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

Management system and method of mimicry equipment cluster and electronic equipment Download PDF

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Publication number
CN115499322B
CN115499322B CN202211417485.5A CN202211417485A CN115499322B CN 115499322 B CN115499322 B CN 115499322B CN 202211417485 A CN202211417485 A CN 202211417485A CN 115499322 B CN115499322 B CN 115499322B
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mimicry
target
management
equipment
management module
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CN115499322A (en
Inventor
马海龙
伊鹏
卜佑军
邬江兴
张进
陈韵
陈垚
陈博
张鹏
江逸茗
周锟
陈祥
刘慧�
胡先君
王涵
蔡翰智
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Network Communication and Security Zijinshan Laboratory
China National Digital Switching System Engineering and Technological R&D Center
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Network Communication and Security Zijinshan Laboratory
China National Digital Switching System Engineering and Technological R&D Center
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/14Network analysis or design
    • H04L41/145Network analysis or design involving simulating, designing, planning or modelling of a network
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/04Network management architectures or arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/06Management of faults, events, alarms or notifications
    • H04L41/069Management of faults, events, alarms or notifications using logs of notifications; Post-processing of notifications

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  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Data Exchanges In Wide-Area Networks (AREA)
  • Computer And Data Communications (AREA)

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 and method of mimicry equipment cluster and electronic equipment
Technical Field
The invention relates to the technical field of mimicry equipment management, in particular to a management system and method of a mimicry equipment cluster and electronic equipment.
Background
In the existing mimicry device cluster scene, each mimicry device in the mimicry device cluster has an independent management system, that is, each mimicry device performs independent management. However, independent management of each mimicry device in the mimicry device cluster scene is not convenient for quickly and flexibly defining the network topology of the mimicry device cluster or for changing the network topology of the mimicry device cluster.
Therefore, how to uniformly manage the mimicry device cluster is a problem to be solved urgently by those skilled in the art.
Disclosure of Invention
The invention provides a management system and method of a mimicry equipment cluster and electronic equipment, which realize the unified management of the mimicry equipment cluster.
The invention provides a management system of a mimicry equipment cluster, which comprises 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 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.
And 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.
According to the management system of the mimicry equipment cluster provided by the invention, the operation instruction comprises an access operation instruction, and the comprehensive 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.
And 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.
According to the management system of the mimicry equipment cluster provided by the invention, the comprehensive management subsystem further comprises a log management module, and the mimicry equipment 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.
And 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.
According to the management system of the mimicry equipment cluster provided by the invention, the comprehensive management subsystem further comprises a normalization module.
The normalization module is configured to add a mimic device management module corresponding to the type to the mimic device management subsystem when the operation and maintenance management module determines that the type does not belong to the preset mimic device type.
And the monitoring submodule is also used for setting the characteristic parameters corresponding to the type of mimicry equipment.
According to the management system of the mimicry device cluster provided by the invention, the operation instruction comprises a change operation instruction, the change operation instruction further comprises an identifier of a target heterogeneous executive to be changed in the target mimicry device and a change operation type, and the comprehensive management subsystem comprises an operation and maintenance management module and a log management module; the mimicry device management subsystem comprises a target mimicry device management module corresponding to the type, and the target mimicry device 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 offline state or an operating state.
And the operation and maintenance management module is further configured to send a change instruction to the executive management submodule according to the determination result, where the change instruction includes the identifier of the target mimicry device, the identifier of the target heterogeneous executive and the 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.
According to the management system of the mimicry device cluster provided by the invention, the type of the change operation is an offline operation type, and the preset state is an offline state.
The operation and maintenance management module is specifically 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 the logoff operation type.
And the executive management submodule is used for controlling the target heterogeneous executive to execute offline operation according to the offline instruction.
According to the management system of the mimicry device cluster provided by the invention, the executive management submodule is further configured to recycle an internal network resource allocated to the target heterogeneous executive, and the internal network resource is used for being allocated to a new heterogeneous executive when the new heterogeneous executive is online in the target mimicry device.
According to the management system of the mimicry device cluster provided by the invention, the type of the change operation comprises 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 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.
According to the management system of the mimicry device cluster provided by the invention, the operation and maintenance management module is further configured to send a logout instruction to the executive management submodule under the condition that the target heterogeneous executive is in a non-offline state, where the logout instruction includes an identifier of the target mimicry device, an identifier of the target heterogeneous executive and the type of the logout operation.
