CN116431291B - Deployment method, system, equipment and storage medium of virtualization management platform - Google Patents

Abstract

The application discloses a deployment method, a system, equipment and a storage medium of a virtualization management platform, which are applied to the technical field of virtualization and solve the problem that normal use of the virtualization management platform is affected due to restarting and powering on/off operations of a server, and comprise the following steps: configuring an address of a first baseboard management controller to perform remote management of the first baseboard management controller; carrying out the mounting of the virtualized image in each server, and deploying each server as a computing node; disposing a virtualization management platform in the first baseboard management controller; logging in the virtualization management platform and adding each computing node into the virtualization management platform. By applying the scheme of the application, the virtualization management platform is independent of the servers, is not influenced by restarting and powering on/off of the servers, and the servers are uniformly deployed as the computing nodes, so that the deployment efficiency is high, errors are not easy to occur, remote deployment can be realized, and the operation is convenient.

Description

Deployment method, system, equipment and storage medium of virtualization management platform

Technical Field

The present invention relates to the field of virtualization technologies, and in particular, to a method, a system, an apparatus, and a storage medium for deploying a virtualization management platform.

Background

The virtualization management platform, which may also be referred to as the iCenter, is typically deployed in the form of "management+computation" on the disk of the server. For example, one deployment method is that a virtualized management platform is deployed in a server, and the server also deploys computing nodes, that is, the server has not only the management capability of the virtualized platform, but also the computing capability of the virtualized platform, and may provide functions of computing, storage, network, and the like, which is called a single iicenter deployment method. Another deployment method is to deploy a virtualized management platform in 1 server when multiple servers are included in the system, and the rest of servers are deployed as computing nodes, where the deployment method is a deployment method that is generally adopted at present.

In the running process of the virtualized management platform, if conditions such as abnormal virtualized system and hardware replacement of a server occur, restarting or startup and shutdown operations of the server are required, at this time, because the virtualized management platform is deployed in the server, the restarting or startup and shutdown operations of the server can influence normal use of the virtualized management platform, and even if a mode of switching the virtualized management platform to a standby server is adopted at present, the service of the virtualized management platform is switched due to power supply operation of the server, the restarting of the bottom layer service is perceived, and the conditions such as interruption of user operation and the like can be caused, so that the use experience of a user is not guaranteed.

In summary, how to avoid the situation that the normal use of the virtualization management platform is affected due to the restarting and powering on/off operations of the server, thereby causing the interruption of the user operation is a technical problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to provide a deployment method, a system, equipment and a storage medium of a virtualization management platform, so as to avoid the situation that normal use of the virtualization management platform is affected due to restarting and powering on/off operations of a server, and thus user operation is interrupted.

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

a deployment method of a virtualization management platform, comprising:

configuring an address of a first baseboard management controller to perform remote management of the first baseboard management controller;

carrying out the mounting of the virtualized image in each server, and deploying each server as a computing node;

disposing a virtualization management platform in the first baseboard management controller;

logging in the virtualization management platform and adding each computing node into the virtualization management platform.

In one embodiment, after logging in the virtualization management platform and adding each of the computing nodes to the virtualization management platform, the method further comprises:

And verifying whether the virtualization management platform operates normally.

In one embodiment, after verifying that the virtualization management platform is not operating properly, the method further comprises:

and re-deploying a virtualized management platform in the first baseboard management controller, logging in the virtualized management platform after re-deploying the virtualized management platform, and adding each computing node into the re-deployed virtualized management platform.

In one embodiment, the verifying whether the virtualization management platform is operating properly includes:

verifying whether the function of creating the storage of the virtualization management platform and the function of creating the virtual machine are normal or not;

and if the functions of creating the storage and the virtual machine of the virtualization management platform are normal, determining that the virtualization management platform operates normally, otherwise, determining that the virtualization management platform does not operate normally.

In one embodiment, after verifying that the functions of creating the storage and creating the virtual machine by the virtualization management platform are normal, the method further comprises:

verifying whether the communication delay index, the disk IO index, the network data receiving index and the network data sending index of the virtual machine created by the virtualization management platform are all normal, if so, determining that the virtualization management platform operates normally, otherwise, determining that the virtualization management platform does not operate normally.

In one embodiment, after logging in the virtualization management platform and adding each of the computing nodes to the virtualization management platform, the method further comprises:

receiving a virtual machine creation instruction;

and creating the virtual machine according to the virtual machine creation instruction.

In one embodiment, after logging in the virtualization management platform and adding each of the computing nodes to the virtualization management platform, the method further comprises:

receiving a virtual machine migration instruction;

and performing migration of the virtual machine according to the virtual machine migration instruction.

In one embodiment, after logging in the virtualization management platform and adding each of the computing nodes to the virtualization management platform, the method further comprises:

receiving a storage pool creation instruction;

and creating the storage pool according to the storage pool creation instruction.

In one embodiment, after logging in the virtualization management platform and adding each of the computing nodes to the virtualization management platform, the method further comprises:

receiving a server management instruction;

and managing the corresponding server according to the server management instruction.

In one embodiment, the method further comprises:

Configuring an address of a second baseboard management controller to perform remote management of the second baseboard management controller;

disposing a virtualized management platform in the second baseboard management controller and setting the second baseboard management controller as a standby node of the virtualized management platform;

and carrying out data synchronization of a virtualization management platform between the first baseboard management controller and the second baseboard management controller so as to switch to the second baseboard management controller to run the virtualization management platform when the first baseboard management controller is abnormal.

In one embodiment, the method further comprises:

configuring an address of a third baseboard management controller to perform remote management of the third baseboard management controller;

disposing a virtualized management platform in the third baseboard management controller and setting the third baseboard management controller as a disaster recovery node of the virtualized management platform;

when the first baseboard management controller and the second baseboard management controller are abnormal, logging in the virtualized management platform of the third baseboard management controller, and adding each computing node into the virtualized management platform of the third baseboard management controller.

