CN115499322B - Management system and method of mimicry equipment cluster and electronic equipment - Google Patents

Abstract

The invention provides a management system and method of a mimicry device cluster and electronic equipment, relates to the technical field of mimicry device management, and solves the problem of how to uniformly manage the mimicry device cluster. The management system comprises an integrated management subsystem and a mimicry equipment management subsystem; the integrated management subsystem is used for receiving an input operation instruction; the operation instruction comprises the type and the identification of the target mimicry equipment to be operated, and the operation instruction comprises at least one of an access operation instruction, a change operation instruction or a delete operation instruction; searching whether the type belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster; and according to the search result, triggering the mimicry equipment management subsystem to execute corresponding operation on the target mimicry equipment according to the operation instruction so as to manage the mimicry equipment in the mimicry equipment cluster. Therefore, unified management of the mimicry equipment cluster is realized through the comprehensive management subsystem and the mimicry equipment management subsystem.

Description

Management system, method and electronic device for mimic device cluster

technical field

The invention relates to the technical field of mimetic device management, in particular to a management system, method and electronic device for a mimetic device cluster.

Background technique

In the existing mimic device cluster scenario, each mimic device in the mimic device cluster has its own independent management system, that is, each mimic device is independently managed. However, it is not convenient to quickly and flexibly define the network topology structure of the mimic device cluster or change the network topology structure of the mimic device cluster to independently manage each mimic device in the mimic device cluster scenario.

Therefore, how to uniformly manage the mimic device cluster is an urgent problem to be solved by those skilled in the art.

Contents of the invention

The invention provides a management system, method and electronic equipment of a mimic device cluster, which realizes the unified management of the mimic device cluster.

The invention provides a management system of a mimic device cluster, which includes a comprehensive management subsystem and a mimic device management subsystem.

The integrated management subsystem is configured to receive an input operation instruction; wherein, the operation instruction includes the type and identification of the target mimic device to be operated, and the operation instruction includes an access operation instruction, a change operation instruction or a deletion operation instruction at least one of the

The integrated management subsystem is used to find out whether the type belongs to the preset mimic device type corresponding to the mimic device cluster.

The integrated management subsystem is configured to trigger the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instruction according to the search result, so as to manage the mimic devices in the mimic device cluster.

According to a management system of a mimic device cluster provided by the present invention, the operation instruction includes an access operation instruction, the comprehensive management subsystem includes an operation and maintenance management module and a network resource management module; the mimic device management subsystem includes a preset A mimetic device management module corresponding to a mimetic device type is provided, and the mimetic device management module includes an executive body management submodule.

The network resource management module is configured to allocate external network resources for the target mimic device when the operation and maintenance management module determines that the type belongs to the preset mimic device type.

The executive management submodule is configured to allocate internal network resources to heterogeneous executives in the target mimic device, so that the target mimic device can access the In the above-mentioned mimic device cluster.

According to a management system of a mimic device cluster provided by the present invention, the comprehensive management subsystem further includes a log management module, and the mimic device management module further includes a monitoring sub-module.

The executive management submodule is further configured to send the access success status information of the target mimic device to the log management module.

The monitoring sub-module is configured to monitor characteristic parameters of the target mimic device, and send the characteristic parameters to the log management module.

The log management module is configured to update the status information of the target mimic device to the connected status according to the access success status information, and manage the target mimic device in combination with the characteristic parameters.

According to a management system of a mimetic device cluster provided by the present invention, the comprehensive management subsystem further includes a standardization module.

The standardization module is configured to, when the operation and maintenance management module determines that the type does not belong to the preset mimic device type, add the mimic device management corresponding to the type in the mimic device management subsystem module.

The monitoring submodule is further configured to set the characteristic parameters corresponding to the type of mimic device.

According to a management system of a mimicry device cluster provided by the present invention, the operation instruction includes a change operation instruction, and the change operation instruction also includes the identification of the target heterogeneous execution body to be changed in the target mimic device and the change operation type, the comprehensive management subsystem includes an operation and maintenance management module and a log management module; the mimic device management subsystem includes a target mimic device management module corresponding to the type, and the target mimic device management module includes an executive management sub- module.

Wherein, the operation and maintenance management module is configured to check the log management according to the identifier of the target mimic device and the identifier of the target heterogeneous executable when the type belongs to the preset mimic device type A module for judging whether the target heterogeneous executable is in a preset state; the preset state is an offline state or a running state.

The operation and maintenance management module is further configured to send a modification instruction to the executive management submodule according to the judgment result, and the modification instruction includes the identifier of the target mimic device, the identifier of the target heterogeneous executable and all The type of change operation described above.

The executive management submodule is configured to control the target heterogeneous executable to perform corresponding alteration operations according to the alteration instruction.

According to a management system of a mimic device cluster provided by the present invention, the type of the change operation is an offline operation type, and the preset state is an offline state.

Wherein, the operation and maintenance management module is specifically configured to send an offline instruction to the execution body management submodule when the target heterogeneous executable is in a non-offline state, and the offline instruction includes the The identifier of the target mimic device, the identifier of the target heterogeneous execution body, and the offline operation type.

The executable management submodule is configured to control the target heterogeneous executable to perform an offline operation according to the offline instruction.

According to a management system of a mimetic device cluster provided by the present invention, the executive body management submodule is also used to recover the internal network resources allocated for the target heterogeneous executive body, and the internal network resources are used in the When a new heterogeneous executive comes online in the target mimic device, it is allocated to the new heterogeneous executive.

According to a management system of a mimetic device cluster provided by the present invention, the type of the change operation includes a rollback operation type, and the preset state is an offline state.

The operation and maintenance management module is specifically configured to send a rollback instruction to the execution entity management submodule when the target heterogeneous executable is offline, and the rollback instruction includes the target mimic device the identifier of the target heterogeneous executable, and the rollback operation type.

The executable management submodule is configured to control the target heterogeneous executable to perform a rollback operation according to the rollback instruction.

According to a management system of a mimetic device cluster provided by the present invention, the operation and maintenance management module is further configured to send An offline instruction, where the offline instruction includes the identifier of the target mimic device, the identifier of the target heterogeneous executable, and the offline operation type.

The executable management submodule is further configured to control the target heterogeneous executable to perform an offline operation according to the offline instruction.

According to a management system for a mimic device cluster provided by the present invention, the type of the change operation includes an activation operation type and/or a startup operation type, and the preset state is a running state.

The operation and maintenance management module is specifically configured to send a change instruction to the execution body management submodule when the target heterogeneous executable is in a non-running state, and the change instruction includes the identification of the target mimic device , the identifier of the target heterogeneous executable and the type of the change operation.

The executable management submodule is configured to control the target heterogeneous executable to perform a modification operation according to the modification instruction.

According to a management system of a mimic device cluster provided by the present invention, the type of the change operation includes a restart operation type, and the preset state is a running state.

The operation and maintenance management module is specifically configured to send a restart instruction to the execution body management submodule when the target heterogeneous executable is in the running state, and the restart instruction includes the identifier of the target mimic device, The identifier of the target heterogeneous execution body and the restart operation type.

The execution body management submodule is configured to control the target heterogeneous execution body to perform a restart operation according to the restart instruction.

According to a management system of a mimetic device cluster provided by the present invention, the target mimetic device management module further includes a monitoring submodule.

The execution body management sub-module is further configured to send the updated status information of the target heterogeneous execution body to the log management module.

The monitoring sub-module is configured to monitor characteristic parameters of the target mimic device, and send the characteristic parameters to the log management module.

The log management module is configured to update the state information of the target heterogeneous executable body to the updated state information, and manage the target mimic device in combination with the characteristic parameters.

According to a management system of a mimic device cluster provided by the present invention, the operation instruction includes a delete operation instruction, and the comprehensive management subsystem includes an operation and maintenance management module, a log management module, and a network resource management module; the mimic device management sub-system The system includes a mimic device management module corresponding to a preset mimic device type, and the mimic device management module includes an executive body management sub-module.

The operation and maintenance management module is also used to check the log management module according to the identification of the target mimic device when the type belongs to the preset mimic device type, and judge the mimic managed by the mimic device management subsystem Whether the target mimic device is included in the device.

The network resource module is further configured to reclaim the external network resources allocated for the target mimic device when the operation and maintenance management module determines that the target mimic device is included.

The executive management sub-module is further configured to reclaim the internal network resources allocated for the heterogeneous executive of the target mimic device when the operation and maintenance management module determines that the target mimic device is included, and close the connection with the session between the target mimicking devices.

According to a management system of a mimic device cluster provided by the present invention, the executive management submodule is further configured to send the deletion success status information of the target mimic device to the log management module.

The log management module is configured to update the status information of the target mimic device to a deleted status according to the deleted status information.

The present invention also provides a management method of a mimic device cluster, which is applied to the management system of the above-mentioned mimic device cluster. The management system of the mimic device cluster includes a comprehensive management subsystem and a mimic device management subsystem. The method includes:

An input operation instruction is received through the comprehensive management subsystem; wherein, the operation instruction includes the type and identification of the target mimic device to be operated, and the operation instruction includes access operation instruction, change operation instruction or delete operation instruction at least one.

Check whether the type belongs to the preset mimic device type corresponding to the mimic device cluster through the integrated management subsystem.

The integrated management subsystem triggers the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instruction according to the search result, so as to manage the mimic devices in the mimic device cluster.

According to a management method of a mimic device cluster provided by the present invention, the operation instruction includes an access operation instruction, and the comprehensive management subsystem triggers the mimic device management subsystem to perform the operation instruction according to the search result , performing corresponding operations on the target mimic device, including:

When the operation and maintenance management module in the comprehensive management subsystem determines that the type belongs to the preset mimic device type through the network resource management module in the comprehensive management subsystem, assign the target mimic device external network resources.

Allocating internal network resources to the heterogeneous executives in the target mimicking device through the executive management submodule in the mimicking device management module corresponding to the type of the target mimicking device included in the mimicking device management subsystem, so that all The target mimic device is connected to the mimic device cluster based on the external network resource and the internal network resource.

According to a management method of a mimetic device cluster provided by the present invention, the method further includes:

Send the access success status information of the target mimic device to the log management module in the integrated management subsystem through the executive management submodule.

The characteristic parameters of the target mimic device are monitored through the monitoring submodule in the mimic device management subsystem, and the characteristic parameters are sent to the log management module.

The log management module updates the status information of the target mimic device to the connected status according to the access success status information, and manages the target mimic device in combination with the characteristic parameters.

According to a management method of a mimetic device cluster provided by the present invention, the method further includes:

When the operation and maintenance management module determines that the type does not belong to the preset mimic device type through the standardization module in the comprehensive management subsystem, add the type correspondence in the mimic device management subsystem Mimetic device management module.

The characteristic parameter corresponding to the type of mimic device is set through the monitoring sub-module.

According to a management method of a mimic device cluster provided by the present invention, the operation instruction includes a change operation instruction, and the change operation instruction also includes the identification of the target heterogeneous execution body to be changed in the target mimic device and the change operation According to the search result, the integrated management subsystem triggers the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instruction, including:

In the case that the type belongs to the preset mimic device type, the operation and maintenance management module in the integrated management subsystem checks the The log management module in the integrated management subsystem judges whether the target heterogeneous executable is in a preset state; the preset state is an offline state or a running state.

According to the judgment result, the operation and maintenance management module sends a change instruction to the executive management submodule in the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem, and the change instruction includes The identifier of the target mimic device, the identifier of the target heterogeneous executive body, and the type of the change operation.

The target heterogeneous executable is controlled by the executive management submodule to perform a corresponding alteration operation according to the alteration instruction.

According to a management method of a mimetic device cluster provided by the present invention, the type of the change operation is an offline operation type, and the preset state is an offline state; wherein, according to the judgment result, the operation and maintenance management module sends The executive management submodule in the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem sends a change instruction, including:

When the target heterogeneous executable is in a non-offline state, the operation and maintenance management module sends an offline instruction to the executive management submodule, and the offline instruction includes the identifier of the target mimic device , the identifier of the target heterogeneous executable and the type of the offline operation.

Correspondingly, controlling the target heterogeneous executable to perform corresponding modification operations according to the modification instruction through the execution body management submodule includes:

The target heterogeneous executable is controlled by the execution body management submodule to perform an offline operation according to the offline instruction.

According to a management method of a mimetic device cluster provided by the present invention, the method further includes:

The internal network resource allocated for the target heterogeneous executive is reclaimed by the executive management submodule, and the internal network resource is used to allocate to the target heterogeneous executive when a new heterogeneous executive comes online in the target mimic device Describe new heterogeneous executives.

According to a management method of a mimetic device cluster provided by the present invention, the type of the change operation includes a rollback operation type, and the preset state is an offline state; wherein, according to the judgment result, the operation and maintenance management module sends The executive management submodule in the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem sends a change instruction, including:

When the target heterogeneous executable is offline, the operation and maintenance management module sends a rollback instruction to the executive management submodule, where the rollback instruction includes the identity of the target mimic device, The identifier of the target heterogeneous execution body and the rollback operation type.

Correspondingly, controlling the target heterogeneous executable to perform corresponding modification operations according to the modification instruction through the execution body management submodule includes:

The target heterogeneous executable is controlled to perform a rollback operation by the executive management submodule according to the rollback instruction.

According to a management method of a mimetic device cluster provided by the present invention, the method further includes:

When the target heterogeneous executable is in a non-offline state, the operation and maintenance management module sends an offline instruction to the executive management submodule, and the offline instruction includes the identifier of the target mimic device , the identifier of the target heterogeneous executable and the type of the offline operation.

The target heterogeneous executable is controlled by the execution body management submodule to perform an offline operation according to the offline instruction.