And the executive management submodule is also used for controlling the target heterogeneous executive to execute offline operation according to the offline instruction.
According to the management system of the mimicry device cluster provided by the invention, the type of the change operation comprises 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 submodule 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.
According to the management system of the mimicry device cluster provided by the invention, 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.
According to the management system of the mimicry device cluster provided by the invention, the target mimicry device management module further comprises a monitoring submodule.
The executive management submodule is further configured to send the updated state information of the target heterogeneous executive to the log management module.
And 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.
According to the management system of the mimicry equipment cluster, provided by the invention, the operation instruction comprises a deletion operation instruction, and the comprehensive 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.
And 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 target mimicry device is included in the mimicry devices managed by the mimicry device management subsystem.
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 body of the target mimicry device, and close a session with the target mimicry device.
According to the management system of the mimicry device cluster provided by the invention, the executive management submodule is further used for sending the successful deleting state information of the target mimicry device 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.
The invention also provides a management method of the mimicry equipment cluster, which is applied to the management system of the mimicry equipment cluster, wherein the management system of the mimicry equipment cluster comprises a comprehensive 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.
And searching whether the type belongs to a preset mimicry equipment type corresponding to the 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.
According to the management method for the mimicry device cluster provided by the invention, the operation instruction comprises an access operation instruction, the mimicry device management subsystem is triggered by the comprehensive management subsystem according to a search result to execute corresponding operation on the target mimicry device according to the operation instruction, and the method comprises the following steps:
and distributing external network resources to the target mimicry equipment by a network resource management module in the comprehensive management subsystem under the condition that the operation and maintenance management module in the comprehensive management subsystem determines that the type belongs to the preset mimicry equipment type.
And allocating internal network resources for a heterogeneous executive body in the target mimicry equipment through an executive body management submodule in a mimicry equipment management module corresponding to the type of the target mimicry equipment, wherein the mimicry equipment management subsystem comprises the executive body management submodule, so that the target mimicry equipment is accessed to the cluster of the mimicry equipment based on the external network resources and the internal network resources.
According to the management method of the mimic device cluster provided by the invention, the method further comprises the following steps:
and sending the access success state information of the target mimicry equipment to a log management module in the comprehensive management subsystem through the executive management submodule.
And monitoring the characteristic parameters of the target mimicry equipment through a monitoring submodule in the mimicry equipment management subsystem, and sending the characteristic parameters to the log management module.
And updating the state information of the target mimicry equipment into an accessed state through the log management module according to the successful access state information, and managing the target mimicry equipment by combining the characteristic parameters.
According to the management method of the mimic device cluster provided by the invention, the method further comprises the following steps:
and adding a mimicry equipment management module corresponding to the type in the mimicry equipment management subsystem under the condition that the operation and maintenance management module determines that the type does not belong to the preset mimicry equipment type through a normalization module in the comprehensive management subsystem.
And setting the characteristic parameters corresponding to the type of mimicry equipment through the monitoring submodule.
According to the management method of the mimicry device cluster provided by the present invention, the operation instruction includes an operation instruction for changing, the operation instruction for changing further includes an identifier of a target heterogeneous executable to be changed in the target mimicry device and a type of an operation for changing, the mimicry device management subsystem is triggered by the comprehensive management subsystem according to a search result to execute a corresponding operation on the target mimicry device according to the operation instruction, which includes:
under the condition that the type belongs to the preset mimicry device type, checking a log management module in the comprehensive management subsystem according to the identification of the target mimicry device and the identification of the target heterogeneous executive body through an operation and maintenance management module in the comprehensive management subsystem, and judging whether the target heterogeneous executive body is in a preset state; the preset state is an off-line state or an operating state.
And sending a change instruction to an executive management sub-module in the mimic device management module corresponding to the type of the target mimic device, wherein the executive management sub-module comprises an identifier of the target mimic device, an identifier of the target heterogeneous executive body and a type of the change operation.
And controlling the target heterogeneous executive body to execute corresponding change operation according to the change instruction through the executive body management submodule.