In one embodiment, the method further comprises:

judging whether the CPU model of the first baseboard management controller is in a preset model library or not, and judging whether the CPU core number of the first baseboard management controller is not lower than a first threshold value or not;

and if the CPU model of the first baseboard management controller is in the model library and the CPU core number of the first baseboard management controller is not lower than a first threshold value, executing the address of the first baseboard management controller to perform the operation of remote management of the first baseboard management controller, otherwise, outputting first prompt information.

In one embodiment, the method further comprises:

judging whether the memory capacity of the first baseboard management controller is not lower than a second threshold value;

if yes, executing the operation of configuring the address of the first baseboard management controller to perform remote management of the first baseboard management controller;

if not, outputting a second prompt message.

In one embodiment, the method further comprises:

judging whether the network card speed of the first baseboard management controller is not lower than a third threshold value;

if yes, executing the operation of configuring the address of the first baseboard management controller to perform remote management of the first baseboard management controller;

If not, outputting a third prompt message.

In one embodiment, deploying a virtualization management platform in the first baseboard management controller includes:

and performing function clipping on the virtualized management platform, and arranging the virtualized management platform after clipping in the first baseboard management controller.

In one embodiment, the performing function clipping on the virtualized management platform includes:

and performing function clipping on the monitoring service of the virtualization management platform.

In one embodiment, the performing function clipping on the virtualized management platform includes:

and performing function clipping on the proxy service of the virtualization management platform.

A deployment system for a virtualization management platform, comprising:

the first baseboard management controller address configuration module is used for configuring the address of the first baseboard management controller to conduct remote management of the first baseboard management controller;

the computing node deployment module is used for carrying out the mounting of the virtualized mirror image in each server and deploying each server as a computing node;

the virtualized management platform deployment module is used for deploying a virtualized management platform in the first baseboard management controller;

And the node joining module is used for logging in the virtualization management platform and joining each computing node into the virtualization management platform.

A deployment apparatus for a virtualization management platform, comprising:

a memory for storing a computer program;

a processor for executing the computer program to implement the steps of the deployment method of the virtualized management platform as described above.

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of the deployment method of a virtualized management platform as described above.

By applying the technical scheme provided by the embodiment of the application, the fact that the resources such as CPU computing power, memory, storage and the like which can be supported by the BMC are continuously improved along with the development of the BMC (Board Management Controller) is considered, so that the normal operation of the virtualized management platform can be carried by the capacity on the basis of ensuring the computing power and resource requirements of the functions of the BMC. In this regard, in the solution of the present application, it is considered that only the computing nodes may be deployed in each server, while the virtualization management platform is deployed in the BMC.

Because the virtualization management platform is deployed in the BMC and is independent of the server, if the operation of restarting and starting up and shutting down the server occurs, the normal use of the virtualization management platform in the BMC is not affected, the condition of interruption of user operation is not caused, and the use experience of a user is ensured.

Specifically, the address of the first baseboard management controller can be configured, so that remote management of the first baseboard management controller can be performed, deployment of the virtualized management platform can be performed remotely, and portability of implementation of the scheme of the application is ensured. And carrying out the mounting of the virtualized images in each server, so that each server can be deployed as a computing node. In addition, it should be noted that, in the scheme of the present application, each server is uniformly deployed as a computing node, and compared with the scheme of deploying the server as a computing+management node or as a management node, the scheme of the present application has higher deployment efficiency, and the uniform deployment mode is also not easy to make mistakes. And then, a virtualized management platform is arranged in the first baseboard management controller, and after logging in the virtualized management platform, each computing node is added into the virtualized management platform, so that the whole deployment process is completed.

In summary, the scheme of the application has the beneficial effects that: the virtualized management platform is arranged in the first baseboard management controller, so that the virtualized management platform is independent of the server, if the operation of restarting and starting up and shutting down the server occurs, the normal use of the virtualized management platform in the first baseboard management controller is not affected, the condition of interruption of user operation is avoided, and the use experience of a user is ensured. The servers are uniformly deployed as the computing nodes, the deployment efficiency is high, errors are not easy to occur, and the scheme of the application can realize remote management, namely remote deployment, so that the operation of staff is convenient.

Drawings

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

FIG. 1 is a flowchart of a deployment method of a virtualization management platform according to the present application;

FIG. 2 is a schematic diagram of a virtualized management platform deployed in a first baseboard management controller according to the present application;

FIG. 3 is a schematic representation of a variation of the deployment scenario;

FIG. 4 is a schematic diagram of a deployment system of a virtualization management platform according to the present application;

FIG. 5 is a schematic structural diagram of a deployment device of a virtualization management platform according to the present application;

fig. 6 is a schematic structural diagram of a computer readable storage medium according to the present application.

Detailed Description

The core of the application is to provide a deployment method, a system, equipment and a storage medium for a virtualized management platform, which are used for deploying the virtualized management platform in a first baseboard management controller, so that the virtualized management platform is independent of a server, if the operation of restarting and starting up and shutting down the server occurs, the normal use of the virtualized management platform in the first baseboard management controller is not influenced, the condition of interruption of user operation is not caused, and the use experience of a user is ensured. The servers are uniformly deployed as the computing nodes, the deployment efficiency is high, errors are not easy to occur, and the scheme of the application can realize remote management, namely remote deployment, so that the operation of staff is convenient.

In order to better understand the aspects of the present application, the present application will be described in further detail with reference to the accompanying drawings and detailed description. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1, fig. 1 is a flowchart of an implementation of a method for deploying a virtualization management platform according to the present application, where the method for deploying a virtualization management platform may include the following steps:

step S101: the address of the first baseboard management controller is configured to perform remote management of the first baseboard management controller.