According to a management method of a mimetic device cluster provided by the present invention, the type of the change operation includes an activation operation type and/or a startup operation type, and the preset state is a running state; wherein, through the operation and maintenance management module according to As a result of the judgment, send a change instruction to the executive management submodule in the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem, including:

When the target heterogeneous executable is in a non-running state, the operation and maintenance management module sends a modification instruction to the execution body management submodule, the modification instruction includes the identification of the target mimic device, the The identity of the target heterogeneous executive and the type of change operation in question.

Correspondingly, controlling the target heterogeneous executable to perform corresponding modification operations according to the modification instruction through the execution body management submodule includes:

The target heterogeneous executable is controlled by the executive management submodule to perform a change operation according to the change instruction.

According to a management method of a mimetic device cluster provided by the present invention, the type of the change operation includes a restart operation type, and the preset state is the running state; wherein, according to the judgment result, the operation and maintenance management module sends to the The executive management submodule in the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem sends a change instruction, including:

When the target heterogeneous executable is in the running state, the operation and maintenance management module sends a restart instruction to the execution body management submodule, and the restart instruction includes the identifier of the target mimic device, the target The identifier of the heterogeneous execution body and the restart operation type.

Correspondingly, controlling the target heterogeneous executable to perform corresponding modification operations according to the modification instruction through the execution body management submodule includes:

The execution body management submodule controls the target heterogeneous execution body to perform a restart operation according to the restart instruction.

According to a management method of a mimetic device cluster provided by the present invention, the method further includes:

The updated state information of the target heterogeneous executable is sent to the log management module through the executable management submodule.

Monitor the characteristic parameters of the target mimetic device through the monitoring submodule in the mimetic device management module corresponding to the type of the target mimetic device included in the mimetic device management subsystem, and send the characteristic parameters to the log management module.

The state information of the target heterogeneous executable is updated to the updated state information through the log management module, and the target mimic device is managed in combination with the characteristic parameters.

According to a management method of a mimetic device cluster provided by the present invention, the operation instruction includes a delete operation instruction, and the comprehensive management subsystem triggers the mimetic device management subsystem according to the operation instruction according to the search result, Perform corresponding operations on the target mimic device, including:

Check the log management in the mimic device management subsystem according to the identifier of the target mimic device when the type belongs to the preset mimic device type through the operation and maintenance management module in the mimic device management subsystem A module for judging whether the target mimic device is included in the mimic devices managed by the mimic device management subsystem.

The network resource module in the mimic device management subsystem reclaims the external network resources allocated for the target mimic device when the operation and maintenance management module determines that the target mimic device is included.

When the executive management submodule in the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem is determined to include the target mimic device, recycle as The heterogeneous execution body of the target mimic device allocates internal network resources, and closes the session with the target mimic device.

According to a management method of a mimetic device cluster provided by the present invention, the method further includes:

The deletion success status information of the target mimic device is sent to the log management module through the executive management submodule.

The log management module updates the status information of the target mimic device to the deleted status according to the deleted status information.

The present invention also provides an electronic device, including a memory, a processor, and a computer program stored on the memory and operable on the processor. When the processor executes the program, the mimetic device as described in any of the above is realized. Cluster management methods.

The present invention also provides a non-transitory computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the method for managing a mimetic device cluster as described in any one of the above is implemented

The present invention also provides a computer program product, including a computer program. When the computer program is executed by a processor, the method for managing a mimetic device cluster as described in any one of the above is implemented.

The management system, method and electronic equipment of the mimic device cluster provided by the present invention, the management system of the mimic device cluster includes a comprehensive management subsystem and a mimic device management subsystem; wherein, the comprehensive management subsystem is used to receive input operation instructions; Wherein, the operation instruction includes the type and identification of the target mimic device to be operated, and the operation instruction includes at least one of an access operation instruction, a change operation instruction, or a deletion operation instruction; device type; and according to the search result, trigger the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instruction, so as to manage the mimic devices in the mimic device cluster. In this way, the unified management of the mimic device cluster is realized through the integrated management subsystem and the mimic device management subsystem.

Description of drawings

In order to more clearly illustrate the present invention or the technical solutions in the prior art, the accompanying drawings that need to be used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the accompanying drawings in the following description are the present invention. For some embodiments of the invention, those skilled in the art can also obtain other drawings based on these drawings without creative effort.

Fig. 1 is a schematic flow diagram of the management system of the mimetic device cluster provided by the present invention;

FIG. 2 is a schematic diagram of an integrated management subsystem provided by an embodiment of the present invention;

FIG. 3 is a schematic diagram of a mimic device management subsystem provided by an embodiment of the present invention;

FIG. 4 is a schematic flow diagram of performing an access operation on a target mimic device according to an embodiment of the present invention;

FIG. 5 is a schematic flow diagram of performing an offline operation on a heterogeneous executive body a in a mimetic router A in a mimetic device cluster according to an embodiment of the present invention;

FIG. 6 is a schematic flow diagram of performing a rollback operation on a heterogeneous executive body a in a mimetic router A in a mimetic device cluster according to an embodiment of the present invention;

FIG. 7 is a schematic flowchart of an activation operation performed on a heterogeneous executive body a in a mimic router A in a mimic device cluster according to an embodiment of the present invention;

FIG. 8 is a schematic flow diagram of performing a start-up operation on a heterogeneous executive body a in a mimetic router A in a mimetic device cluster according to an embodiment of the present invention;

FIG. 9 is a schematic flowchart of performing a restart operation on heterogeneous executive body a in a mimic router A in a mimic device cluster according to an embodiment of the present invention;

FIG. 10 is a schematic flowchart of performing a deletion operation on a target mimic device in a mimic device cluster according to an embodiment of the present invention;

FIG. 11 is a schematic flowchart of a management method for a mimic device cluster provided by an embodiment of the present invention;

Fig. 12 illustrates a schematic diagram of the physical structure of an electronic device.

Detailed ways

In order to make the purpose, technical solutions and advantages of the present invention clearer, the technical solutions in the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the present invention. Obviously, the described embodiments are part of the embodiments of the present invention , but not all examples. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without creative efforts fall within the protection scope of the present invention.

In the embodiments of the present invention, "at least one" means one or more, and "multiple" means two or more. "And/or" describes the association relationship of associated objects, indicating that there can be three types of relationships, for example, A and/or B, which can mean: A exists alone, A and B exist simultaneously, and B exists independently. A, B can be singular or plural. In the text description of the present invention, the character "/" generally indicates that the contextual objects are an "or" relationship.

The technical solution provided by the embodiments of the present invention can be applied to a mimetic device management scenario, especially a mimetic device cluster management scenario. The so-called mimic device cluster refers to a cluster composed of multiple mimic devices.

Considering that in the prior art, each mimic device in the mimic device cluster is independently managed, it is not convenient to quickly and flexibly define or change the network topology of the mimic device cluster, therefore, in order to realize the mimicry in the mimic device cluster Devices are managed in a unified manner. Embodiments of the present invention provide a management system for a mimic device cluster. The management system for a mimic device cluster provided by the present invention will be described in detail below through specific embodiments. It can be understood that the following specific embodiments may be combined with each other, and the same or similar concepts or processes may not be repeated in some embodiments.

Fig. 1 is a schematic flowchart of a management system of a mimic device cluster provided by the present invention. For an example, please refer to Fig. 1 . The management system of a mimic device cluster may include: an integrated management subsystem and a mimic device management subsystem.

The comprehensive management subsystem is used to receive input operation instructions; wherein, the operation instructions include the type and identification of the target mimic device to be operated, and the operation instructions include at least one of access operation instructions, change operation instructions or delete operation instructions.

The comprehensive management subsystem is used to find out whether the type belongs to the preset mimic device type corresponding to the mimic device cluster.

The comprehensive management subsystem is configured to trigger the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instruction according to the search result, so as to manage the mimic devices in the mimic device cluster.

Among them, the integrated management subsystem is externally connected to the visual interface, internally connected to the mimic device management subsystem, internally connected to the comprehensive management subsystem, and externally connected to all mimic devices that need to be managed.

For example, the type of the target mimic device may include a mimic storage device type, a mimic router type, a mimic Domain Name System (Domain Name System, DNS) server type, or a mimic global wide area network (World Wide Web, Web) server type, etc. It needs to be set. Here, the embodiment of the present invention is only described by taking these operations as examples, but it does not mean that the embodiment of the present invention is limited thereto. For example, when the target mimic device is a mimic storage device, its type is a mimic storage device type; when the target mimic device is a mimic router, its type is a mimic router type.

For example, the change operation instruction may include an offline operation instruction, a rollback operation instruction, an activation operation instruction, a startup operation instruction, or a restart operation instruction, etc., which may be set according to actual needs. Here, the embodiment of the present invention is based on this Several operating instructions are described as examples, but this does not mean that the embodiment of the present invention is limited thereto. Among them, the operation corresponding to the offline operation instruction is an offline operation, the operation corresponding to the rollback operation instruction is a rollback operation, the operation corresponding to the activation operation instruction is an activation operation, and the operation corresponding to the start operation instruction is a startup operation or a restart operation instruction The corresponding operation is restart operation.

Among them, the offline operation refers to turning the running heterogeneous execution body into an unavailable state, and reclaiming the network resources and storage computing resources occupied by the heterogeneous execution body; the rollback operation refers to returning the heterogeneous execution body to the previous Restart after a certain state; the activation operation refers to changing the heterogeneous execution body in the mimic device from the suspended state to the usable state; the start operation refers to changing the heterogeneous execution body from the initial state to the available state; the restart operation refers to Shut down the running heterogeneous executor, and restart the heterogeneous executor.

Exemplarily, the preset mimic device types corresponding to the mimic device cluster include a mimic storage device type, a mimic router type, a mimic DNS server type, or a mimic Web server type, etc., which may be specifically determined according to the mimic devices included in the mimic device cluster.

It can be understood that when the input operation instruction includes an access operation instruction, it means that the target mimic device is not currently included in the mimic device cluster, and the integrated management subsystem can trigger the mimic device management subsystem to follow the access operation instruction according to the search result. , perform a corresponding access operation on the target mimic device, add the target mimic device to the mimic device cluster, and update the mimic device cluster, so that the updated mimic device cluster includes the target mimic device.

When the input operation instruction includes a change operation instruction, it means that the target mimic device is currently included in the mimic device cluster, and the integrated management subsystem can trigger the mimic device management subsystem to perform changes to the target mimic device according to the change operation instruction according to the search result. The heterogeneous executive executes corresponding change operations to update the state of the heterogeneous executive in the target mimic device, which can accurately manage each mimic device.

It can be seen that in the embodiment of the present invention, when managing the mimic device cluster, the comprehensive management subsystem in the management system of the mimic device cluster is used to receive the input operation instruction; wherein, the operation instruction includes the target mimic to be operated The type and identification of the device, the operation instruction includes access operation instruction and/or change operation instruction; and finds whether the type belongs to the preset mimic device type corresponding to the mimic device cluster; and according to the search result, triggers in the management system of the mimic device cluster The mimic device management module performs corresponding operations on the target mimic device according to the operation instructions, so as to manage the mimic devices in the mimic device cluster, so that the unified management of the mimic device cluster can be realized through the integrated management subsystem and the mimic device management subsystem .

Based on the embodiment shown in FIG. 1 above, for example, the comprehensive management subsystem may include a log management module, a network resource management module, an operation and maintenance management module, and a standardization module, as shown in FIG. 2 , which is an embodiment of the present invention. The schematic diagram of the comprehensive management subsystem provided; for example, when the mimic devices in the mimic device cluster include mimic storage devices, mimic router devices, mimic DNS servers, and mimic Web servers, correspondingly, the mimic device management subsystem can include mimic storage The management module, the mimic router management module, the mimic DNS server management module and the mimic Web server management module can be referred to in FIG. 3 , which is a schematic diagram of the mimic device management subsystem provided by the embodiment of the present invention. Among them, the mimic storage management module is used to manage a class of mimic storage devices of the mimic storage type, the mimic router management module is used to manage a class of mimic router devices of the mimic router type, and the mimic DNS server management module is used to manage a class of mimic DNS server types The mimic DNS server and the mimic web server management module are used to manage a class of mimic web servers of the mimic web server type.

Among them, the log management module is connected to the monitoring sub-module in the mimic device management module corresponding to different types of mimic devices in the mimic device management subsystem, and is mainly used to receive the status information and characteristic parameters obtained by each mimic device management module in real time, and pass The operation and maintenance management module displays these information in a visual interface.

The network resource management module is mainly used to allocate and manage the external network resources of all mimic devices in the intranet according to the Dynamic Host Configuration Protocol (DHCP), including but not limited to the Internet Protocol (Internet Protocol, IP) address, port number and other information.

The operation and maintenance management module is mainly used to receive the operation instructions input by the visual interface, and analyze the operation instructions, and then trigger the corresponding mimic device management module in the mimic device management subsystem according to the operation instructions, and cooperate to execute the operation instructions; The interface displays the status information and characteristic parameters obtained by the log management module.

The standardization module is mainly used to specify the standard form of the characteristic parameters of all mimic devices in the mimic device management subsystem. When the type of the newly accessed mimic device does not belong to the range of the preset mimic device type corresponding to the mimic device cluster, initialize a The mimetic device management module corresponding to the type of the newly connected mimetic device is used to manage the mimetic device of this type.