According to the management method of the mimicry equipment cluster, the type of the change operation is an offline operation type, and the preset state is an offline state; wherein, sending a change instruction to an executive management submodule in the mimicry device management module corresponding to the type of the target mimicry device included in the mimicry device management subsystem through the operation and maintenance management module according to the judgment result, includes:
and sending an offline instruction to the executive management submodule through the operation and maintenance management module under the condition that the target heterogeneous executive is in a non-offline state, wherein the offline instruction comprises the identification of the target mimicry device, the identification of the target heterogeneous executive and the offline operation type.
Correspondingly, the step of controlling the target heterogeneous executor to execute the corresponding change operation according to the change instruction by the executor management submodule includes:
and controlling the target heterogeneous executive body to execute offline operation according to the offline instruction through the executive body management submodule.
According to the management method of the mimic device cluster provided by the invention, the method further comprises the following steps:
and recovering internal network resources allocated to the target heterogeneous execution body through the execution body management submodule, wherein the internal network resources are used for being allocated to the new heterogeneous execution body when the new heterogeneous execution body is on line in the target mimicry device.
According to the management method of the mimicry equipment cluster provided by the invention, the type of the change operation comprises a rollback operation type, and the preset state is an offline state; wherein, sending a change instruction to an executive management submodule in the mimicry device management module corresponding to the type of the target mimicry device included in the mimicry device management subsystem through the operation and maintenance management module according to the judgment result, includes:
and sending a rollback instruction to the execution body management submodule through the operation and maintenance management module under the condition that the target heterogeneous execution body is in an offline state, wherein the rollback instruction comprises the identification of the target mimicry device, the identification of the target heterogeneous execution body and the rollback operation type.
Correspondingly, the step of controlling the target heterogeneous executor to execute the corresponding change operation according to the change instruction by the executor management submodule includes:
and controlling the target heterogeneous executive to execute the rollback operation according to the rollback instruction through the executive management submodule.
According to the management method of the mimic device cluster provided by the invention, the method further comprises the following steps:
and sending an offline instruction to the executive management submodule through the operation and maintenance management module under the condition that the target heterogeneous executive is in a non-offline state, wherein the offline instruction comprises the identifier of the target mimicry device, the identifier of the target heterogeneous executive and the offline operation type.
And controlling the target heterogeneous executive body to execute offline operation according to the offline instruction through the executive body management submodule.
According to the management method of the mimicry equipment cluster provided by the invention, the type of the change operation comprises an activation operation type and/or a start operation type, and the preset state is an operation state; wherein, sending a change instruction to an 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 by the operation and maintenance management module according to the judgment result, includes:
and sending a change instruction to the executive management submodule through the operation and maintenance management module under the condition that the target heterogeneous executive is in a non-running state, wherein the change instruction comprises the identification of the target mimicry device, the identification of the target heterogeneous executive and the type of the change operation.
Correspondingly, the step of controlling the target heterogeneous executor to execute the corresponding change operation according to the change instruction by the executor management submodule includes:
and controlling the target heterogeneous executive body to execute the change operation according to the change instruction through the executive body management submodule.
According to the management method of the mimicry equipment cluster provided by the invention, the type of the change operation comprises a restart operation type, and the preset state is an operation state; wherein, sending a change instruction to an executive management submodule in the mimicry device management module corresponding to the type of the target mimicry device included in the mimicry device management subsystem through the operation and maintenance management module according to the judgment result, includes:
and sending a restart instruction to the executive management submodule through the operation and maintenance management module under the condition that the target heterogeneous executive is in the running state, wherein the restart instruction comprises the identifier of the target mimicry device, the identifier of the target heterogeneous executive and the restart operation type.
Correspondingly, the step of controlling the target heterogeneous executor to execute the corresponding change operation according to the change instruction by the executor management submodule includes:
and controlling the target heterogeneous executive body to execute the restarting operation according to the restarting instruction through the executive body management submodule.
According to the management method of the mimic device cluster provided by the invention, the method further comprises the following steps:
and sending the updated state information of the target heterogeneous executive body to the log management module through the executive body management submodule.
And monitoring the characteristic parameters of the target mimicry equipment by a monitoring submodule in a mimicry equipment management module corresponding to the type of the target mimicry equipment, which is included in the mimicry equipment management subsystem, and sending the characteristic parameters to the log management module.
And updating the state information of the target heterogeneous executive body into the updated state information through the log management module, and managing the target mimicry equipment by combining the characteristic parameters.