According to the application, with the development of the BMC (Board Management Controller, the baseboard management controller), the CPU computing power, memory, storage and other resources which can be supported by the BMC are continuously improved, so that the normal operation of the virtualized management platform can be carried by the capacity of the BMC on the basis of ensuring the computing power and resource requirements of the functions of the BMC. In this regard, in the solution of the present application, only the computing nodes are deployed in each server, while the virtualized management platform is deployed in the BMC.

A virtualized system typically includes a plurality of servers, each configured with 1 BMC for implementing monitoring management of the servers. The first baseboard management controller described in the present application may be any 1 BMC of the respective BMCs. Of course, if there are only 1 server and 1 BMC in the virtualized system, the server may be used as a computing node, and the BMC may be used as the first baseboard management controller of the present application, which does not affect the implementation of the present application.

Referring to fig. 2, a schematic diagram of the virtualized management platform deployed in the first baseboard management controller according to the present application is shown. The basic components of the server may include a CPU (Central Processing Unit ), a memory, a storage, a special network card, and a peripheral IO device, and the first baseboard management controller may include a control chip, for example, an AST2700 chip, a memory, a nonvolatile memory, a special network card, and the like. The first baseboard management controller is a standard architecture of an embedded system, and from the overall main board layout of the server, the first baseboard management controller occupies about 5% of the main board area, and can be connected with the CPU of the server through the PCH (Platform Controller Hub, integrated south bridge) so as to communicate with the CPU of the server.

In fig. 2, a conventional scheme is shown in which a virtualized management platform is deployed in a server, and in the scheme of the present application, the virtualized management platform is sunk into a BMC for deployment.

In order to facilitate management of the BMC, in the solution of the present application, an address of the first baseboard management controller, that is, an IP (Internet Protocol ) address of the first baseboard management controller may be configured, so that remote management of the first baseboard management controller may be performed.

When the address of the first baseboard management controller is configured, the configuration can be performed on site or on line by a staff, and the configuration can also be performed automatically by a corresponding program, so that the implementation of the application is not affected. For example, in one occasion, after a worker unpacks and puts on a rack a server on site, the power supply of the server is connected, and then the server is started up, so that the IP address of the first baseboard management controller of the server can be configured, and the remote management of the first baseboard management controller can be performed subsequently.

Step S102: and carrying out the mounting of the virtualized images in each server, and deploying each server as a computing node.

As described above, the first baseboard management controller may be any 1 BMC of each BMC, that is, in the solution of the present application, 1 BMC of a server may be optionally selected to perform deployment of the virtualized management platform, and for each server, each server is deployed as a computing node in the virtualized system.

When the computing node is deployed, a virtualized image needs to be mounted in a server, then the virtualized computing node can be deployed based on the virtualized image, and when the server is deployed as the computing node, configuration of parameters such as network information and the like needs to be performed.

In addition, in practical application, the deployment of each server can be realized in a remote control center.

Step S103: a virtualized management platform is deployed in the first baseboard management controller.

The related data required for deploying the virtualized management platform can be transmitted to the first baseboard management controller in the remote control center, so that the virtualized management platform is deployed in the first baseboard management controller, and configuration of related information is required during deployment, so that the virtualized management platform can operate in the first baseboard management controller.

Step S104: logging in the virtualized management platform and adding each computing node into the virtualized management platform.

After the virtualized management platform is deployed in the first baseboard management controller, the virtualized management platform can be logged in, and since the servers are deployed as the computing nodes before, the management operation of the computing nodes can be performed at this time, that is, the computing nodes can be added into the virtualized management platform.

In practical application, in order to facilitate the operation of the staff, when logging in the virtualized management platform, the staff can choose to log in the virtualized management platform through the Web terminal, so that the method is very convenient and quick.

In a specific embodiment of the present application, after logging in the virtualization management platform and adding each computing node to the virtualization management platform, the method may further include:

and verifying whether the virtualization management platform operates normally.

In this embodiment, considering that the deployment process of the virtualized management platform of the application is completed after the execution of step S104 is completed, in practical application, due to various unexpected situations, the situation that the deployment of the virtualized management platform is abnormal may occur, for this embodiment, whether the virtualized management platform with the completed deployment is normally operated may be verified, so that the stability of the solution of the application is improved, and even if a problem is found when the deployment is abnormal.

There may be various embodiments for verifying whether the virtualized management platform operates normally, for example, in one embodiment of the present application, verifying whether the virtualized management platform operates normally may specifically include:

verifying whether the function of creating the storage of the virtualization management platform and the function of creating the virtual machine are normal or not;

if the functions of creating the storage and the functions of creating the virtual machine of the virtualization management platform are normal, the normal operation of the virtualization management platform is determined, otherwise, the abnormal operation of the virtualization management platform is determined.

The embodiment considers that the specific embodiment for verifying whether the virtualized management platform operates normally can be various, and whether the virtualized management platform operates normally can be effectively described by verifying whether the function of creating the storage and the function of creating the virtual machine of the virtualized management platform are normal. Therefore, in this embodiment, the function of creating the storage and the function of creating the virtual machine by the virtualization management platform are verified, and if both the functions are normal, it can be determined that the virtualization management platform is operating normally. Otherwise, if any one of the two functions is abnormal, it can be determined that the virtualization management platform does not operate normally.

Further, in a specific embodiment of the present invention, after verifying that the function of creating the storage and the function of creating the virtual machine by the virtualization management platform are both normal, the method may further include:

verifying whether the communication delay index, the disk IO index, the network data receiving index and the network data sending index of the virtual machine created by the virtualization management platform are all normal, if so, determining that the virtualization management platform operates normally, otherwise, determining that the virtualization management platform does not operate normally.

Such an embodiment allows for verifying that the virtualized management platform creates a function of the storage and a function of creating the virtual machine are normal in a normal case, and can effectively specify whether the virtualized management platform is operating normally. However, in some occasions, the virtualized management platform may be capable of realizing the management function, but some parameter indexes may not meet the requirements, for example, the situations of low disk IO, long communication delay and the like may occur.