As shown in the above Figure 3, for each mimic management module in the mimic storage management module, mimic router management module, mimic DNS server management module and mimic Web server management module, it is managed through the Network Configuration (NETCONF) protocol A class of mimic devices for management. Each mimic management module includes an executive body management submodule and a monitoring submodule. For example, the monitoring sub-module in the mimic storage management module can be recorded as the storage monitoring sub-module, the monitoring sub-module in the mimic router management module can be recorded as the traffic monitoring sub-module, and the monitoring sub-module in the mimic DNS server management module can be recorded as the domain name The monitoring sub-module, the monitoring sub-module in the mimic Web server management module can be recorded as the session monitoring sub-module. In addition, for the mimic DNS server management module, a domain name protection sub-module will be additionally included.

Exemplarily, as shown in the above-mentioned Figure 3, each mimic management module in the mimic storage management module, mimic router management module, mimic DNS server management module and mimic Web server management module has its own functions, which can be referred to as follows:

The mimic storage management module is mainly used to manage a class of mimic storage devices of the mimic storage type, and the mimic storage management module mainly includes a storage monitoring sub-module and an executive body management sub-module. Among them, the storage monitoring sub-module can monitor the storage conditions in all mimic storage devices, the working status of metadata service executives, data service executives and arbitrators, as well as read and write functions of mimic storage devices.

The mimic router management module is mainly used to manage a type of mimic router device of the mimic router type. The mimic router management module mainly includes a traffic monitoring submodule and an executive management submodule. Among them, the traffic monitoring sub-module can monitor the traffic information flowing through each mimetic router device, the traffic information flowing through various heterogeneous executives, the security filtering list, and the work of routing executives, management executives, other executives, and arbitrators situation.

The mimic DNS server management module is mainly used to manage a type of mimic DNS server of the mimic DNS server type. The mimic DNS server management module mainly includes a domain name monitoring submodule, an executive body management submodule and a domain name protection submodule. Wherein, the domain name monitoring sub-module can monitor the mapping table of each domain name protocol heterogeneous executive body. In addition to the basic functions, the executive management sub-module can also maintain three tables, which are cache list, distribution adjudicator list and isomer list. The domain name protection sub-module monitors the status of the domain name in real time, and takes warning measures when an exception occurs.

The mimic Web server management module is mainly used to manage a class of mimic Web servers of the Mimic Web server type, and the main module of the Mimic Web server management includes a session monitoring sub-module and an executive body management sub-module. Among them, the session monitoring sub-module can monitor the heterogeneous function of the database command, and monitor the processing status, duration and session status information of each heterogeneous execution body during each connection process.

Among them, each executive body management sub-module has basic functions: 1. It can perform operations such as activation, offline, startup, restart, and rollback on all executive bodies of its corresponding type of mimic device; 2. For its corresponding The heterogeneous pool networking in a class of mimic devices manages the internal network resources of each mimic device.

Based on the integrated management subsystem shown in Figure 2 above, and the mimic device management subsystem shown in Figure 3 above, in order to facilitate the understanding of how the management system of the mimic device cluster implements the mimic device cluster through the integrated management subsystem and the mimic device management module Unified management. In the following, we will take the scenario where the operation instruction includes access operation instruction, the scenario where the operation instruction includes the modification operation instruction, and the scenario where the operation instruction includes the deletion operation instruction as examples, how to manage the mimic device cluster through the integrated management sub- The system and mimic device management module describe in detail the unified management of mimic device clusters.

For example, in one scenario, when the operation instruction includes an access operation instruction, the corresponding comprehensive management subsystem includes an operation and maintenance management module and a network resource management module, and the mimic device management subsystem includes a mimic device corresponding to a preset mimic device type A device management module, and the mimetic device management module includes an executive body management sub-module. Exemplarily, the method for the management system of the mimic device cluster to perform the access operation on the target mimic device through the integrated management subsystem and the mimic device management module can be referred to as shown in FIG. Schematic diagram of the access operation process to achieve unified management of the mimic device cluster through the integrated management subsystem and the mimic device management subsystem.

The operation and maintenance management module is used to receive the input access operation instruction, the access operation instruction includes the type and identification of the target mimic device to be operated, and finds whether the type of the target mimic device belongs to the preset mimic device type corresponding to the mimic device cluster .

The network resource management module is configured to allocate external network resources for the target mimic device when the operation and maintenance management module determines that the type of the target mimic device belongs to a preset mimic device type.

The executive management sub-module is used to allocate internal network resources for the heterogeneous executives in the target mimic device when the operation and maintenance management module determines that the type of the target mimic device belongs to the preset mimic device type, so that the target mimic device Access to mimic device clusters based on external network resources and internal network resources.

For example, after receiving the input access operation instruction, the operation and maintenance management module may parse the access operation instruction to extract the type and identifier of the target mimic device to be accessed from the access operation instruction.

For example, when the network resource management module allocates external network resources for the target mimic device, it may allocate external network resources for the target mimic device based on the DHCP protocol; and after allocating the external network resources, send the allocation information including the external network resources to The target mimic device; in addition, it can also receive a confirmation message of the external network resources of the target mimic device, and after receiving the confirmation message, send a takeover instruction of the target mimic device to the mimic device management module corresponding to the type of the target mimic device, to Make the mimic device management module take over the target mimic device.

Correspondingly, after the mimic device management module takes over the target mimic device, the executive management submodule in the mimic device management module can allocate internal network resources for the heterogeneous executives in the target mimic device to form an internal network, so that the target mimic device Access to mimic device clusters based on external network resources and internal network resources. For example, when the executive management submodule allocates internal network resources for the heterogeneous executives in the target mimic device, it can allocate internal network resources for the heterogeneous executives in the target mimic device through the <edit-config> operation in the NETCONF protocol . Of course, it is also possible to receive external shell commands to allocate internal network resources for the heterogeneous executives in the target mimic device, which can be set according to actual needs. Here, the embodiment of the present invention only takes the executive body management submodule as the target mimic device The allocation of internal network resources by the heterogeneous executive body in is used as an example for illustration, but it does not mean that the embodiment of the present invention is limited thereto.

For example, after the mimic device management module takes over the target mimic device, the executive management sub-module in the mimic device management module may also send characteristic parameters to be monitored to the target mimic device. For example, when the executive management submodule also sends the characteristic parameters to be monitored to the target mimic device, it can first determine whether there is an established NETCONF session, and if there is an established NETCONF session, it can directly pass the NETCONF session, and the pending The monitored characteristic parameters are sent to the target mimic device; on the contrary, if there is no established NETCONF session, a NETCONF session is established first, and the characteristic parameters to be monitored are sent to the target mimic device through the established NETCONF session.

In combination with the above description, the target mimic device randomly starts at least 3 heterogeneous executables, and after completing the internal network networking, for example, the integrated management subsystem also includes a log management module, and the mimic device management module also includes a monitoring submodule.

Wherein, the executive management sub-module is also used to send the access success status information of the target mimic device to the log management module.

The monitoring sub-module is used to monitor the characteristic parameters of the target mimic device, and send the characteristic parameters to the log management module.

The log management module is used to update the status information of the target mimic device to the connected status according to the access success status information, and manage the target mimic device in combination with characteristic parameters.

It can be understood that when the monitoring sub-module monitors the characteristic parameters of the target mimic device and sends the characteristic parameters to the log management module, the characteristic parameters will include the relevant parameters of each heterogeneous executive in the target mimic device.

For example, after the log management module updates the state information of the target mimic device to the connected state, it may record the updated state information of the target mimic device, and manage the target mimic device in combination with characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target mimic device and the updated status information of the target heterogeneous executive to the operation and maintenance management module in real time, so that the operation and maintenance management module can display the target mimic device to the user through a visual interface The characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body are convenient for users to know and view the characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body in time.

Based on the above description, it can be seen that the above only describes how to perform an access operation on the target mimicking device when the type of the target mimicking device belongs to the default mimicking device type; In the case of different types, before the network resource management module allocates external network resources for the target mimic device, it is necessary to add the corresponding mimic device management module in the mimic device management subsystem in advance, and set the characteristic parameters of the mimic device corresponding to the type to be monitored. . Exemplarily, the integrated management subsystem further includes a normalization module.

Among them, the standardization module is used to add a corresponding type of mimic device management module in the mimic device management subsystem when the operation and maintenance management module determines that the type of the target device does not belong to the preset mimic device type.

The monitoring sub-module is also used to set the characteristic parameters corresponding to the type of mimic device.

It can be understood that the standardization module adds a corresponding type of mimic device management module to the mimic device management subsystem, and the mimic device management module may also include an executive body management sub-module and a monitoring sub-module.

For example, after adding a mimic device management module corresponding to the type, the executive management submodule in the mimic device management module can perform capability negotiation with the target mimic device according to the NETCONF protocol, and exchange the basic capability base and the exchange capability exchange capability set; The monitoring sub-module in the mimic device management module can set the characteristic parameters corresponding to the target mimic device according to the exchange base and exchange capability set, so that the monitoring sub-module can monitor the characteristic parameters of the target mimic device in a targeted manner.

The standardization module adds a corresponding type of mimic device management module in the mimic device management subsystem, and after the monitoring sub-module sets the characteristic parameters corresponding to this type of mimic device, how to perform the access operation on the target mimic device is the same as the above target mimic device The case where the type of the device belongs to the preset mimic device type is similar, that is, the network resource management module is used to allocate external network resources for the target mimic device. The executive body management sub-module is used to allocate internal network resources for the heterogeneous executive bodies in the target mimic device, so that the target mimic device can access the mimic device cluster based on external network resources and internal network resources. In addition, the executive management submodule is also used to send the access success status information of the target mimic device to the log management module. The monitoring sub-module is used to monitor the characteristic parameters of the target mimic device, and send the characteristic parameters to the log management module. The log management module is used to update the state information of the target mimic device to the connected state according to the status information of the successful access, and manage the target mimic device in combination with characteristic parameters. Assuming the related description of the type of mimic device, the embodiment of the present invention will not repeat it here.

It can be seen that when updating the mimic device cluster through the access operation command, the comprehensive management subsystem includes the operation and maintenance management module and the network resource management module, and the mimic device management subsystem includes the mimic device management module corresponding to the preset mimic device type . Among them, the operation and maintenance management module is used to receive the input access operation instruction, and find out whether the type of the target mimic device belongs to the preset mimic device type corresponding to the mimic device cluster; the network resource management module is used to determine the target in the operation and maintenance management module. When the type of the mimic device belongs to the default mimic device type, allocate external network resources for the target mimic device; the executive body management submodule is used to allocate internal network resources for the heterogeneous executives in the target mimic device, so that the target mimic Devices are connected to the mimic device cluster based on external network resources and internal network resources, so that the mimic device cluster is updated through access operation instructions, and unified management of the mimic device cluster is realized.

For example, in another scenario, when the operation instruction includes a change operation instruction, for example, the change operation instruction may include an offline operation instruction, a rollback operation instruction, an activation operation instruction, a startup operation instruction, or a restart operation instruction, etc. . Since the change operation instruction is mainly aimed at the heterogeneous executive body in the target mimic device, the change operation instruction also includes the identity of the target heterogeneous executive body to be changed in the target mimic device and the type of change operation. The integrated management subsystem includes operation A dimension management module and a log management module; the mimic device management subsystem includes a target mimic device management module corresponding to the type, and the target mimic device management module includes an executive body management sub-module. Exemplarily, the method for the management system of the mimic device cluster to realize unified management of the mimic device cluster through the comprehensive management subsystem and the mimic device management module may include:

The operation and maintenance management module is used to check the log management module according to the identification of the target mimic device and the identification of the target heterogeneous execution body, and determine whether the target heterogeneous execution body is in the preset state when the type belongs to the preset mimic device type; The default state is the offline state or the running state.

The operation and maintenance management module is also used to send a change instruction to the executive management submodule according to the judgment result, and the change instruction includes the identification of the target mimic device, the identification of the target heterogeneous execution body and the type of the change operation.

The execution body management sub-module is used to control the target heterogeneous execution body to perform corresponding change operations according to the change instruction, so as to realize the unified management of the target heterogeneous execution body.

In combination with the above description, in order to facilitate the understanding of how to perform modification operations on the heterogeneous executives in the target mimic device based on the modification operation instructions, the following will respectively use the modification operation instructions to include the offline operation instruction, and the modification operation instruction to include the back-to-back In the case of rolling the operation command, taking the case of changing the operation command including the activation operation command, taking the case of changing the operation command including the start operation command, and taking the case of changing the operation command including the restart operation command as an example, how does the management system of the mimetic device cluster Through the comprehensive management subsystem and the mimic device management module, the unified management of the mimic device cluster is described in detail.

For example, in one case, when the change operation instruction may include an offline operation instruction, the offline operation instruction also includes the identification of the target heterogeneous execution body to be offline in the target mimic device and the type of offline operation; The corresponding comprehensive management subsystem includes an operation and maintenance management module and a log management module. The mimic device management subsystem includes a target mimic device management module corresponding to the type of the target mimic device, and the mimic device management module includes an executive management submodule. Exemplarily, the method for the management system of the mimic device cluster to realize unified management of the mimic device cluster through the comprehensive management subsystem and the mimic device management module may include:

The operation and maintenance management module is used to receive the input offline operation instruction, the offline operation instruction includes the type and identification of the target mimic device to be operated, the identification of the target heterogeneous executive body to be offline in the target mimic device; and find the type Whether it belongs to the preset mimic device type corresponding to the mimic device cluster.

If the determined type does not belong to the preset mimic device type corresponding to the mimic device cluster, it means that the current offline operation command is a wrong operation command, then stop this offline operation; on the contrary, if the determined type belongs to the preset mimic device type corresponding to the mimic device cluster If the type of mimic device is set, the operation and maintenance management module is also used to view the log management module according to the identity of the target mimic device and the identity of the target heterogeneous execution body to determine the target heterogeneous execution when the type belongs to the preset mimic device type Whether the body is offline.