According to the management method of the mimic device cluster provided by the present invention, the operation instruction includes a delete operation instruction, and the mimic device management subsystem is triggered by the comprehensive management subsystem according to a search result to execute a corresponding operation on the target mimic device according to the operation instruction, including:
and under the condition that the type belongs to the preset mimicry device type, checking a log management module in the mimicry device management subsystem according to the identification of the target mimicry device through an operation and maintenance management module in the mimicry device management subsystem, and judging whether the target mimicry device is included in the mimicry device managed by the mimicry device management subsystem.
And recovering the external network resources allocated to the target mimicry equipment by a network resource module in the mimicry equipment management subsystem under the condition that the operation and maintenance management module determines that the target mimicry equipment is included.
And recovering internal network resources allocated to a heterogeneous executive body of the target mimicry device and closing a session with the target mimicry device by an executive management submodule in a mimicry device management module corresponding to the type of the target mimicry device and included by the mimicry device management subsystem under the condition that the operation and maintenance management module determines that the target mimicry device is included.
According to the management method of the mimic device cluster provided by the invention, the method further comprises the following steps:
and sending the successful deleting state information of the target mimicry equipment to the log management module through the executive management submodule.
And updating the state information of the target mimicry equipment into a deleted state through the log management module according to the state information of successful deletion.
The invention further provides an electronic device, which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein when the processor executes the program, the management method of the mimicry device cluster is realized.
The invention also provides a non-transitory computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements a method of managing a mimicry device cluster as described in any of the above
The invention also provides a computer program product comprising a computer program which, when executed by a processor, implements a method of managing a mimicry device cluster as described in any one of the above.
The invention provides a management system and a method of a mimicry equipment cluster and electronic equipment, wherein the management system of the mimicry equipment cluster comprises 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; 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.
Drawings
In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.
FIG. 1 is a flow chart of a management system of a mimicry device cluster provided in 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 mimicry device management subsystem provided by an embodiment of the present invention;
FIG. 4 is a flowchart illustrating an access operation performed on a target mimicry device according to an embodiment of the present invention;
fig. 5 is a schematic flowchart of executing offline operation on a heterogeneous executor a in a mimic router a in a mimic device cluster according to an embodiment of the present invention;
fig. 6 is a schematic flowchart of performing a rollback operation on a heterogeneous executor a in a mimic router a in a mimic device cluster according to an embodiment of the present invention;
fig. 7 is a schematic flowchart of an operation for activating a heterogeneous executor a in a mimic router a in a mimic device cluster according to an embodiment of the present invention;
fig. 8 is a schematic flowchart of executing a start operation on a heterogeneous executor a in a mimic router a in a mimic device cluster according to an embodiment of the present invention;
fig. 9 is a schematic flowchart of performing a restart operation on a heterogeneous executor 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 illustrating a process of executing a delete operation on a target mimicry device in a mimicry device cluster according to an embodiment of the present invention;
fig. 11 is a flowchart illustrating a method for managing a mimic device cluster according to an embodiment of the present invention;
fig. 12 illustrates a physical structure diagram of an electronic device.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
In the embodiments of the present invention, "at least one" means one or more, "a plurality" means two or more. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone, wherein A and B can be singular or plural. In the description of the present invention, the character "/" generally indicates that the former and latter associated objects are in an "or" relationship.
The technical scheme provided by the embodiment of the invention can be applied to a mimicry equipment management scene, in particular to a mimicry equipment cluster management scene. The mimic device cluster refers to a cluster formed by a plurality of mimic devices.
In view of the fact that in the prior art, each mimicry device in a mimicry device cluster is independently managed and it is not convenient to quickly and flexibly define or change a network topology structure of the mimicry device cluster, therefore, in order to implement unified management of the mimicry devices in the mimicry device cluster, an embodiment of the present invention provides a management system of the mimicry device cluster, and the following describes the management system of the mimicry device cluster provided by the present invention in detail through a specific embodiment. It is to be understood that the following detailed description may be combined with other embodiments, and that the same or similar concepts or processes may not be repeated in some embodiments.
Fig. 1 is a schematic flow diagram of a management system of a mimicry device cluster provided in the present invention, and for example, please refer to fig. 1, the management system of the mimicry device cluster may include: the system comprises an integrated management subsystem and a mimic device 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.
And 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.