In this embodiment, the communication delay index, the disk IO index, the network data receiving index and the network data sending index of the virtual machine created by the virtualization management platform are further verified, and only if the indexes are normal, the normal operation of the virtualization management platform is determined, otherwise, if any one of the indexes is abnormal, the abnormal operation of the virtualization management platform is determined.

In the embodiment, the stability of the deployed virtualization management platform is further guaranteed, and the abnormal situation can be found more carefully.

In one embodiment of the present invention, after verifying that the virtualized management platform does not operate normally, the method further includes:

And after the virtual management platform is redeployed, logging in the virtual management platform and adding each computing node into the redeployed virtual management platform.

After verifying that the virtualized management platform does not normally operate, in this embodiment, the virtualized management platform may be automatically redeployed, that is, the operations in step S103 and step S104 may be redeployed at this time, so that the virtualized management platform is redeployed in the first baseboard management controller, and after redeploying the virtualized management platform, the redeployed virtualized management platform is logged in, so that each computing node is added to the redeployed virtualized management platform.

The virtualized management platform can be automatically redeployed without manual operation, so that the implementation efficiency of the scheme in practical application is further improved.

In a specific embodiment of the present application, after logging in the virtualization management platform and adding each computing node to the virtualization management platform, the method may further include:

receiving a virtual machine creation instruction;

and creating the virtual machine according to the virtual machine creation instruction.

Such an embodiment allows for the creation of virtual machines based on the virtualization management platform in subsequent application processes after successful deployment of the virtualization management platform to the first baseboard management controller. Therefore, in this embodiment, the virtual machine creation instruction may be sent to the virtualization management platform, and after the virtualization management platform receives the virtual machine creation instruction, the virtual machine required by the user may be created according to the requirement of the virtual machine creation instruction.

Further, in a specific embodiment of the present invention, after logging in the virtualization management platform and adding each computing node to the virtualization management platform, the method may further include:

receiving a virtual machine migration instruction;

and performing migration of the virtual machine according to the virtual machine migration instruction.

Such an embodiment allows for migration of virtual machines to be an important function of the virtualization management platform in addition to creation of virtual machines based on the virtualization management platform during application of the virtualization management platform. Therefore, in this embodiment, the virtual machine migration instruction may be sent to the virtualization management platform, and after the virtualization management platform receives the virtual machine migration instruction, the virtual machine may be migrated according to the requirement of the virtual machine migration instruction, for example, the virtual machine is migrated from the computing node a to the computing node B.

In one embodiment of the present invention, after logging in the virtualization management platform and adding each computing node to the virtualization management platform, the method further includes:

receiving a storage pool creation instruction;

and creating the storage pool according to the storage pool creation instruction.

Such an embodiment allows for the creation of a storage pool to be an important function of the virtualization management platform in addition to the creation and migration of virtual machines based on the virtualization management platform during the application of the virtualization management platform. Therefore, in this embodiment, the storage pool creation instruction may be sent to the virtualization management platform, and after the virtualization management platform receives the storage pool creation instruction, the creation of the storage pool may be performed according to the requirement of the storage pool creation instruction.

In a specific embodiment of the present invention, after logging in the virtualization management platform and adding each computing node to the virtualization management platform, the method may further include:

receiving a server management instruction;

and managing the corresponding server according to the server management instruction.

In the foregoing embodiment, the virtual machine may be managed based on the virtualization management platform, and in this embodiment, considering that the management of the physical server may also be directly performed based on the virtualization management platform, that is, the server management instruction is sent to the virtualization management platform, after the virtualization management platform receives the server management instruction, the corresponding server may be managed according to the requirement of the server management instruction, for example, the shutdown operation may be performed on the corresponding server according to the requirement of the server management instruction, and, for example, the installation of the operating system may be performed on the corresponding server according to the requirement of the server management instruction, the installation of the software may be performed.

In one embodiment of the present invention, the method may further include:

configuring an address of the second baseboard management controller to perform remote management of the second baseboard management controller;

disposing a virtualized management platform in the second baseboard management controller and setting the second baseboard management controller as a standby node of the virtualized management platform;

and data synchronization of the virtualization management platform is performed between the first baseboard management controller and the second baseboard management controller, so that when the first baseboard management controller is abnormal, the virtualization management platform is operated by switching to the second baseboard management controller.

In the foregoing embodiment, the virtualized management platform is disposed in the first baseboard management controller, but it is further contemplated that the virtualized management platform may be disposed in the second baseboard management controller, and the second baseboard management controller may be used as a standby node of the virtualized management platform, so that when the first baseboard management controller is abnormal, the second baseboard management controller may be smoothly switched to operate the virtualized management platform.

It may be appreciated that, since the virtualized management platform needs to be deployed in the second baseboard management controller, the address of the second baseboard management controller needs to be configured in advance, so as to perform remote management of the second baseboard management controller, and thus the virtualized management platform may be deployed in the second baseboard management controller, and the second baseboard management controller may be set as a standby node of the virtualized management platform.

In addition, since the second baseboard management controller is used as a standby node of the virtualized management platform, it is necessary to smoothly switch to the second baseboard management controller to operate the virtualized management platform when the first baseboard management controller is abnormal, and thus, it is necessary to perform data synchronization of the virtualized management platform between the first baseboard management controller and the second baseboard management controller, for example, an embodiment of real-time synchronization or synchronization according to a predetermined period may be adopted.

In one embodiment of the present application, the method may further include:

configuring an address of the third baseboard management controller to perform remote management of the third baseboard management controller;

disposing a virtualized management platform in the third baseboard management controller and setting the third baseboard management controller as a disaster recovery node of the virtualized management platform;

when the first baseboard management controller and the second baseboard management controller are abnormal, logging in a virtualization management platform of the third baseboard management controller, and adding each computing node into the virtualization management platform of the third baseboard management controller.