If it is determined that the target heterogeneous executor is offline, the operation ends; on the contrary, if it is determined that the target heterogeneous executor is not offline, the operation and maintenance management module is also used to In the case of non-offline state, send an offline instruction to the executive management sub-module, and the offline instruction includes the identification of the target mimic device, the identification of the target heterogeneous execution body and the type of offline operation.

The executive body management sub-module is used to control the target heterogeneous executable body to perform the offline operation according to the offline instruction.

For example, the offline operation instruction may be a single instruction, or may be a script instruction, and the script instruction may concurrently modify multiple mimic devices or multiple heterogeneous execution bodies.

For example, after the operation and maintenance management module receives the input offline operation instruction, it can analyze the offline operation instruction to extract the offline operation instruction from the offline operation instruction, including the type and identification of the target mimic device to be operated. , the identifier of the target heterogeneous executive to be offline in the target mimic device.

For example, since the executive body management sub-module will manage multiple mimic devices of the same type as the target mimic device, when the executive body management sub-module controls the target heterogeneous The identity of the target mimic device included in the line command finds the target mimic device from multiple mimic devices of the same type it manages, and sends an instruction to control the target heterogeneous executive to go offline to the target mimic device; correspondingly, the target After receiving the instruction, the mimetic device executes the instruction, and the target heterogeneous execution body is offline, thereby realizing the offline operation of the target heterogeneous execution body and accurately managing each mimetic device.

In addition, after the target heterogeneous execution is offline, the target mimic device can send the offline status information of the target heterogeneous execution to the execution management sub-module, so that the execution management sub-module can obtain the target heterogeneous execution The offline status information of the body.

With reference to the above description, after the offline operation of the target heterogeneous executable is performed, for example, the target mimic device management module further includes a monitoring submodule.

Wherein, the execution body management sub-module is also used to send the updated state information of the target heterogeneous execution body, that is, the offline state, to the log management module.

The monitoring sub-module is used to monitor the characteristic parameters of the target mimic device, and send the characteristic parameters to the log management module.

The log management module is used to update the state information of the target heterogeneous executive body to an offline state, and manage the target mimic device in combination with characteristic parameters.

It can be understood that when the monitoring sub-module monitors the characteristic parameters of the target mimic device and sends the characteristic parameters to the log management module, the characteristic parameters will include the relevant parameters of each heterogeneous executive in the target mimic device.

For example, after the log management module updates the status information of the target mimic device to an offline status, it may record the updated status information of the target mimic device, and manage the target mimic device in combination with characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target mimic device and the updated status information of the target heterogeneous executive to the operation and maintenance management module in real time, so that the operation and maintenance management module can display the target mimic device to the user through a visual interface The characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body are convenient for users to know and view the characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body in time.

For example, after the target heterogeneous execution body is offline, in order to improve the utilization rate of internal network resources, the execution body management submodule is also used to recycle the target heterogeneous execution body as the target Internal network resources allocated by heterogeneous executors. Internal network resources are used to allocate to new heterogeneous executors when new heterogeneous executors come online in the target mimic device, which can effectively improve the utilization of internal network resources. .

It can be seen that when the heterogeneous executive body of the target mimic device in the mimic device cluster is executed with an offline operation command, the comprehensive management subsystem includes the operation and maintenance management module and the log management module, and the mimic device management subsystem includes The target mimic device management module corresponds to the type of the target mimic device, and the mimic device management module includes an executive body management sub-module. Among them, the operation and maintenance management module is used to receive the input offline operation instruction, and find out whether the type of the target mimic device belongs to the preset mimic device type corresponding to the mimic device cluster; if the type belongs to the preset mimic device type, according to the target The identity of the mimetic device and the identity of the target heterogeneous executive check the log management module to determine whether the target heterogeneous executive is offline; and when the target heterogeneous executive is not offline, report to the executive management The module sends an offline command; the executive body management sub-module is used to control the target heterogeneous executive body to perform an offline operation according to the offline command, so that the heterogeneous executive body of the target mimic device in the mimic device cluster is executed through the offline operation command. Online operation realizes the unified management of mimic device clusters.

In combination with the above-mentioned related descriptions on the execution of the offline operation of the heterogeneous executive body of the target mimic device in the mimic device cluster, in the embodiment of the present invention, in order to facilitate the understanding of how to execute Offline operation, the following will take the offline operation of the heterogeneous executive body a in the mimic router A in the mimic device cluster as an example, and how to perform offline operation on the heterogeneous executive body of the target mimic device in the mimic device cluster The operation is illustrated with an example.

For example, refer to FIG. 5 , which is a schematic flowchart of performing an offline operation on heterogeneous executive body a in mimetic router A in a mimetic device cluster according to an embodiment of the present invention. When heterogeneous executive body a When performing offline operations, the comprehensive management subsystem includes an operation and maintenance management module and a log management module, the mimic device management subsystem includes a mimic router management module of the mimic router type, and the mimic router management module includes an executive management submodule and a monitoring submodule , for example, the monitoring submodule may be a traffic monitoring submodule. As shown in Figure 5, the process of performing offline operations on heterogeneous executive body a may include:

The operation and maintenance management module receives the offline operation instruction; wherein, the offline operation instruction includes the type of the mimic router A, the identifier of the mimic router A, and the identifier of the heterogeneous executive body a to be offline in the mimic router A; and searches for the mimic router Whether the type belongs to the preset mimic device type corresponding to the mimic device cluster.

If it is determined that the mimetic router type does not belong to the default mimetic device type corresponding to the mimetic device cluster, it means that the current offline operation command is a wrong operation command, then stop this offline operation; on the contrary, if it is determined that the mimetic router type belongs to the mimetic device For the preset mimic device type corresponding to the cluster, the operation and maintenance management module checks the log management module according to the identifier of the mimic router A and the identifier of the heterogeneous execution body a, and judges whether the heterogeneous execution body a is offline.

If it is determined that the heterogeneous executive body a is in the offline state, then end this operation; on the contrary, if it is determined that the heterogeneous executive body a is in the non-offline state, the operation and maintenance management module will manage the execution body in the mimic router management module The sub-module sends an offline instruction, and the offline instruction includes the identifier of the mimic router A, the identifier of the heterogeneous executive a, and the offline operation type.

After receiving the offline command, the executive management sub-module first finds the mimic router A from the multiple mimic devices of the same type managed by it according to the identifier of the mimic router A included in the log-off command, and sends a control to the mimic router A An instruction for the heterogeneous execution body a to go offline; correspondingly, the mimic router A executes the instruction after receiving the instruction, and the heterogeneous execution body a goes offline, thereby realizing the offline operation of the heterogeneous execution body a. In addition, after the mimic router A goes offline with the heterogeneous executive a, it can send the offline state information of the heterogeneous executive a to the executive management submodule, so that the executive management submodule can obtain the heterogeneous executive The offline status information of a.

The executive management sub-module sends the updated state information of the heterogeneous executive a, that is, the offline status, to the log management module; the traffic monitoring sub-module monitors the characteristic parameters of the mimic router A, and sends the characteristic parameters to the log management module; in addition , the executive management sub-module is also used to recover the internal network resources allocated for the heterogeneous executive a after the heterogeneous executive a is offline, so that when a new heterogeneous executive comes online in the mimic router A , allocated to new heterogeneous executives, which can effectively improve the utilization of internal network resources.

The log management module updates the state information of the heterogeneous executive a to a more offline state, and manages the mimic router A in combination with characteristic parameters, which can end the related operations of the heterogeneous executive a in the mimic router A, and pass the operation and maintenance The management module displays the characteristic parameters of the mimic router A and the updated status information of the heterogeneous executive body a to the user on the visualization plane, so that the user can know and view the characteristic parameters of the mimic router A and the updated status of the heterogeneous executive body a in time. information.

For example, in one case, when the change operation instruction may include a rollback operation instruction, the offline operation instruction also includes the identification of the target heterogeneous execution body to be rolled back in the target mimic device and the rollback operation type; Correspondingly, the integrated management subsystem includes an operation and maintenance management module and a log management module, and the mimic device management subsystem includes a target mimic device management module corresponding to the type of the target mimic device. Exemplarily, the method for the management system of the mimic device cluster to realize unified management of the mimic device cluster through the comprehensive management subsystem and the mimic device management module may include:

The operation and maintenance management module is used to receive the input rollback operation instruction, the rollback operation instruction includes the type and identification of the target mimic device to be operated, the identification of the target heterogeneous executive body to be rolled back in the target mimic device; and find the type Whether it belongs to the preset mimic device type corresponding to the mimic device cluster.

If the determined type does not belong to the preset mimic device type corresponding to the mimic device cluster, it means that the current rollback operation instruction is an incorrect operation instruction, and this rollback operation will be stopped; on the contrary, if the determined type belongs to the preset corresponding to the mimic device cluster For the type of mimic device, the operation and maintenance management module is also used to view the log management module according to the identity of the target mimic device and the identity of the target heterogeneous executive to determine the target heterogeneous executive when the type belongs to the preset mimic device type Whether it is offline.

If it is determined that the target heterogeneous executable is in a non-offline state, the operation and maintenance management module is also used to send an offline command to the execution body management submodule when the target heterogeneous executable is in a non-offline state, and the offline command Including the identification of the target mimic device, the identification of the target heterogeneous executive body and the type of offline operation; the executive body management sub-module is also used to control the target heterogeneous executive body to perform offline operations according to the offline instruction, so that the target heterogeneous execution The body is in the offline state, and in the non-offline state, continue to perform the rollback operation of the target heterogeneous execution body. It can be understood that the method for sending an offline command to the executive management sub-module here, and the method for the executive management sub-module to control the target heterogeneous executable to perform the offline operation according to the offline command is the same as the above-mentioned method when the operation command is changed to be offline When operating instructions, send an offline command to the executive management sub-module, and the method of the executive management sub-module controlling the target heterogeneous executive to perform offline operations according to the offline command is similar. For details, please refer to the above-mentioned control target heterogeneous executive. Relevant descriptions about line operations are not repeated here in this embodiment of the present invention.

If it is determined that the target heterogeneous executable is offline, the operation and maintenance management module is also used to send a rollback instruction to the executive management submodule. The rollback instruction includes the identification of the target mimic device, the identification of the target heterogeneous executable and Scroll operation type.

The executive management submodule is used to control the target heterogeneous executive to perform a rollback operation according to the rollback instruction.

For example, the rollback operation instruction may be a single instruction, or may be a script instruction, and the script instruction may concurrently modify multiple mimic devices or multiple heterogeneous execution bodies.

For example, after the operation and maintenance management module receives the input rollback operation instruction, it can analyze the rollback operation instruction to extract the rollback operation instruction from the rollback operation instruction including the type and identification of the target mimic device to be operated , the identity of the target heterogeneous executor to be rolled back in the target mimic device.

For example, since the executive management submodule manages multiple mimic devices of the same type as the target mimic device, when the executive management submodule controls the target heterogeneous The identity of the target mimic device included in the roll command finds the target mimic device from multiple mimic devices of the same type it manages, and sends an instruction to control the rollback of the target heterogeneous executive body to the target mimic device; correspondingly, the target After receiving the instruction, the mimetic device executes the instruction and rolls back the target heterogeneous executive body; in addition, the executive body management submodule can also reallocate network resources and storage computing resources, thus realizing the rollback operation of the target heterogeneous executive body , can accurately manage each mimic device.

In addition, after the target heterogeneous executive is rolled back, the target mimic device can send the rollback status of the target heterogeneous executive to the executive management submodule, so that the executive management submodule can obtain the target heterogeneous executive rollback status.

With reference to the above description, after performing the rollback operation of the target heterogeneous executable, for example, the target mimic device management module further includes a monitoring submodule.

Wherein, the execution body management sub-module is also used to send the updated state information of the target heterogeneous execution body, that is, the rollback state, to the log management module.

The monitoring sub-module is used to monitor the characteristic parameters of the target mimic device, and send the characteristic parameters to the log management module.

The log management module is used to update the state information of the target heterogeneous executive body to a rollback state, and manage the target mimic device in combination with characteristic parameters.

It can be understood that when the monitoring sub-module monitors the characteristic parameters of the target mimic device and sends the characteristic parameters to the log management module, the characteristic parameters will include the relevant parameters of each heterogeneous executive in the target mimic device.

For example, after the log management module updates the state information of the target mimic device to a rollback state, it may record the updated state information of the target mimic device, and manage the target mimic device in combination with characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target mimic device and the updated status information of the target heterogeneous executive to the operation and maintenance management module in real time, so that the operation and maintenance management module can display the target mimic device to the user through a visual interface The characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body are convenient for users to know and view the characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body in time.

It can be seen that when the rollback operation is performed on the heterogeneous executive body of the target mimic device in the mimic device cluster through the rollback operation command, the comprehensive management subsystem includes the operation and maintenance management module and the log management module, and the mimic device management subsystem includes The target mimic device management module corresponds to the type of the target mimic device, and the mimic device management module includes an executive body management sub-module. Among them, the operation and maintenance management module is used to receive the input rollback operation instruction, and find out whether the type of the target mimic device belongs to the preset mimic device type corresponding to the mimic device cluster; if the type belongs to the preset mimic device type, according to the target The identity of the mimetic device and the identity of the target heterogeneous executive check the log management module to determine whether the target heterogeneous executive is offline; and when the target heterogeneous executive is offline, report to the executive management submodule Send a rollback instruction; the executive management submodule is used to control the target heterogeneous executive to perform a rollback operation according to the rollback instruction, so as to perform rollback on the heterogeneous executive of the target mimic device in the mimic device cluster through the rollback operation instruction Operation, realizes the unified management of the mimetic device cluster.