The comprehensive management subsystem is externally connected with a visual interface and internally connected with a mimic device management subsystem which is internally connected with the comprehensive management subsystem and externally connected with all mimic devices to be managed.
For example, the type of the target mimicry device may include a mimicry storage device type, a mimicry router type, a mimicry Domain Name System (DNS) server type, or a mimicry global Wide area network (Web) server type, and may be specifically set according to actual needs. Illustratively, when the target mimicry device is a mimicry storage device, its type is a mimicry storage device type; when the target stateful device is a stateful router, its type is a stateful router type.
For example, the change operation instruction may include a offline operation instruction, a rollback operation instruction, an activation operation instruction, a start operation instruction, or a restart operation instruction, and may be specifically set according to actual needs. The operation corresponding to the offline operation instruction is offline operation, the operation corresponding to the rollback operation instruction is rollback operation, the operation corresponding to the activation operation instruction is activation operation, the operation corresponding to the start operation instruction is start operation, or the operation corresponding to the restart operation instruction is restart operation.
The offline operation refers to changing the running heterogeneous executors into an unavailable state and recovering network resources and storage computing resources occupied by the heterogeneous executors; the rollback operation refers to restarting the heterogeneous executive body after returning to a certain previous state; the activation operation refers to changing the heterogeneous executors in the mimicry equipment from a pause state to a usable state; the starting operation refers to changing the heterogeneous executors from an initial state to an available state; the restart operation means to close the running heterogeneous execution body and restart the heterogeneous execution body.
Illustratively, the preset mimicry device type corresponding to the mimicry device cluster includes a mimicry storage device type, a mimicry router type, a mimicry DNS server type, or a mimicry Web server type, and may be specifically determined according to the mimicry devices included in the mimicry device cluster.
It can be understood that, when the input operation instruction includes an access operation instruction, it indicates that the target mimicry device is not currently included in the mimicry device cluster, and the comprehensive management subsystem may trigger the mimicry device management subsystem to perform a corresponding access operation on the target mimicry device according to the access operation instruction according to the search result, add the target mimicry device to the mimicry device cluster to update the mimicry device cluster, so that the updated mimicry device cluster includes the target mimicry device.
When the input operation instruction comprises a change operation instruction, the fact that the target mimicry device is currently included in the mimicry device cluster is indicated, the comprehensive management subsystem can trigger the mimicry device management subsystem to execute corresponding change operation on the heterogeneous executive bodies in the target mimicry device according to the change operation instruction according to the search result, so that the state of the heterogeneous executive bodies in the target mimicry device is updated, and each mimicry device can be accurately managed.
It can be seen that, in the embodiment of the present invention, when the mimicry device cluster is managed, the integrated management subsystem in the management system of the mimicry device cluster is configured to receive 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 an access operation instruction and/or a change 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 a mimicry equipment management module in the management system of the mimicry equipment cluster 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, so that the unified management of the mimicry equipment cluster is realized through the comprehensive management subsystem and the mimicry equipment management subsystem.
Based on the embodiment shown in fig. 1, for example, the integrated management subsystem may include a log management module, a network resource management module, an operation and maintenance management module, and a normalization module, as shown in fig. 2, fig. 2 is a schematic diagram of the integrated management subsystem provided in the embodiment of the present invention; illustratively, when the mimicry device in the mimicry device cluster includes a mimicry storage device, a mimicry router device, a mimicry DNS server, and a mimicry Web server, the mimicry device management subsystem may include a mimicry storage management module, a mimicry router management module, a mimicry DNS server management module, and a mimicry Web server management module, as shown in fig. 3, fig. 3 is a schematic diagram of the mimicry device management subsystem provided in the embodiment of the present invention. The mimicry storage management module is used for managing a class of mimicry storage devices of the mimicry storage type, the mimicry router management module is used for managing a class of mimicry router devices of the mimicry router type, the mimicry DNS server management module is used for managing a class of mimicry DNS servers of the mimicry DNS server type, and the mimicry Web server management module is used for managing a class of mimicry Web servers of the mimicry Web server type.
The log management module is connected with monitoring submodules in the mimicry device management modules corresponding to different types of mimicry devices in the mimicry device management subsystem, and is mainly used for receiving state information and characteristic parameters acquired by each mimicry device management module in real time and displaying information visualization interfaces through the operation and maintenance management module.