In the foregoing embodiment, the first baseboard management controller and the second baseboard management controller form a main and standby redundant structure, so that the implementation reliability of the scheme of the present application is greatly ensured, and when the first baseboard management controller is abnormal, the first baseboard management controller can be smoothly switched to the second baseboard management controller to operate the virtualized management platform.

This embodiment further considers that in a few cases, the first baseboard management controller and the second baseboard management controller may be abnormal at the same time, and thus, other BMCs are needed to run the virtualized management platform. If the situation that the first baseboard management controller and the second baseboard management controller are abnormal at the same time is waited, the deployment of the virtualization management platform is carried out in other BMCs again, so that the service of the virtualization management platform can be recovered only after a long time, and the use experience of a user is not guaranteed.

In this embodiment, the address of the third baseboard management controller is configured, so that remote management of the third baseboard management controller can be performed, then the third baseboard management controller is deployed with a virtualized management platform, and the third baseboard management controller is set as a disaster recovery node of the virtualized management platform. If the first baseboard management controller and the second baseboard management controller are abnormal, each computing node can be added into the virtualized management platform of the third baseboard management controller only by logging in the virtualized management platform of the third baseboard management controller, namely the function of the virtualized management platform can be realized based on the virtualized management platform of the third baseboard management controller.

In addition, the third baseboard management controller is used as a disaster recovery node, unlike the second baseboard management controller as a backup node. The second baseboard management controller serving as the standby node needs to synchronize data with the first baseboard management controller so as to realize smooth switching of the virtualized management platform, and the third baseboard management controller serving as the disaster recovery node does not need to synchronize data with the first baseboard management controller, so that the data quantity required to be transmitted in the system is reduced, after all, the probability of simultaneous abnormality of the first baseboard management controller and the second baseboard management controller is lower, even if the situation occurs, as the virtualized management platform is deployed in the third baseboard management controller in advance, only the virtualized management platform of the third baseboard management controller needs to be logged in, and all calculation nodes are added, and the service interruption time of the virtualized management platform is shorter.

Furthermore, in practical application, except for the third baseboard management controller as the disaster recovery node, all the other BMCs can be used as the disaster recovery nodes. In practical application, each server and each BMC can be deployed completely when leaving the factory, namely each server is deployed as a computing node, and each BMC is deployed with a virtualization management platform, so that in the subsequent use process, only an IP address is required to be configured for use, and the out-of-box virtualization is realized.

It should be further noted that, referring to fig. 3, a schematic diagram of a change of a deployment manner may be shown, in a conventional scheme, referring to the left side of fig. 3, there may be 3 deployment manners in one server, where the first is that the server is used as a management node, where a virtualized management platform is deployed in the server, and the second is that the server is used as a computing node, where the server is not deployed with a virtualized management platform and is only used as the computing node. The second is that the server is used as a management+computing node, and a virtualized management platform is deployed in the server, and the server is also used as a computing node.

In the scheme of the application, the deployment modes of all servers are uniform, namely all servers are deployed as computing nodes. For each BMC, in practical application, a virtualized management platform may be deployed, so that the deployment of each BMC is uniform, that is, each BMC is used as a management node, and of course, as described above, in practical application, 2 BMCs may be selected to form a master/slave node, and the rest of BMCs are used as disaster recovery nodes.

In one embodiment of the present application, the method may further include:

Judging whether the CPU model of the first baseboard management controller is in a preset model library or not, and judging whether the CPU core number of the first baseboard management controller is not lower than a first threshold value or not;

and if the CPU model of the first baseboard management controller is in the model library and the CPU core number of the first baseboard management controller is not lower than a first threshold value, executing an operation of configuring the address of the first baseboard management controller to conduct remote management of the first baseboard management controller, otherwise, outputting first prompt information.

As described above, with the development of BMC, resources such as CPU computing power, memory, storage and the like that can be supported by BMC are continuously improved, so that on the basis of ensuring computing power and resource requirements of the functions of BMC, the normal operation of the virtualized management platform is carried with capability.

However, in this embodiment, in a few cases, the configuration of the BMC may not be sufficient to carry out normal operation of the virtualized management platform, so in order to ensure stable implementation of the solution of the present application, the performance of the BMC may be first determined. Specifically, it may be first determined whether the CPU model of the first baseboard management controller is in a preset model library, and whether the number of CPU cores of the first baseboard management controller is not lower than a first threshold.

The CPU of the BMC, namely the control chip of the BMC, can indicate that the CPU performance of the first baseboard management controller is qualified if the CPU model of the first baseboard management controller is in the model library and the CPU core number of the first baseboard management controller is not lower than a first threshold value. The CPU performance is the main performance of the first baseboard management controller, so that the first baseboard management controller can be normally described as well as the ability to carry out the normal operation of the virtualized management platform, and therefore, the first baseboard management controller can be determined to be qualified, and the operation of step S101 is allowed to be executed.

Otherwise, if the CPU model of the first baseboard management controller is not in the model library, or the CPU core number of the first baseboard management controller is lower than the first threshold value, the CPU performance is required to be confirmed, and therefore the first prompt information can be output for processing by staff. For example, after the staff receives the first prompt message, the staff performs a manual verification on the CPU performance of the first baseboard management controller, for example, after the staff verifies that the CPU performance of the currently designated first baseboard management controller is lower, so that 1 other high-performance BMCs are newly designated as the first baseboard management controller of the present application.

In one embodiment of the present application, the method may further include:

judging whether the memory capacity of the first baseboard management controller is not lower than a second threshold value;

if yes, executing an operation of configuring the address of the first baseboard management controller to perform remote management of the first baseboard management controller;

if not, outputting a second prompt message.

The CPU performance is the main performance of the first baseboard management controller, and in most cases, when the CPU performance is qualified, the first baseboard management controller can be usually described as having the capacity to bear the normal operation of the virtualized management platform.