In combination with the above-mentioned related descriptions of executing the rollback operation on the heterogeneous executive body of the target mimic device in the mimic device cluster, in the embodiment of the present invention, in order to facilitate the understanding of how to execute Rollback operation, the following will take the implementation of the rollback operation on the heterogeneous executive body a in the mimic router A in the mimic device cluster as an example, and how to perform rollback on the heterogeneous executive body of the target mimic device in the mimic device cluster The operation is illustrated with an example.

For example, refer to FIG. 6 , which is a schematic flowchart of performing a rollback operation on heterogeneous executive body a in mimetic router A in a mimetic device cluster according to an embodiment of the present invention. When performing a rollback operation, the comprehensive management subsystem includes an operation and maintenance management module and a log management module, the mimic device management subsystem includes a mimic router management module of the mimic router type, and the mimic router management module includes an executive management submodule and a monitoring submodule , for example, the monitoring submodule may be a traffic monitoring submodule. As shown in Figure 6, the process of performing a rollback operation on the heterogeneous executive body a may include:

The operation and maintenance management module receives the rollback operation instruction; wherein, the rollback operation instruction includes the type of the mimic router A, the identifier of the mimic router A, and the identifier of the heterogeneous executive body a to be rolled back in the mimic router A; and searches for the mimic router Whether the type belongs to the preset mimic device type corresponding to the mimic device cluster.

If it is determined that the type of mimic router does not belong to the preset mimic device type corresponding to the mimic device cluster, it means that the current rollback operation command is an incorrect operation command, then stop this rollback operation; on the contrary, if it is determined that the mimic router type belongs to the mimic device cluster For the corresponding preset mimic device type, the operation and maintenance management module checks the log management module according to the identifier of the mimic router A and the identifier of the heterogeneous executive a, and determines whether the heterogeneous executive a is offline.

If it is determined that the heterogeneous executive a is not in the offline state, the operation and maintenance management module sends an offline command to the executive management sub-module, and the offline command includes the identification of the mimic router A, the identification of the heterogeneous executive a, and the offline operation Type; executive body management sub-module, which is also used to control the heterogeneous executive body a to perform offline operations according to the offline command, so that the heterogeneous executive body a is in the offline state, and in the non-offline state, continue to execute the heterogeneous Execute the rollback operation of body a. It can be understood that the method of sending the offline command to the executive management sub-module here, and the execution body management sub-module controlling the heterogeneous executive a to perform the offline operation according to the offline command is the same as the above-mentioned method when the operation command is changed to be offline When operating instructions, send an offline command to the execution body management sub-module, and the method of the execution body management sub-module controlling the heterogeneous execution body a to perform offline operations according to the offline command is similar. For details, please refer to the above-mentioned control heterogeneous execution body a to execute the next Relevant descriptions about line operations are not repeated here in this embodiment of the present invention.

If it is determined that the heterogeneous executive a is offline, the operation and maintenance management module is also used to send a rollback instruction to the executive management submodule. The rollback instruction includes the identifier of the mimic router A, the identifier of the heterogeneous executable a, and the callback Scroll operation type.

After receiving the rollback instruction, the executive management sub-module first finds the mimic router A from the multiple mimic devices of the same type managed by it according to the identifier of the mimic router A included in the rollback instruction, and sends a control to the mimic router A Heterogeneous executive a rollback instruction; correspondingly, mimetic router A executes the instruction after receiving the instruction, and rolls back the heterogeneous executive a. In addition, the executive management submodule can also redistribute network resources and storage computing resources, thus implementing the rollback operation of the heterogeneous executive body a. In addition, after the mimic router A rolls back the heterogeneous executive a, it can send the rollback status of the heterogeneous executive a to the executive management submodule, so that the executive management submodule can obtain the heterogeneous executive a rollback status.

The executive management sub-module sends the rollback state of the heterogeneous executive a to the log management module; the traffic monitoring sub-module monitors the characteristic parameters of the mimic router A, and sends the characteristic parameters to the log management module.

The log management module updates the state information of the target heterogeneous executive body to the rollback state, and manages the target mimic device in combination with the characteristic parameters, which can end the related operations of the heterogeneous executive body a in the mimic router A, and through the operation and maintenance management The module displays the characteristic parameters of the mimic router A and the updated state information of the heterogeneous executive a to the user on the visualization plane, so that the user can know and view the characteristic parameters of the mimic router A and the updated status information of the heterogeneous executive a in time. .

For example, in another case, when the change operation instruction may include the activation operation type, the activation operation instruction also includes the identification of the target heterogeneous executable to be activated in the target mimic device and the activation operation type; correspondingly, The comprehensive management subsystem includes an operation and maintenance management module and a log management module, the mimic device management subsystem includes a target mimic device management module corresponding to the type of target mimic device, and the mimic device management module includes an executive body management submodule. Exemplarily, the method for the management system of the mimic device cluster to realize unified management of the mimic device cluster through the comprehensive management subsystem and the mimic device management module may include:

The operation and maintenance management module is used to receive the input activation operation instruction, the activation operation instruction includes the type and identification of the target mimic device to be operated, the identification of the target heterogeneous executive body to be activated in the target mimic device; and find the target mimic device Whether the type belongs to the preset mimic device type corresponding to the mimic device cluster.

If the determined type does not belong to the preset mimic device type corresponding to the mimic device cluster, it means that the current activation operation command is a wrong operation command, and this activation operation will be stopped; on the contrary, if the determined type belongs to the preset mimic device type corresponding to the mimic device cluster The device type refers to the operation and maintenance management module, which is also used to check the log management module according to the identification of the target mimic device and the identification of the target heterogeneous execution body, and judge whether the target heterogeneous execution body is in the running state.

If it is determined that the target heterogeneous executor is in the running state, the activation operation is ended; if it is determined that the target heterogeneous executor is in the non-running state, the operation and maintenance management module is also used to send an activation command to the executive body management sub-module, and the activation command Including the identification of the target mimic device, the identification of the target heterogeneous executive body, and the activation operation type.

The executive management sub-module is used to control the target heterogeneous executive to execute the activation operation according to the activation instruction.

For example, the activation operation instruction may be a single instruction, or may be a script instruction, and the script instruction may change multiple mimic devices or multiple heterogeneous execution bodies concurrently.

For example, after the operation and maintenance management module receives the input activation operation instruction, it may analyze the activation operation instruction to extract the activation operation instruction from the activation operation instruction, including the type and identification of the target mimic device to be operated, the target mimic device The identity of the target heterogeneous executive to be activated in .

For example, since the executive management submodule manages multiple mimic devices of the same type as the target mimic device, when the executive management submodule controls the target heterogeneous executable to perform the activation operation according to the activation instruction, it may first The identity of the included target mimic device finds the target mimic device from multiple mimic devices of the same type it manages, and sends an instruction to control the activation of the target heterogeneous executive body to the target mimic device; correspondingly, the target mimic device receives Execute this instruction after the instruction to activate the target heterogeneous executive body, thereby realizing the activation operation of the target heterogeneous executive body and accurately managing each mimetic device.

In addition, after the target mimic device activates the target heterogeneous executive, it can send the activation status of the target heterogeneous executive to the executive management submodule, so that the executive management submodule can obtain the activation of the target heterogeneous executive state.

With reference to the above description, after the activation operation of the target heterogeneous executable is performed, for example, the target mimic device management module further includes a monitoring submodule.

Wherein, the execution body management sub-module is also used to send the updated state information of the target heterogeneous execution body, that is, the activation state, to the log management module.

The monitoring sub-module is used to monitor the characteristic parameters of the target mimic device, and send the characteristic parameters to the log management module.

The log management module is used to update the state information of the target heterogeneous executive body to an active state, and manage the target mimic device in combination with characteristic parameters.

It can be understood that when the monitoring sub-module monitors the characteristic parameters of the target mimic device and sends the characteristic parameters to the log management module, the characteristic parameters will include the relevant parameters of each heterogeneous executive in the target mimic device.

For example, after the log management module updates the state information of the target mimic device to an activated state, it may record the updated state information of the target mimic device, and manage the target mimic device in combination with characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target mimic device and the updated status information of the target heterogeneous executive to the operation and maintenance management module in real time, so that the operation and maintenance management module can display the target mimic device to the user through a visual interface The characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body are convenient for users to know and view the characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body in time.

It can be seen that when the activation operation is performed on the heterogeneous executive body of the target mimic device in the mimic device cluster through the activation operation command, the comprehensive management subsystem includes the operation and maintenance management module and the log management module, and the mimic device management subsystem includes the target mimic device The target mimic device management module corresponds to the device type, and the mimic device management module includes an executive body management sub-module. Among them, the operation and maintenance management module is used to receive the input activation operation instruction, and find out whether the type of the target mimic device belongs to the preset mimic device type corresponding to the mimic device cluster; if the type belongs to the preset mimic device type, according to the target mimic Check the log management module for the identification of the device and the identification of the target heterogeneous execution body, and judge whether the target heterogeneous execution body is in the running state; and when the target heterogeneous execution body is in the non-running state, send activation to the execution body management sub-module instruction; the executive body management sub-module is used to control the target heterogeneous executive body to perform the activation operation according to the activation instruction, so that the activation operation instruction is executed on the heterogeneous executive body of the target mimetic device in the mimetic device cluster, and the mimetic device is realized Unified management of the cluster.

In combination with the above-mentioned relevant descriptions of the activation operation performed on the heterogeneous executive body of the target mimic device in the mimic device cluster, in the embodiment of the present invention, in order to facilitate the understanding of how to perform activation on the heterogeneous executive body of the target mimic device in the mimic device cluster Operation, the following will take the activation operation on the heterogeneous executive body a in the mimic router A in the mimic device cluster as an example to illustrate how to perform the activation operation on the heterogeneous executive body of the target mimic device in the mimic device cluster .

For example, refer to FIG. 7 , which is a schematic flowchart of an activation operation for heterogeneous executive body a in mimic router A in a mimic device cluster according to an embodiment of the present invention. When executing heterogeneous executive body a When the operation is activated, the comprehensive management subsystem includes the operation and maintenance management module and the log management module, the mimic device management subsystem includes the mimic router management module of the mimic router type, and the mimic router management module includes the executive management sub-module and the monitoring sub-module, for example Alternatively, the monitoring submodule may be a traffic monitoring submodule. As shown in FIG. 7 , the process of activating the heterogeneous executive body a may include:

The operation and maintenance management module receives the activation operation instruction; wherein, the activation operation instruction includes the type of the mimic router A, the identifier of the mimic router A, and the identifier of the heterogeneous executive body a to be activated in the mimic router A; and finds whether the mimic router type belongs to The default mimic device type corresponding to the mimic device cluster.

If it is determined that the type of mimic router does not belong to the preset mimic device type corresponding to the mimic device cluster, it means that the current activation operation command is a wrong operation command, then stop this activation operation; on the contrary, if it is determined that the type of mimic router belongs to the corresponding mimic device cluster The preset mimic device type, the operation and maintenance management module checks the log management module according to the identifier of the mimic router A and the identifier of the heterogeneous executive a, and judges whether the heterogeneous executive a is in the running state.

If it is determined that the heterogeneous execution body a is in the running state, the activation operation is ended; if it is determined that the heterogeneous execution body a is in the non-running state, the operation and maintenance management module is also used to send an activation command to the execution body management sub-module, and the activation command Including the identity of the mimic router A, the identity of the heterogeneous executive body a, and the activation operation type.

After the executive management sub-module receives the activation instruction, it first finds the mimic router A from the multiple mimic devices of the same type managed by it according to the identifier of the mimic router A included in the activation instruction, and sends a control isomorphic router A to the mimic router A An instruction to activate the execution body a; correspondingly, the mimic router A executes the instruction after receiving the instruction, and activates the heterogeneous execution body a, thereby realizing the activation operation of the heterogeneous execution body a. In addition, after the mimic router A activates the heterogeneous executive a, it can send the activation status of the heterogeneous executive a to the executive management submodule, so that the executive management submodule can obtain the activation of the heterogeneous executive a state.

The executive management sub-module sends the activation state of the heterogeneous executive a to the log management module; the flow monitoring sub-module monitors the characteristic parameters of the mimic router A, and sends the characteristic parameters to the log management module.

The log management module updates the state information of the target heterogeneous executive body to the active state, and manages the target mimic device in combination with characteristic parameters, which can end the related operations of the heterogeneous executive body a in the mimic router A, and pass the operation and maintenance management module The characteristic parameters of the mimic router A and the updated state information of the heterogeneous execution body a are displayed to the user on the visualization plane, so that the user can know and view the characteristic parameters of the mimic router A and the updated state information of the heterogeneous execution body a in time.

For example, in another case, when the change operation instruction may include the startup operation type, the startup operation instruction also includes the identification of the target heterogeneous executable to be started in the target mimic device and the startup operation type; correspondingly, The integrated management subsystem includes an operation and maintenance management module and a log management module. The mimic device management subsystem includes a target mimic device management module corresponding to the type of the target mimic device, and the mimic device management module includes an executive body management module. Exemplarily, the method for the management system of the mimic device cluster to realize unified management of the mimic device cluster through the integrated management subsystem and the mimic device management module may include:

The operation and maintenance management module is used to receive the input startup operation instruction, the startup operation instruction includes the type and identification of the target mimic device to be operated, and the identifier of the target heterogeneous executive body to be started in the target mimic device; and search for the target mimic device Whether the type belongs to the preset mimic device type corresponding to the mimic device cluster.

If the determined type does not belong to the preset mimic device type corresponding to the mimic device cluster, it means that the current startup operation command is a wrong operation command, and this startup operation will be stopped; on the contrary, if the determined type belongs to the preset mimic device type corresponding to the mimic device cluster The device type refers to the operation and maintenance management module, which is also used to check the log management module according to the identification of the target mimic device and the identification of the target heterogeneous execution body, and judge whether the target heterogeneous execution body is in the running state.