The network resource management module is mainly used for allocating and managing external network resources of all mimicry devices in an intranet according to a Dynamic Host Configuration Protocol (DHCP) Protocol, including but not limited to Internet Protocol (IP) addresses, port numbers and other information of the mimicry devices.
The operation and maintenance management module is mainly used for receiving an operation instruction input by the visual interface, analyzing the operation instruction, triggering a corresponding mimicry equipment management module in the mimicry equipment management subsystem according to the operation instruction, and cooperatively executing the operation instruction; and the state information and the characteristic parameters acquired by the log management module can be displayed through a visual interface.
The normalization module is mainly used for stipulating the standard forms of the characteristic parameters of all the mimicry equipment in the mimicry equipment management subsystem, and initializing a mimicry equipment management module corresponding to the type of the newly-accessed mimicry equipment when the type of the newly-accessed mimicry equipment does not belong to the range of the preset mimicry equipment type corresponding to the mimicry equipment cluster, and is used for managing the mimicry equipment of the type.
With reference to fig. 3, for each of the mimic storage management module, the mimic router management module, the mimic DNS server management module, and the mimic Web server management module, a class of mimic devices managed by the mimic storage management module is managed by a Network Configuration (NETCONF) protocol. Each mimicry management module comprises an executive management submodule and a monitoring submodule. For example, the monitoring submodule in the mimic storage management module may be denoted as a storage monitoring submodule, the monitoring submodule in the mimic router management module may be denoted as a traffic monitoring submodule, the monitoring submodule in the mimic DNS server management module may be denoted as a domain name monitoring submodule, and the monitoring submodule in the mimic Web server management module may be denoted as a session monitoring submodule. In addition, a domain name protection sub-module is additionally included for the mimicry DNS server management module.
Illustratively, in conjunction with the description of fig. 3 above, each of the mimicry storage management module, the mimicry router management module, the mimicry DNS server management module, and the mimicry Web server management module has its own functionality, which can be seen as follows:
the mimic storage management module is mainly used for managing mimic storage equipment of mimic storage types, and mainly comprises a storage monitoring submodule and an executive management submodule. The storage monitoring submodule can monitor the storage conditions in all the mimicry storage devices, the working conditions of the metadata service executive body, the data service executive body and the arbitrator, and the functions of reading and writing of the mimicry storage devices.
The mimic router management module is mainly used for managing mimic router equipment of mimic router types, and mainly comprises a flow monitoring submodule and an executive management submodule. The traffic monitoring submodule can monitor traffic information flowing through each mimicry router device, traffic information flowing through each heterogeneous executive, a security filtering list, and working conditions of a route executive, a management executive, other executors and a resolver.
The mimicry DNS server management module is mainly used for managing a class of mimicry DNS servers of the types of the mimicry DNS servers and mainly comprises a domain name monitoring sub-module, an executive management sub-module and a domain name protection sub-module. The domain name monitoring submodule can monitor the mapping table of each domain name protocol heterogeneous executive. The executor management submodule can maintain three tables, namely a cache list, a distribution resolver list and an isomer list, besides a basic function. The domain name protection sub-module monitors the state of the domain name in real time and takes warning measures when abnormality occurs.
The mimic Web server management module is mainly used for managing a mimic Web server of a mimic Web server type, and comprises a session monitoring submodule and an executive management submodule. The session monitoring submodule can monitor the heterogeneous functions of the database instructions, and monitor the state, duration, session state information and the like of processing requests of each heterogeneous executive in each connection process.
Wherein, each executive management submodule has basic functions: 1. the method can execute the operations of activation, offline, starting, restarting, rollback and the like on all executive bodies of the class of mimicry equipment corresponding to the executive bodies; 2. and managing the internal network resources of each mimicry device for the networking of the heterogeneous pool in the corresponding mimicry device.
Based on the comprehensive management subsystem shown in fig. 2 and the mimicry device management subsystem shown in fig. 3, in order to facilitate understanding of how the management system of the mimicry device cluster realizes unified management on the mimicry device cluster through the comprehensive management subsystem and the mimicry device management module, below, taking a scenario in which the operation instruction includes an access operation instruction, a scenario in which the operation instruction includes a change operation instruction, and a scenario in which the operation instruction includes a delete operation instruction as examples, how the management system of the mimicry device cluster realizes unified management on the mimicry device cluster through the comprehensive management subsystem and the mimicry device management module will be described in detail.