If it is determined that the memory capacity of the first baseboard management controller is not lower than the second threshold, for example, the second threshold is set to 4G in one occasion, it is indicated that the memory capacity of the first baseboard management controller meets the requirement, so that the operation of step S101 may be performed, otherwise, the second prompt message may be output for the staff to process. For example, in one scenario, after the worker receives the second prompt information, it is confirmed that the memory capacity of the first baseboard management controller currently specified can carry out the normal operation of the virtualized management platform, so that the operation of step S101 is allowed to be performed.

In one embodiment of the present application, the method further comprises:

judging whether the network card speed of the first baseboard management controller is not lower than a third threshold value;

if yes, executing an operation of configuring the address of the first baseboard management controller to perform remote management of the first baseboard management controller;

if not, outputting a third prompt message.

In addition to CPU performance and memory capacity, the network card speed of the first baseboard management controller is also a more important parameter, and of course, in most of the current occasions, the network card can support kilomega, so that the network card speed is generally not lower than the third threshold value. In this embodiment, in order to further ensure the reliability of the scheme of the present application, the network card rate is further determined.

If the network card speed of the first baseboard management controller is not lower than the third threshold, it is indicated that the network card speed of the first baseboard management controller meets the requirement, so that the operation of step S101 can be executed, otherwise, third prompt information can be output for the staff to process.

In a specific embodiment of the present application, step S103 may specifically include:

and performing function clipping on the virtualized management platform, and arranging the virtualized management platform after clipping in the first baseboard management controller.

As described above, with the development of BMC, resources such as CPU computing power, memory, storage and the like that can be supported by BMC are continuously improved, so that on the basis of ensuring computing power and resource requirements of the functions of BMC, the normal operation of the virtualized management platform is carried with capability.

However, in some occasions, the resources of the BMC may not be too much, and in some occasions, the functions of the virtualized management platform may be more, so that more BMC resources need to be occupied.

Thus, in this embodiment, the function clipping may be performed on the virtualized management platform, and the virtualized management platform after clipping may be deployed in the first baseboard management controller.

It can be appreciated that when the virtualized management platform is functionally tailored, the specific tailored portion may be determined by a worker, but less common functions should be tailored, or less important and more resource-consuming functions should be tailored.

For example, in a specific embodiment of the present invention, performing function clipping on the virtualized management platform may specifically include:

and performing function clipping on the monitoring service of the virtualization management platform.

In the embodiment, the monitoring service of the virtualization management platform can be subjected to function clipping, so that the resource requirement of the virtualization management platform on the BMC is effectively reduced.

In a specific embodiment of the present invention, performing function clipping on the virtualized management platform may specifically include:

and performing function clipping on the proxy service of the virtualization management platform.

According to the embodiment, the fact that the proxy service of the virtualization management platform occupies more resources and is low in importance and the use frequency in practical application is low is considered, so that the function cutting can be performed on the proxy service of the virtualization management platform, and the resource requirement of deploying the virtualization management platform on the BMC is effectively reduced.

By applying the technical scheme provided by the embodiment of the application, the fact that the resources such as CPU computing power, memory, storage and the like which can be supported by the BMC are continuously improved along with the development of the BMC is considered, so that the normal operation of the capacity bearing virtualization management platform is realized on the basis of ensuring the computing power and resource requirements of the functions of the BMC. In this regard, in the solution of the present application, it is considered that only the computing nodes may be deployed in each server, while the virtualization management platform is deployed in the BMC.

Because the virtualization management platform is deployed in the BMC and is independent of the server, if the operation of restarting and starting up and shutting down the server occurs, the normal use of the virtualization management platform in the BMC is not affected, the condition of interruption of user operation is not caused, and the use experience of a user is ensured.

Specifically, the address of the first baseboard management controller can be configured, so that remote management of the first baseboard management controller can be performed, deployment of the virtualized management platform can be performed remotely, and portability of implementation of the scheme of the application is ensured. And carrying out the mounting of the virtualized images in each server, so that each server can be deployed as a computing node. In addition, it should be noted that, in the scheme of the present application, each server is uniformly deployed as a computing node, and compared with the scheme of deploying the server as a computing+management node or as a management node, the scheme of the present application has higher deployment efficiency, and the uniform deployment mode is also not easy to make mistakes. And then, a virtualized management platform is arranged in the first baseboard management controller, and after logging in the virtualized management platform, each computing node is added into the virtualized management platform, so that the whole deployment process is completed.

In summary, the scheme of the application has the beneficial effects that: the virtualized management platform is arranged in the first baseboard management controller, so that the virtualized management platform is independent of the server, if the operation of restarting and starting up and shutting down the server occurs, the normal use of the virtualized management platform in the first baseboard management controller is not affected, the condition of interruption of user operation is avoided, and the use experience of a user is ensured. The servers are uniformly deployed as the computing nodes, the deployment efficiency is high, errors are not easy to occur, and the scheme of the application can realize remote management, namely remote deployment, so that the operation of staff is convenient.

Corresponding to the above method embodiment, the embodiment of the present application further provides a deployment system of the virtualization management platform, which can be referred to above in a mutually corresponding manner.

Referring to fig. 4, a schematic structural diagram of a deployment system of a virtualization management platform according to the present application includes:

a first baseboard management controller address configuration module 401, configured to configure an address of a first baseboard management controller to perform remote management of the first baseboard management controller;

the computing node deployment module 402 is configured to mount the virtualized image in each server, and deploy each server as a computing node;

A virtualization management platform deployment module 403 for deploying a virtualization management platform in the first baseboard management controller;

the node joining module 404 is configured to log in to the virtualization management platform and join each computing node to the virtualization management platform.

In a specific embodiment of the present invention, the method further includes a verification module for:

after the node joining module 404 logs in to the virtualization management platform and joins each computing node to the virtualization management platform, it is verified whether the virtualization management platform is operating properly.

In a specific embodiment of the present invention, the verification module is further configured to:

after verifying that the virtualized management platform does not normally operate, redeploying the virtualized management platform in the first baseboard management controller, logging in the virtualized management platform after redeploying the virtualized management platform, and adding each computing node into the redeployed virtualized management platform.