If it is determined that the target heterogeneous executor is in the running state, the start-up operation is ended; if it is determined that the target heterogeneous executor is in the non-running state, the operation and maintenance management module is also used to send the start command to the execution body management sub-module, and the start command Including the identity of the target mimic device, the identity of the target heterogeneous executive, and the type of start operation.

The executive management sub-module is used to control the target heterogeneous executable to execute the startup operation according to the startup instruction.

For example, the start operation instruction may be a single instruction, or may be a script instruction, and the script instruction may change multiple mimic devices or multiple heterogeneous execution bodies concurrently.

For example, after the operation and maintenance management module receives the input startup operation instruction, it can analyze the startup operation instruction to extract the startup operation instruction from the startup operation instruction, including the type and identification of the target mimic device to be operated, and the target mimic device The identifier of the target heterogeneous executable to be started in .

For example, since the executive management submodule will manage multiple mimic devices of the same type as the target mimic device, when the executive management submodule controls the target heterogeneous executable to execute the startup operation according to the startup instruction, it may first The identity of the included target mimic device finds the target mimic device from multiple mimic devices of the same type it manages, and sends an instruction to the target mimic device to control the startup of the target heterogeneous executive, and allocates Network resources and storage computing resources; correspondingly, the target mimic device executes the command after receiving the command, and starts the target heterogeneous executive body, thereby realizing the startup operation of the target heterogeneous executive body and accurately managing each mimic device .

In addition, after the target heterogeneous executor starts the operation, the target mimic device can send the start status of the target heterogeneous executor to the executive management submodule, so that the executor management submodule can obtain the start of the target heterogeneous executor. state.

With reference to the above description, after the start operation of the target heterogeneous executable is executed, for example, the target mimic device management module further includes a monitoring submodule.

Wherein, the execution body management sub-module is also used to send the updated state information of the target heterogeneous execution body, that is, the startup state, to the log management module.

The monitoring sub-module is used to monitor the characteristic parameters of the target mimic device, and send the characteristic parameters to the log management module.

The log management module is used to update the state information of the target heterogeneous executive body to the startup state, and manage the target mimic device in combination with characteristic parameters.

It can be understood that when the monitoring sub-module monitors the characteristic parameters of the target mimic device and sends the characteristic parameters to the log management module, the characteristic parameters will include the relevant parameters of each heterogeneous executive in the target mimic device.

For example, after the log management module updates the status information of the target mimic device to the startup status, it may record the updated status information of the target mimic device, and manage the target mimic device in combination with characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target mimic device and the updated status information of the target heterogeneous executive to the operation and maintenance management module in real time, so that the operation and maintenance management module can display the target mimic device to the user through a visual interface The characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body are convenient for users to know and view the characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body in time.

It can be seen that when the start-up operation is performed on the heterogeneous executive body of the target mimic device in the mimic device cluster through the start operation command, the comprehensive management subsystem includes the operation and maintenance management module and the log management module, and the mimic device management subsystem includes the target mimic device The target mimic device management module corresponds to the device type, and the mimic device management module includes an executive body management sub-module. Among them, the operation and maintenance management module is used to receive the input startup operation instruction, and find out whether the type of the target mimic device belongs to the preset mimic device type corresponding to the mimic device cluster; Check the log management module for the identification of the device and the identification of the target heterogeneous execution body, and judge whether the target heterogeneous execution body is in the running state; and when the target heterogeneous execution body is in the non-running state, send the start instruction; the executive body management sub-module is used to control the target heterogeneous executive body to perform the start-up operation according to the start-up instruction, so that the start-up operation is performed on the heterogeneous executive body of the target mimetic device in the mimetic device cluster through the start-up operation command, and the mimetic device is realized Unified management of the cluster.

In combination with the above-mentioned related descriptions about the startup operation of the heterogeneous executive body of the target mimic device in the mimic device cluster, in the embodiment of the present invention, in order to facilitate the understanding of how to execute the startup operation for the heterogeneous executable body of the target mimic device in the mimic device cluster Operation, in the following, we will take the startup operation of the heterogeneous executive body a in the mimic router A in the mimic device cluster as an example to illustrate how to execute the startup operation on the heterogeneous execution body of the target mimic device in the mimic device cluster .

For example, refer to FIG. 8 , which is a schematic flow diagram of a startup operation for heterogeneous executive body a in mimic router A in a mimic device cluster provided by an embodiment of the present invention. When executing heterogeneous executive body a When starting the operation, the comprehensive management subsystem includes the operation and maintenance management module and the log management module, the mimic device management subsystem includes the mimic router management module of the mimic router type, and the mimic router management module includes the executive body management sub-module and the monitoring sub-module, for example Alternatively, the monitoring submodule may be a flow monitoring submodule. As shown in FIG. 8 , the process of starting the heterogeneous executive body a may include:

The operation and maintenance management module receives the startup operation instruction; wherein, the startup operation instruction includes the type of the mimic router A, the identifier of the mimic router A, and the identifier of the heterogeneous executive body a to be started in the mimic router A; and finds whether the mimic router type belongs to The default mimic device type corresponding to the mimic device cluster.

If it is determined that the type of mimic router does not belong to the preset mimic device type corresponding to the mimic device cluster, it means that the current startup operation command is a wrong operation command, then stop the startup operation; on the contrary, if it is determined that the mimic router type belongs to the corresponding mimic device cluster The preset mimic device type, the operation and maintenance management module checks the log management module according to the identifier of the mimic router A and the identifier of the heterogeneous executive a, and judges whether the heterogeneous executive a is in the running state.

If it is determined that the heterogeneous execution body a is in the running state, then end the startup operation; if it is determined that the heterogeneous execution body a is in the non-running state, the operation and maintenance management module is also used to send the startup command to the execution body management sub-module, and the startup command Including the identity of the mimic router A, the identity of the heterogeneous executive body a, and the start operation type.

After the executive management sub-module receives the startup command, it first finds the mimic router A from the multiple mimic devices of the same type managed by it according to the identifier of the mimic router A included in the startup command, and sends a control isomorphic router A to the mimic router A Executor a starts the instruction, and allocates network resources and storage and computing resources for heterogeneous executive a; correspondingly, mimetic router A executes the instruction after receiving the instruction, and starts heterogeneous executive a, thereby realizing heterogeneous Execute the start operation of body a. In addition, after the mimic router A starts the heterogeneous executive a, it can send the start status of the heterogeneous executive a to the executive management submodule, so that the executive management submodule can obtain the start of the heterogeneous executive a state.

The execution body management sub-module sends the startup status of the heterogeneous execution body a to the log management module; the traffic monitoring sub-module monitors the characteristic parameters of the mimic router A, and sends the characteristic parameters to the log management module.

The log management module updates the state information of the target heterogeneous executive body to the start state, and manages the target mimic device in combination with the characteristic parameters, which can end the related operations of the heterogeneous executive body a in the mimic router A, and pass the operation and maintenance management module The characteristic parameters of the mimic router A and the updated state information of the heterogeneous execution body a are displayed to the user on the visualization plane, so that the user can know and view the characteristic parameters of the mimic router A and the updated state information of the heterogeneous execution body a in time.

Exemplarily, in another case, when the change operation instruction may include the restart operation type, the restart operation instruction also includes the identity of the target heterogeneous execution body to be restarted in the target mimic device and the restart operation type; correspondingly, The comprehensive management subsystem includes an operation and maintenance management module and a log management module, the mimic device management subsystem includes a target mimic device management module corresponding to the type of target mimic device, and the mimic device management module includes an executive body management submodule. Exemplarily, the method for the management system of the mimic device cluster to realize unified management of the mimic device cluster through the comprehensive management subsystem and the mimic device management module may include:

The operation and maintenance management module is used to receive an input restart operation instruction, the restart operation instruction includes the type and identifier of the target mimic device to be operated, the identifier of the target heterogeneous executive body to be restarted in the target mimic device; and find the target mimic device Whether the type belongs to the preset mimic device type corresponding to the mimic device cluster.

If the determined type does not belong to the preset mimic device type corresponding to the mimic device cluster, it means that the current restart operation command is a wrong operation command, and this restart operation will be stopped; on the contrary, if the determined type belongs to the preset mimic device type corresponding to the mimic device cluster The device type refers to the operation and maintenance management module, which is also used to check the log management module according to the identification of the target mimic device and the identification of the target heterogeneous execution body, and judge whether the target heterogeneous execution body is in the running state.

If it is determined that the target heterogeneous executor is in the non-running state, the start operation of the target heterogeneous executor is executed. The method is similar to the above-mentioned method of controlling the start of the target heterogeneous executor when the operation command is changed to a start operation command. For details, see The above-mentioned relevant descriptions are not repeated in this embodiment of the present invention, and after the control target heterogeneous executable is started, there is no need to perform this restart operation.

If it is determined that the target heterogeneous executable is in the running state, the operation and maintenance management module is further configured to send a restart instruction to the executive management submodule, and the restart instruction includes the identifier of the target mimic device, the identifier of the target heterogeneous executable, and the restart operation type.

The executive body management sub-module is used to control the target heterogeneous executive body to execute the restart operation according to the restart instruction.

For example, the restart operation instruction may be a single instruction, or may be a script instruction, and the script instruction may concurrently change multiple mimic devices or multiple heterogeneous execution bodies.

For example, after the operation and maintenance management module receives the input restart operation instruction, it can analyze the restart operation instruction to extract the restart operation instruction from the restart operation instruction, including the type and identification of the target mimic device to be operated, the target mimic device The identifier of the target heterogeneous executable to be restarted in .

For example, since the executive body management submodule will manage multiple mimic devices of the same type as the target mimic device, when the executive body management submodule controls the target heterogeneous The identity of the included target mimic device finds the target mimic device from multiple mimic devices of the same type it manages, and sends an instruction to the target mimic device to control the restart of the target heterogeneous executive body; correspondingly, the target mimic device receives Execute this command after this command to restart the target heterogeneous executable, thus realizing the restart operation of the target heterogeneous executable and accurately managing each mimic device.

In addition, after restarting the target heterogeneous execution body, the target mimic device can send the restart status of the target heterogeneous execution body to the execution body management sub-module, so that the execution body management sub-module can obtain the restart of the target heterogeneous execution body state.

With reference to the above description, after the restart operation of the target heterogeneous executable is performed, for example, the target mimic device management module further includes a monitoring submodule.

Wherein, the execution body management sub-module is also used to send the updated state information of the target heterogeneous execution body, that is, the restart state, to the log management module.

The monitoring sub-module is used to monitor the characteristic parameters of the target mimic device, and send the characteristic parameters to the log management module.

The log management module is used to update the state information of the target heterogeneous execution body to the restart state, and manage the target mimic device in combination with characteristic parameters.

It can be understood that when the monitoring sub-module monitors the characteristic parameters of the target mimic device and sends the characteristic parameters to the log management module, the characteristic parameters will include the relevant parameters of each heterogeneous executive in the target mimic device.

For example, after the log management module updates the state information of the target mimic device to the restart state, it may record the updated state information of the target mimic device, and manage the target mimic device in combination with characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target mimic device and the updated status information of the target heterogeneous executive to the operation and maintenance management module in real time, so that the operation and maintenance management module can display the target mimic device to the user through a visual interface The characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body are convenient for users to know and view the characteristic parameters of the target mimic device and the updated state information of the target heterogeneous execution body in time.

It can be seen that when the restart operation is performed on the heterogeneous executive body of the target mimic device in the mimic device cluster through the restart operation command, the comprehensive management subsystem includes the operation and maintenance management module and the log management module, and the mimic device management subsystem includes the target mimic device The target mimic device management module corresponds to the device type, and the mimic device management module includes an executive body management sub-module. Among them, the operation and maintenance management module is used to receive the input restart operation command, and find out whether the type of the target mimic device belongs to the preset mimic device type corresponding to the mimic device cluster; The identification of the device and the identification of the target heterogeneous executive check the log management module to determine whether the target heterogeneous executive is in the running state; and when the target heterogeneous executive is in the running state, send a restart command to the executive management sub-module ; The executive body management sub-module is used to control the target heterogeneous executive body to perform a restart operation according to the restart instruction, so that the restart operation is performed on the heterogeneous executive body of the target mimetic device in the mimetic device cluster through the restart operation command, and the mimetic device cluster is realized. unified management.

In combination with the above-mentioned related descriptions on the restart operation of the heterogeneous execution body of the target mimic device in the mimic device cluster, in the embodiment of the present invention, in order to facilitate the understanding of how to restart the heterogeneous execution body of the target mimic device in the mimic device cluster Operation, the following will take the restart operation of the heterogeneous executive body a in the mimic router A in the mimic device cluster as an example to illustrate how to perform the restart operation on the heterogeneous executive body of the target mimic device in the mimic device cluster .

For example, refer to FIG. 9 , which is a schematic flow diagram of performing a restart operation on heterogeneous executive body a in mimic router A in a mimic device cluster according to an embodiment of the present invention. When restarting the operation, the comprehensive management subsystem includes the operation and maintenance management module and the log management module, the mimic device management subsystem includes the mimic router management module of the mimic router type, and the mimic router management module includes the executive body management sub-module and the monitoring sub-module, for example Alternatively, the monitoring submodule may be a flow monitoring submodule. As shown in Figure 9, the process of restarting the heterogeneous executive body a may include:

The operation and maintenance management module receives the restart operation instruction; wherein, the restart operation instruction includes the type of the mimic router A, the identifier of the mimic router A, and the identifier of the heterogeneous executive body a to be restarted in the mimic router A; and finds whether the mimic router type belongs to The default mimic device type corresponding to the mimic device cluster.

