected with the transit database through the transit database so as to mount each cloud computing cluster to the transit network.

16. A data communication apparatus, for use in a cloud computing cluster, comprising:

The mounting module is used for mounting the cloud computing cluster to a designated transit network;

the updating module is used for updating the cloud connection identifier of the user under the control of the cloud management platform corresponding to the user;

the acquisition module is used for acquiring static route information of the cloud computing cluster which is hung on the transit network and has the same cloud connection identifier as the acquisition module;

the communication module is used for communicating with the cloud computing clusters with the same cloud connection identifier according to the static routing information based on the transit network;

the acquisition module comprises:

the first synchronization module is used for synchronizing the cloud connection identifier and the static routing information of the first synchronization module to a preset transfer database;

the acquisition sub-module is used for acquiring static route information of the cloud computing cluster which is hung on the transit network and has the same cloud connection identifier as the static route information of the cloud computing cluster from the transit database;

the updating module is specifically configured to:

responding to a control instruction of a cloud management platform corresponding to the cloud management platform, and updating cloud connection identifiers of the designated private cloud network in the private cloud networks contained by the cloud management platform.

17. A data communication apparatus, comprising:

A memory for storing a computer program;

processor for implementing the steps of the data communication method according to any of claims 1 to 15 when executing said computer program.

18. A computer-readable storage medium, on which a computer program is stored, which computer program, when being executed by a processor, implements the steps of the data communication method according to any of claims 1 to 15.

19. A server comprising a server body and further comprising the data communication device of claim 17 coupled to the server body.

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