In a specific embodiment of the present invention, the verification module verifies whether the virtualization management platform is operating normally, including:

verifying whether the function of creating the storage of the virtualization management platform and the function of creating the virtual machine are normal or not;

If the functions of creating the storage and the functions of creating the virtual machine of the virtualization management platform are normal, the normal operation of the virtualization management platform is determined, otherwise, the abnormal operation of the virtualization management platform is determined.

In a specific embodiment of the present invention, the verification module is further configured to:

after verifying that the function of creating the storage of the virtualized management platform and the function of creating the virtual machine are normal, verifying whether the communication delay index, the disk IO index, the network data receiving index and the network data sending index of the virtual machine created by the virtualized management platform are normal or not, if so, determining that the virtualized management platform operates normally, otherwise, determining that the virtualized management platform does not operate normally.

In a specific embodiment of the present invention, the method further includes a virtual machine creation module, configured to:

after the node joining module 404 logs in the virtualized management platform and joins each computing node to the virtualized management platform, receiving a virtual machine creation instruction;

and creating the virtual machine according to the virtual machine creation instruction.

In a specific embodiment of the present invention, the virtual machine migration module is further configured to:

after the node joining module 404 logs in the virtualization management platform and joins each computing node to the virtualization management platform, receiving a virtual machine migration instruction;

And performing migration of the virtual machine according to the virtual machine migration instruction.

In a specific embodiment of the present invention, the storage pool creating module is further included, and is configured to:

after the node joining module 404 logs in the virtualized management platform and joins each computing node to the virtualized management platform, receiving a storage pool creation instruction;

and creating the storage pool according to the storage pool creation instruction.

In a specific embodiment of the present invention, the server management module is further configured to:

after the node joining module 404 logs in the virtualized management platform and joins each computing node to the virtualized management platform, receiving a server management instruction;

and managing the corresponding server according to the server management instruction.

In a specific embodiment of the present invention, the method further includes a second baseboard management controller deployment module for:

configuring an address of the second baseboard management controller to perform remote management of the second baseboard management controller;

disposing a virtualized management platform in the second baseboard management controller and setting the second baseboard management controller as a standby node of the virtualized management platform;

and data synchronization of the virtualization management platform is performed between the first baseboard management controller and the second baseboard management controller, so that when the first baseboard management controller is abnormal, the virtualization management platform is operated by switching to the second baseboard management controller.

In a specific embodiment of the present invention, the method further includes a third baseboard management controller deployment module for:

configuring an address of the third baseboard management controller to perform remote management of the third baseboard management controller;

disposing a virtualized management platform in the third baseboard management controller and setting the third baseboard management controller as a disaster recovery node of the virtualized management platform;

when the first baseboard management controller and the second baseboard management controller are abnormal, logging in a virtualization management platform of the third baseboard management controller, and adding each computing node into the virtualization management platform of the third baseboard management controller.

In a specific embodiment of the present invention, the method further includes a pre-judging module, configured to:

judging whether the CPU model of the first baseboard management controller is in a preset model library or not, and judging whether the CPU core number of the first baseboard management controller is not lower than a first threshold value or not;

and if the CPU model of the first baseboard management controller is in the model library and the CPU core number of the first baseboard management controller is not lower than a first threshold value, executing an operation of configuring the address of the first baseboard management controller to conduct remote management of the first baseboard management controller, otherwise, outputting first prompt information.

In a specific embodiment of the present invention, the pre-judging module is further configured to:

judging whether the memory capacity of the first baseboard management controller is not lower than a second threshold value;

if yes, executing an operation of configuring the address of the first baseboard management controller to perform remote management of the first baseboard management controller;

if not, outputting a second prompt message.

In a specific embodiment of the present invention, the pre-judging module is further configured to:

judging whether the network card speed of the first baseboard management controller is not lower than a third threshold value;

if yes, executing an operation of configuring the address of the first baseboard management controller to perform remote management of the first baseboard management controller;

if not, outputting a third prompt message.

In one embodiment of the present invention, virtualization management platform deployment module 403 is specifically configured to:

and performing function clipping on the virtualized management platform, and arranging the virtualized management platform after clipping in the first baseboard management controller.

In a specific embodiment of the present invention, the virtualized management platform deployment module 403 performs function clipping on the virtualized management platform, including:

and performing function clipping on the monitoring service of the virtualization management platform.

In a specific embodiment of the present invention, the virtualized management platform deployment module 403 performs function clipping on the virtualized management platform, including:

and performing function clipping on the proxy service of the virtualization management platform.

Corresponding to the above method and system embodiments, the embodiments of the present invention further provide a deployment device of the virtualization management platform and a computer readable storage medium, which can be referred to above in correspondence with each other.

Referring to fig. 5, a schematic structural diagram of a deployment device of a virtualization management platform includes:

a memory 501 for storing a computer program;

a processor 502 for executing a computer program to implement the steps of the deployment method of the virtualization management platform in any one of the embodiments described above.

Referring to fig. 6, the computer readable storage medium 60 stores a computer program 61, and the computer program 61 implements the steps of the deployment method of the virtualization management platform according to any one of the embodiments described above when executed by a processor. The computer readable storage medium 60 as described herein includes Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

It is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, 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.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative elements and steps are described above generally in terms of functionality in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The principles and embodiments of the present invention have been described herein with reference to specific examples, but the description of the examples above is only for aiding in understanding the technical solution of the present invention and its core ideas. It should be noted that it will be apparent to those skilled in the art that the present invention may be modified and practiced without departing from the spirit of the present invention.

Claims (20)

1. A method for deploying a virtualization management platform, comprising:

configuring an address of a first baseboard management controller to perform remote management of the first baseboard management controller;

carrying out the mounting of the virtualized image in each server, and deploying each server as a computing node;

disposing a virtualization management platform in the first baseboard management controller;

logging in the virtualization management platform and adding each computing node into the virtualization management platform.