If it is determined that the type of mimic router does not belong to the preset mimic device type corresponding to the mimic device cluster, it means that the current restart operation command is an incorrect operation command, and the restart operation will be stopped; on the contrary, if it is determined that the mimic router type belongs to the corresponding mimic device cluster The preset mimic device type, the operation and maintenance management module checks the log management module according to the identifier of the mimic router A and the identifier of the heterogeneous executive a, and judges whether the heterogeneous executive a is in the running state.

If it is determined that the heterogeneous executive a is in the non-running state, then execute the start operation of the heterogeneous executive a. The method is similar to the above-mentioned method of controlling the heterogeneous executive a when the operation command is changed to a start operation command. Please refer to the above Relevant descriptions, here, the embodiment of the present invention will not go into details, and after the heterogeneous execution body a is controlled to start, there is no need to perform the restart operation this time.

If it is determined that the heterogeneous execution body a is in the running state, the operation and maintenance management module is also used to send a restart instruction to the execution body management sub-module. The restart instruction includes the identification of the mimic router A, the identification of the heterogeneous execution body a, and the restart operation type.

After the executive management sub-module receives the restart command, it first finds the mimic router A from the multiple mimic devices of the same type managed by it according to the identifier of the mimic router A included in the restart command, and sends a control isomorphic router A to the mimic router A An instruction to restart the execution body a; correspondingly, the mimetic router A executes the instruction after receiving the instruction, and restarts the heterogeneous execution body a, thereby realizing the restart operation of the heterogeneous execution body a. In addition, after the mimic router A restarts the heterogeneous execution body a, it can send the restart status of the heterogeneous execution body a to the execution body management sub-module, so that the execution body management sub-module can obtain the restart of the heterogeneous execution body a state.

The execution body management sub-module sends the restart status of the heterogeneous execution body a to the log management module; the flow monitoring sub-module monitors the characteristic parameters of the mimic router A, and sends the characteristic parameters to the log management module.

The log management module updates the state information of the target heterogeneous executive body to the restart state, and manages the target mimic device in combination with characteristic parameters, which can end the related operations of the heterogeneous executive body a in the mimic router A, and through the operation and maintenance management module The characteristic parameters of the mimic router A and the updated state information of the heterogeneous execution body a are displayed to the user on the visualization plane, so that the user can know and view the characteristic parameters of the mimic router A and the updated state information of the heterogeneous execution body a in time.

For example, in another scenario, when the operation instruction includes a delete operation instruction, the corresponding comprehensive management subsystem includes an operation and maintenance management module, a log management module, and a network resource management module; the mimic device management subsystem includes a preset mimic device A mimic device management module corresponding to the type, and the mimic device management module includes an executive body management sub-module. Exemplarily, the method for the management system of the mimic device cluster to delete the target mimic device through the integrated management subsystem and the mimic device management module can be referred to as shown in FIG. 10 . Schematic diagram of the process of deleting the mimic device to realize unified management of the mimic device cluster through the integrated management subsystem and the mimic device management subsystem.

The operation and maintenance management module is used to receive the input delete operation instruction, the delete operation instruction includes the type and identification of the target mimic device to be operated, and finds whether the type belongs to the preset mimic device type corresponding to the mimic device cluster; When the type belongs to the default mimic device type, check the log management module according to the target mimic device identifier to determine whether the target mimic device is included in the mimic devices managed by the mimic device management subsystem.

The network resource module is further configured to reclaim the external network resources allocated for the target mimic device when the operation and maintenance management module determines that the target mimic device is included.

The executive management sub-module is also used to reclaim the internal network resources allocated for the heterogeneous executive of the target mimic device and close the session with the target mimic device when the operation and maintenance management module determines that the target mimic device is included.

For example, after receiving the input delete operation instruction, the operation and maintenance management module may parse the delete operation instruction to extract the type and identifier of the target mimic device to be deleted from the delete operation instruction.

Exemplarily, the operation and maintenance management module checks the log management module according to the identification of the target mimic device, and judges whether the target mimic device is included in the mimic devices managed by the mimic device management subsystem, and sends a report to the network resource management module if it is determined that the target mimic device is included. Send a deletion command with the executive body management submodule, the deletion command includes the identification of the target mimic device, so that the network resource management module reclaims the external network resources allocated for the target mimic device according to the delete command, and the executive body management submodule reclaims as The heterogeneous execution body of the target mimic device allocates internal network resources, and closes the session with the target mimic device, so as to delete the target mimic device from the cluster of mimic devices.

It can be seen that when the mimic device cluster is updated through the delete operation instruction, the operation and maintenance management module receives the input delete operation instruction, and finds whether the type of the target mimic device belongs to the preset mimic device type corresponding to the mimic device cluster; and determines When the type of the target mimic device belongs to the preset type of mimic device, check the log management module according to the identification of the target mimic device, and judge whether the target mimic device is included in the mimic devices managed by the mimic device management subsystem; the network resource module is also used to When the operation and maintenance management module determines that the target mimic device is included, recycle the external network resources allocated for the target mimic device; the executive management sub-module is also used to recycle the target mimic device when the operation and maintenance management module determines that the target mimic device is included The internal network resources allocated by the heterogeneous executive body of the target mimic device, and the session with the target mimic device is closed to delete the target mimic device from the cluster of mimic devices, thereby updating the cluster of mimic devices by deleting operation instructions, realizing Unified management of mimic device clusters.

In addition, the executive management sub-module is also used to send the deletion success status information of the target mimic device to the log management module; correspondingly, the log management module is used to update the status information of the target mimic device to the status information of the target mimic device according to the deletion success status information. delete status.

For example, after the log management module updates the status information of the target mimic device to the deleted status, it may record the updated status information of the target mimic device. In addition, the log management module can also transmit the updated status information of the target mimic device to the operation and maintenance management module in real time, so that the operation and maintenance management module can display the updated status information of the target mimic device to the user through a visual interface, which is convenient for users Keep abreast of and view the updated status information of the target mimic device.

It should be noted that the above-mentioned management method of the mimic device cluster provided by the embodiment of the present invention can also be applied to the management of common device clusters, and only needs to change multiple heterogeneous executive bodies in the mimic device into one executive body. When applied to the management of a common device cluster, its implementation method is similar to the above-mentioned management method of a mimetic device cluster, which will not be repeated in this embodiment of the present invention.

The following describes the management method of the mimic device cluster provided by the present invention, and the management method of the mimic device cluster described below and the management system of the mimic device cluster described above can be referred to in correspondence.

Fig. 11 is a schematic flowchart of a management method for a mimic device cluster provided by an embodiment of the present invention, which is applied to the above-mentioned management system for a mimic device cluster, and the management system for a mimic device cluster includes an integrated management subsystem and a mimic device management subsystem. For an example, please refer to FIG. 11, the management method of the mimetic device cluster may include:

S1101. Receive an input operation instruction through the integrated management subsystem; wherein the operation instruction includes the type and identification of the target mimic device to be operated, and the operation instruction includes at least one of an access operation instruction, a change operation instruction or a deletion operation instruction.

S1102. Check whether the type belongs to the preset mimic device type corresponding to the mimic device cluster through the integrated management subsystem.

S1103. According to the search result, the integrated management subsystem triggers the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instruction, so as to manage the mimic devices in the mimic device cluster.

For example, the operation instruction includes an access operation instruction, and the integrated management subsystem triggers the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instruction according to the search result, including:

Through the network resource management module in the comprehensive management subsystem, when the operation and maintenance management module in the comprehensive management subsystem determines that the type belongs to the preset mimic device type, allocate external network resources for the target mimic device.

The executive submodule in the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem allocates internal network resources for the heterogeneous executives in the target mimic device, so that the target mimic device is based on external network resources and internal network resources are connected to the mimetic device cluster.

Exemplarily, the management method of the mimic device cluster further includes:

Send the access success status information of the target mimic device to the log management module in the integrated management subsystem through the executive management submodule.

The characteristic parameters of the target mimic device are monitored through the monitoring sub-module in the mimic device management subsystem, and the characteristic parameters are sent to the log management module.

The log management module updates the status information of the target mimic device to the connected status according to the access success status information, and manages the target mimic device in combination with characteristic parameters.

Exemplarily, the management method of the mimic device cluster further includes:

When the operation and maintenance management module determines that the type does not belong to the preset mimic device type through the standardization module in the comprehensive management subsystem, a mimic device management module corresponding to the type is added to the mimic device management subsystem.

Set the characteristic parameters corresponding to the type of mimic device through the monitoring sub-module.

Exemplarily, the operation instruction includes a change operation instruction, and the change operation instruction also includes the identification of the target heterogeneous execution body to be changed in the target mimic device and the type of the change operation, and the mimic device management subsystem is triggered by the comprehensive management subsystem according to the search result Perform corresponding operations on the target mimic device according to the operation instructions, including:

Through the operation and maintenance management module in the comprehensive management subsystem, when the type belongs to the preset mimic device type, check the log management module in the comprehensive management subsystem according to the identification of the target mimic device and the identification of the target heterogeneous executive body, and judge the target Whether the heterogeneous executive is in the default state; the default state is the offline state or the running state.

According to the judgment result, the operation and maintenance management module sends a change instruction to the executive body management submodule in the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem, and the change command includes the identification of the target mimic device, the target The identity of the struct executive and the type of change operation.

Control the target heterogeneous executive body to perform corresponding change operations according to the change instruction through the executive body management sub-module.

For example, the type of the change operation is the offline operation type, and the preset state is the offline state; wherein, according to the judgment result, the operation and maintenance management module manages the mimicking device corresponding to the type of the target mimicking device included in the mimicking device management subsystem The executive management submodule in the module sends change instructions, including:

When the target heterogeneous executable is not offline, the operation and maintenance management module sends an offline command to the executive management sub-module. The offline command includes the identification of the target mimic device, the identification of the target heterogeneous The type of line operation.

Correspondingly, the target heterogeneous executable is controlled to perform corresponding change operations according to the change instruction through the executive management submodule, including:

The target heterogeneous executable is controlled by the executive management sub-module to perform the offline operation according to the offline instruction.

Exemplarily, the management method of the mimic device cluster further includes:

The internal network resources allocated for the target heterogeneous executive are reclaimed through the executive management sub-module, and the internal network resources are used to allocate to the new heterogeneous executive when a new heterogeneous executive comes online in the target mimic device.

Exemplarily, the type of the change operation includes the rollback operation type, and the preset state is the offline state; wherein, according to the judgment result, the operation and maintenance management module manages the mimetic device corresponding to the type of the target mimetic device included in the mimetic device management subsystem The executive management submodule in the module sends change instructions, including:

When the target heterogeneous executive is offline, the operation and maintenance management module sends a rollback command to the executive management submodule. The rollback command includes the identification of the target mimic device, the identification of the target heterogeneous executive, and rollback Action type.

Correspondingly, the target heterogeneous executable is controlled to perform corresponding change operations according to the change instruction through the executive management submodule, including:

The target heterogeneous executable is controlled to perform a rollback operation according to the rollback instruction through the executive management submodule.

Exemplarily, the management method of the mimic device cluster further includes:

When the target heterogeneous executable is not offline, the operation and maintenance management module sends an offline command to the executive management sub-module. The offline command includes the identification of the target mimic device, the identification of the target heterogeneous The type of line operation.

The target heterogeneous executable is controlled by the executive management sub-module to perform the offline operation according to the offline instruction.

Exemplarily, the type of change operation includes the type of activation operation and/or the type of startup operation, and the preset state is the running state; wherein, the operation and maintenance management module corresponds to the type of the target mimic device included in the mimic device management subsystem according to the judgment result The executive management submodule in the mimic device management module sends change instructions, including:

When the target heterogeneous executive is not running, the operation and maintenance management module sends a change instruction to the executive management sub-module. The change instruction includes the identification of the target mimic device, the identification of the target heterogeneous executive, and the type of the change operation .

Correspondingly, the target heterogeneous executable is controlled to perform corresponding change operations according to the change instruction through the executive management submodule, including:

Control the target heterogeneous executive body to perform the change operation according to the change instruction through the executive body management sub-module.

Exemplarily, the type of the change operation includes the restart operation type, and the preset state is the running state; wherein, according to the judgment result, the operation and maintenance management module sends to the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem The executive management submodule sends change instructions, including:

When the target heterogeneous executable is in the running state, the operation and maintenance management module sends a restart command to the executive management sub-module. The restart command includes the target mimic device identification, the target heterogeneous execution target identification and the restart operation type.

Correspondingly, the target heterogeneous executable is controlled to perform corresponding change operations according to the change instruction through the executive management submodule, including:

The target heterogeneous executable is controlled to execute the restart operation according to the restart instruction through the executive management sub-module.

Exemplarily, the management method of the mimic device cluster further includes:

Send the updated state information of the target heterogeneous executive to the log management module through the executive management sub-module.

The monitoring sub-module in the mimetic device management module corresponding to the type of the target mimetic device included in the mimetic device management subsystem monitors the characteristic parameters of the target mimetic device, and sends the characteristic parameters to the log management module.

The status information of the target heterogeneous executive is updated to the updated status information through the log management module, and the target mimic device is managed in combination with characteristic parameters.

For example, the operation instruction includes a delete operation instruction, and the integrated management subsystem triggers the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instruction according to the search result, including:

Through the operation and maintenance management module in the mimic device management subsystem, when the type belongs to the preset mimic device type, check the log management module in the mimic device management subsystem according to the identification of the target mimic device, and judge the management status of the mimic device management subsystem Whether to include the target mimic device in the mimic device.