2. The deployment method of a virtualization management platform as recited in claim 1, further comprising, after logging in the virtualization management platform and adding each of the computing nodes to the virtualization management platform:

And verifying whether the virtualization management platform operates normally.

3. The deployment method of the virtualization management platform of claim 2, further comprising, after verifying that the virtualization management platform is not functioning properly:

and re-deploying a virtualized management platform in the first baseboard management controller, logging in the virtualized management platform after re-deploying the virtualized management platform, and adding each computing node into the re-deployed virtualized management platform.

4. The deployment method of the virtualization management platform according to claim 2, wherein the verifying whether the virtualization management platform is operating properly comprises:

verifying whether the function of creating the storage of the virtualization management platform and the function of creating the virtual machine are normal or not;

and if the functions of creating the storage and the virtual machine of the virtualization management platform are normal, determining that the virtualization management platform operates normally, otherwise, determining that the virtualization management platform does not operate normally.

5. The deployment method of the virtualization management platform of claim 4, further comprising, after verifying that the virtualization management platform creates the stored function and the virtual machine function are both normal:

Verifying whether the communication delay index, the disk IO index, the network data receiving index and the network data sending index of the virtual machine created by the virtualization management platform are all normal, if so, determining that the virtualization management platform operates normally, otherwise, determining that the virtualization management platform does not operate normally.

6. The deployment method of a virtualization management platform as recited in claim 1, further comprising, after logging in the virtualization management platform and adding each of the computing nodes to the virtualization management platform:

receiving a virtual machine creation instruction;

and creating the virtual machine according to the virtual machine creation instruction.

7. The method of deploying a virtualization management platform of claim 6, further comprising, after logging into the virtualization management platform and adding each of the computing nodes to the virtualization management platform:

receiving a virtual machine migration instruction;

and performing migration of the virtual machine according to the virtual machine migration instruction.

8. The deployment method of a virtualization management platform as recited in claim 1, further comprising, after logging in the virtualization management platform and adding each of the computing nodes to the virtualization management platform:

Receiving a storage pool creation instruction;

and creating the storage pool according to the storage pool creation instruction.

9. The deployment method of a virtualization management platform as recited in claim 1, further comprising, after logging in the virtualization management platform and adding each of the computing nodes to the virtualization management platform:

receiving a server management instruction;

and managing the corresponding server according to the server management instruction.

10. The deployment method of the virtualization management platform of claim 1, further comprising:

configuring an address of a second baseboard management controller to perform remote management of the second baseboard management controller;

disposing a virtualized management platform in the second baseboard management controller and setting the second baseboard management controller as a standby node of the virtualized management platform;

and carrying out data synchronization of a virtualization management platform between the first baseboard management controller and the second baseboard management controller so as to switch to the second baseboard management controller to run the virtualization management platform when the first baseboard management controller is abnormal.

11. The deployment method of the virtualization management platform of claim 10, further comprising:

Configuring an address of a third baseboard management controller to perform remote management of the third baseboard management controller;

disposing a virtualized management platform in the third baseboard management controller and setting the third baseboard management controller as a disaster recovery node of the virtualized management platform;

when the first baseboard management controller and the second baseboard management controller are abnormal, logging in the virtualized management platform of the third baseboard management controller, and adding each computing node into the virtualized management platform of the third baseboard management controller.

12. The deployment method of the virtualization management platform of claim 1, further comprising:

judging whether the CPU model of the first baseboard management controller is in a preset model library or not, and judging whether the CPU core number of the first baseboard management controller is not lower than a first threshold value or not;

and if the CPU model of the first baseboard management controller is in the model library and the CPU core number of the first baseboard management controller is not lower than a first threshold value, executing the address of the first baseboard management controller to perform the operation of remote management of the first baseboard management controller, otherwise, outputting first prompt information.

13. The deployment method of the virtualization management platform of claim 1, further comprising:

judging whether the memory capacity of the first baseboard management controller is not lower than a second threshold value;

if yes, executing the operation of configuring the address of the first baseboard management controller to perform remote management of the first baseboard management controller;

if not, outputting a second prompt message.

14. The deployment method of the virtualization management platform of claim 1, further comprising:

judging whether the network card speed of the first baseboard management controller is not lower than a third threshold value;

if yes, executing the operation of configuring the address of the first baseboard management controller to perform remote management of the first baseboard management controller;

if not, outputting a third prompt message.

15. The deployment method of the virtualization management platform of any one of claims 1 to 14, wherein deploying the virtualization management platform in the first baseboard management controller comprises:

and performing function clipping on the virtualized management platform, and arranging the virtualized management platform after clipping in the first baseboard management controller.

16. The method for deploying a virtualization management platform according to claim 15, wherein the performing function clipping on the virtualization management platform comprises:

and performing function clipping on the monitoring service of the virtualization management platform.

17. The method for deploying a virtualization management platform according to claim 15, wherein the performing function clipping on the virtualization management platform comprises:

and performing function clipping on the proxy service of the virtualization management platform.

18. A deployment system for a virtualization management platform, comprising:

the first baseboard management controller address configuration module is used for configuring the address of the first baseboard management controller to conduct remote management of the first baseboard management controller;

the computing node deployment module is used for carrying out the mounting of the virtualized mirror image in each server and deploying each server as a computing node;

the virtualized management platform deployment module is used for deploying a virtualized management platform in the first baseboard management controller;

and the node joining module is used for logging in the virtualization management platform and joining each computing node into the virtualization management platform.

19. A deployment device for a virtualization management platform, comprising:

a memory for storing a computer program;

a processor for executing the computer program to implement the steps of the deployment method of the virtualization management platform of any one of claims 1 to 17.

20. A computer readable storage medium, characterized in that it has stored thereon a computer program which, when executed by a processor, implements the steps of the deployment method of a virtualization management platform according to any one of claims 1 to 17.