Through the network resource module in the mimic device management subsystem, when the operation and maintenance management module determines that the target mimic device is included, the external network resources allocated for the target mimic device are recovered.

The executive management submodule in the mimic device management module corresponding to the type of the target mimic device included in the mimic device management subsystem recycles as a heterogeneous executable of the target mimic device when the operation and maintenance management module determines that the target mimic device is included Allocate internal network resources and close the session with the target mimic device.

Exemplarily, the management method of the mimic device cluster further includes:

The deletion success status information of the target mimic device is sent to the log management module through the executive management submodule.

The status information of the target mimic device is updated to a deleted status through the log management module according to the deleted status information.

The implementation principle and beneficial effect of the management method of the mimic device cluster provided by the embodiment of the present invention are similar to the implementation principle and beneficial effect of the above-mentioned management system of the mimic device cluster. Please refer to the implementation principle and beneficial effect of the management system of the mimic device cluster. No further details will be given here.

FIG. 12 illustrates a schematic diagram of the physical structure of an electronic device. As shown in FIG. 12 , the electronic device may include: a processor (processor) 1210, a communication interface (Communications Interface) 1220, a memory (memory) 1230 and a communication bus 1240, Wherein, the processor 1210 , the communication interface 1220 , and the memory 1230 communicate with each other through the communication bus 1240 . The processor 1210 can call the logic instructions in the memory 1230 to execute the management method of the mimic device cluster, which is applied to the above-mentioned management system of the mimic device cluster, and the management system of the mimic device cluster includes an integrated management subsystem and a mimic device management subsystem , the method includes: receiving an input operation instruction through the integrated management subsystem; wherein, the operation instruction includes the type and identification of the target mimic device to be operated, and the operation instruction includes an access operation instruction and/or a change operation instruction; through the integrated management subsystem The system checks whether the type belongs to the preset mimic device type corresponding to the mimic device cluster; through the comprehensive management subsystem, according to the search result, the mimic device management subsystem is triggered to perform corresponding operations on the target mimic device according to the operation instructions, so as to control the mimic device cluster. Mimetic devices for management.

In addition, the above-mentioned logic instructions in the memory 1230 may be implemented in the form of software function units and be stored in a computer-readable storage medium when sold or used as an independent product. Based on this understanding, the essence of the technical solution of the present invention or the part that contributes to the prior art or the part of the technical solution can be embodied in the form of a software product, and the computer software product is stored in a storage medium, including Several instructions are used to make a computer device (which may be a personal computer, a server, or a network device, etc.) execute all or part of the steps of the methods described in various embodiments of the present invention. The aforementioned storage media include: U disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disk or optical disk, and other media that can store program codes. .

On the other hand, the present invention also provides a computer program product. The computer program product includes a computer program that can be stored on a non-transitory computer-readable storage medium. When the computer program is executed by a processor, the computer can The management method of the mimic device cluster provided by performing the above-mentioned methods is applied to the management system of the above-mentioned mimic device cluster. The management system of the mimic device cluster includes an integrated management subsystem and a mimic device management subsystem. The method includes: through the comprehensive The management subsystem receives input operation instructions; wherein, the operation instructions include the type and identification of the target mimic device to be operated, and the operation instructions include access operation instructions and/or change operation instructions; through the integrated management subsystem, it is found whether the type belongs to the mimic device The preset mimic device type corresponding to the cluster; the integrated management subsystem triggers the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instructions according to the search results, so as to manage the mimic devices in the mimic device cluster.

In another aspect, the present invention also provides a non-transitory computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, it is implemented to execute the management method of the mimic device cluster provided by the above-mentioned methods, and the application Regarding the management system of the above-mentioned mimic device cluster, the management system of the mimic device cluster includes an integrated management subsystem and a mimic device management subsystem, and the method includes: receiving input operation instructions through the integrated management subsystem; wherein, the operation instructions include waiting The type and identification of the target mimetic device to be operated, and the operation instruction includes an access operation instruction and/or a change operation instruction; through the comprehensive management subsystem, it is checked whether the type belongs to the preset mimic device type corresponding to the mimetic device cluster; through the comprehensive management subsystem according to Find the result, and trigger the mimic device management subsystem to perform corresponding operations on the target mimic device according to the operation instruction, so as to manage the mimic devices in the mimic device cluster.

The device embodiments described above are only illustrative, and the units described as separate components may or may not be physically separated, and the components shown as units may or may not be physical units, that is, they may be located in One place, or it can be distributed to multiple network elements. Part or all of the modules can be selected according to actual needs to achieve the purpose of the solution of this embodiment. It can be understood and implemented by those skilled in the art without any creative efforts.

Through the above description of the implementations, those skilled in the art can clearly understand that each implementation can be implemented by means of software plus a necessary general-purpose hardware platform, and of course also by hardware. Based on this understanding, the essence of the above technical solution or the part that contributes to the prior art can be embodied in the form of software products, and the computer software products can be stored in computer-readable storage media, such as ROM/RAM, magnetic Disks, CDs, etc., including several instructions to make a computer device (which may be a personal computer, server, or network device, etc.) execute the methods described in various embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present invention, rather than to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: it can still be Modifications are made to the technical solutions described in the foregoing embodiments, or equivalent replacements are made to some of the technical features; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the various embodiments of the present invention.

Claims (17)

1. A management system of a mimicry equipment cluster is characterized by comprising a comprehensive management subsystem and a mimicry equipment management subsystem;

the integrated management subsystem is used for receiving an input operation instruction; the operation instruction comprises the type and the identification of target mimicry equipment to be operated, and the operation instruction comprises at least one of an access operation instruction, a change operation instruction or a delete operation instruction;

the comprehensive management subsystem is used for searching whether the type belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster;

and the comprehensive management subsystem is used for triggering the mimicry equipment management subsystem to execute corresponding operation on the target mimicry equipment according to the operation instruction according to the search result so as to manage the mimicry equipment in the mimicry equipment cluster.

2. The management system of the mimicry device cluster of claim 1, wherein the operation instruction comprises an access operation instruction, and the integrated management subsystem comprises an operation and maintenance management module and a network resource management module; the mimicry equipment management subsystem comprises a mimicry equipment management module corresponding to a preset mimicry equipment type, and the mimicry equipment management module comprises an executive management submodule;

the network resource management module is used for allocating external network resources to the target mimicry equipment under the condition that the operation and maintenance management module determines that the type belongs to the preset mimicry equipment type;

the executive management submodule is used for allocating internal network resources to a heterogeneous executive body in the target mimicry equipment so that the target mimicry equipment can be accessed to the mimicry equipment cluster based on the external network resources and the internal network resources.

3. The management system of the mimicry device cluster of claim 2, wherein the integrated management subsystem further comprises a log management module, the mimicry device management module further comprises a monitoring submodule;

the executive management submodule is also used for sending the access success state information of the target mimicry equipment to the log management module;

the monitoring submodule is used for monitoring the characteristic parameters of the target mimicry equipment and sending the characteristic parameters to the log management module;

and the log management module is used for updating the state information of the target mimicry equipment into an accessed state according to the successful access state information and managing the target mimicry equipment by combining the characteristic parameters.

4. The management system of the mimicry device cluster of claim 3, wherein the integrated management subsystem further comprises a normalization module;

the normalization module is used for adding a mimicry device management module corresponding to the type in the mimicry device management subsystem under the condition that the operation and maintenance management module determines that the type does not belong to the preset mimicry device type;

and the monitoring submodule is also used for setting the characteristic parameters corresponding to the type of mimicry equipment.

5. The management system of the mimicry device cluster as claimed in claim 1, wherein the operation instruction comprises a change operation instruction, the change operation instruction further comprises an identification of a target heterogeneous executable to be changed in the target mimicry device and a type of change operation, and the integrated management subsystem comprises an operation and maintenance management module and a log management module; the mimicry equipment management subsystem comprises a target mimicry equipment management module corresponding to the type, and the target mimicry equipment management module comprises an executive management submodule;

the operation and maintenance management module is used for checking the log management module according to the identifier of the target mimicry device and the identifier of the target heterogeneous executive body and judging whether the target heterogeneous executive body is in a preset state or not under the condition that the type belongs to the preset mimicry device type; the preset state is an off-line state or an operating state;

the operation and maintenance management module is further configured to send a change instruction to the executive management submodule according to a determination result, where the change instruction includes an identifier of the target mimicry device, an identifier of the target heterogeneous executive, and a type of the change operation;

and the executive management submodule is used for controlling the target heterogeneous executive to execute corresponding change operation according to the change instruction.

6. The management system of the mimicry device cluster of claim 5, wherein the type of the change operation is a type of an offline operation, and the preset state is an offline state;

the operation and maintenance management module is specifically configured to send an offline instruction to the execution management sub-module when the target heterogeneous executor is in a non-offline state, where the offline instruction includes an identifier of the target mimicry device, an identifier of the target heterogeneous executor, and the offline operation type;

and the executive management submodule is used for controlling the target heterogeneous executive to execute offline operation according to the offline instruction.

7. The management system of a mimicry device cluster of claim 6,

the executive management submodule is further configured to recycle internal network resources allocated to the target heterogeneous executive, where the internal network resources are used to be allocated to a new heterogeneous executive when the new heterogeneous executive is online in the target mimicry device.

8. The management system of the mimicry device cluster of claim 5, wherein the type of the change operation comprises a rollback operation type, and the preset status is an offline status;

the operation and maintenance management module is specifically configured to send a rollback instruction to the execution entity management sub-module when the target heterogeneous execution entity is in an offline state, where the rollback instruction includes an identifier of the target mimicry device, an identifier of the target heterogeneous execution entity, and the rollback operation type;

and the executive management submodule is used for controlling the target heterogeneous executive to execute rollback operation according to the rollback instruction.

9. The system for managing a mimetic device cluster according to claim 8,

the operation and maintenance management module is further configured to send a logoff instruction to the executor management sub-module when the target heterogeneous executor is in a non-offline state, where the logoff instruction includes an identifier of the target mimicry device, an identifier of the target heterogeneous executor, and a logoff operation type;

and the executive management submodule is also used for controlling the target heterogeneous executive to execute offline operation according to the offline instruction.

10. The management system of the mimicry device cluster according to claim 5, wherein the type of the change operation includes an activation operation type and/or a start operation type, and the preset state is a running state;

the operation and maintenance management module is specifically configured to send a change instruction to the executive management sub-module when the target heterogeneous executive is in a non-running state, where the change instruction includes an identifier of the target mimicry device, an identifier of the target heterogeneous executive, and a type of the change operation;

and the executive management submodule is used for controlling the target heterogeneous executive to execute the change operation according to the change instruction.

11. The management system of the mimicry device cluster of claim 5, wherein the type of the change operation comprises a restart operation type, and the preset state is a running state;

the operation and maintenance management module is specifically configured to send a restart instruction to the executor management sub-module when the target heterogeneous executor is in an operating state, where the restart instruction includes an identifier of the target mimicry device, an identifier of the target heterogeneous executor, and the restart operation type;

and the executive management submodule is used for controlling the target heterogeneous executive to execute the restarting operation according to the restarting instruction.

12. The management system of the mimicry device cluster of any one of claims 5-11, wherein the target mimicry device management module further comprises a monitoring submodule;

the executive management submodule is also used for sending the updated state information of the target heterogeneous executive body to the log management module;

the monitoring submodule is used for monitoring the characteristic parameters of the target mimicry equipment and sending the characteristic parameters to the log management module;

and the log management module is used for updating the state information of the target heterogeneous executive body into the updated state information and managing the target mimicry equipment by combining the characteristic parameters.

13. The management system of the mimicry device cluster of claim 1, wherein the operation instruction comprises a delete operation instruction, and the integrated management subsystem comprises an operation and maintenance management module, a log management module and a network resource management module; the mimicry equipment management subsystem comprises a mimicry equipment management module corresponding to a preset mimicry equipment type, and the mimicry equipment management module comprises an executive management submodule;

the operation and maintenance management module is further configured to, when the type belongs to the preset mimicry device type, check a log management module according to the identifier of the target mimicry device, and determine whether the mimicry device managed by the mimicry device management subsystem includes the target mimicry device;

the network resource module is further configured to, in a case that the operation and maintenance management module determines that the target mimicry device is included, recover an external network resource allocated to the target mimicry device;

the executive management sub-module is further configured to, in a case that the operation and maintenance management module determines that the target mimicry device is included, recover internal network resources allocated to a heterogeneous executive of the target mimicry device, and close a session with the target mimicry device.

14. The management system of a mimicry device cluster of claim 13,

the executive management submodule is also used for sending the state information of successful deletion of the target mimicry equipment to the log management module;

and the log management module is used for updating the state information of the target mimicry equipment into a deleted state according to the state information of successful deletion.

15. A management method of a mimicry equipment cluster is applied to a management system of the mimicry equipment cluster, the management system of the mimicry equipment cluster comprises an integrated management subsystem and a mimicry equipment management subsystem, and the method comprises the following steps:

receiving an input operation instruction through the integrated management subsystem; the operation instruction comprises the type and the identification of the target mimicry equipment to be operated, and the operation instruction comprises at least one of an access operation instruction, a change operation instruction or a delete operation instruction;

searching whether the type belongs to a preset mimicry equipment type corresponding to a mimicry equipment cluster or not through the comprehensive management subsystem;

and triggering the mimicry equipment management subsystem to execute corresponding operation on the target mimicry equipment according to the operation instruction through the comprehensive management subsystem according to the search result so as to manage the mimicry equipment in the mimicry equipment cluster.

16. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the method of managing a mimicry device cluster as claimed in claim 15 when executing the program.

17. A non-transitory computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, implements a method of managing a mimicry device cluster according to claim 15.

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