Illustratively, in one scenario, when the operation instruction includes an access operation instruction, the corresponding integrated management subsystem includes an operation and maintenance management module and a network resource management module, the mimic device management subsystem includes a mimic device management module corresponding to a preset mimic device type, and the mimic device management module includes an executive management sub-module. Exemplarily, a method for a management system of a mimic device cluster to perform an access operation on a target mimic device through a comprehensive management subsystem and a mimic device management module is shown in fig. 4, where fig. 4 is a schematic flow diagram illustrating an access operation performed on the target mimic device according to an embodiment of the present invention, so as to implement unified management on the mimic device cluster through the comprehensive management subsystem and the mimic device management subsystem.
And the operation and maintenance management module is used for receiving an input access operation instruction, wherein the access operation instruction comprises the type and the identification of the target mimicry equipment to be operated, and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster.
And 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 of the target mimicry equipment belongs to the preset mimicry equipment type.
And the executive management submodule is used for distributing internal network resources to a heterogeneous executive body in the target mimicry equipment under the condition that the operation and maintenance management module determines that the type of the target mimicry equipment belongs to the preset mimicry equipment type, so that the target mimicry equipment is accessed to the mimicry equipment cluster based on the external network resources and the 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 the identifier of the target mimicry device to be accessed from the access operation instruction.
Illustratively, when the network resource management module allocates the external network resource to the target mimicry device, the network resource management module may allocate the external network resource to the target mimicry device based on a DHCP protocol; after the external network resources are distributed, sending distribution information containing the external network resources to the target mimicry equipment; in addition, the method can also receive a confirmation message of the external network resource of the target mimicry device, and after receiving the confirmation message, send a takeover instruction of the target mimicry device to the mimicry device management module corresponding to the type of the target mimicry device, so that the mimicry device management module takes over the target mimicry device.
Correspondingly, after the mimicry device management module takes over the target mimicry device, the executive management submodule in the mimicry device management module may allocate internal network resources to the heterogeneous executive body in the target mimicry device to form an internal network, so that the target mimicry device is accessed to the mimicry device cluster based on the external network resources and the internal network resources. For example, when the executive management sub-module allocates the internal network resource to the heterogeneous executive in the target pseudo device, the internal network resource may be allocated to the heterogeneous executive in the target pseudo device through an < exit-config > operation in the NETCONF protocol. Of course, an external shell instruction may also be received to allocate an internal network resource to a heterogeneous executive in a target mimicry device, which may be specifically set according to actual needs.
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 further send the characteristic parameter to be monitored to the target mimic device. For example, when the executive management sub-module further sends the feature parameter to be monitored to the target mimicry device, it may first determine whether an established NETCONF session exists, and if the established NETCONF session exists, the feature parameter to be monitored may be sent to the target mimicry device directly through the NETCONF session; on the contrary, if the established NETCONF session does not exist, the established NETCONF session is established first, and the characteristic parameters to be monitored are sent to the target mimicry equipment through the established NETCONF session.
In combination with the above description, after the target mimicry device randomly starts at least 3 heterogeneous executors and completes the internal network networking, the comprehensive management subsystem further includes a log management module, and the mimicry device management module further includes a monitoring sub-module.
The executive management submodule is also used for sending the access success state information of the target mimicry equipment to the log management module.
And 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 access success state information and managing the target mimicry equipment by combining the characteristic parameters.
It can be understood that, when the monitoring sub-module monitors the characteristic parameters of the target mimicry device and sends the characteristic parameters to the log management module, the characteristic parameters may include the relevant parameters of each heterogeneous executive in the target mimicry device.
For example, after the log management module updates the state information of the target mimicry device to the accessed state, the log management module may record the updated state information of the target mimicry device, and manage the target mimicry device by combining the characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to the operation and maintenance management module in real time, so that the operation and maintenance management module displays the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to a user through a visual interface, and the user can conveniently know and check the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body in time.
In combination with the above description, it can be seen that the above description only describes how to specifically perform an access operation on a target mimicry device in the case that the type of the target mimicry device belongs to a preset mimicry device type; aiming at the condition that the type of the target mimicry equipment does not belong to the preset mimicry equipment type, before the network resource management module allocates external network resources to the target mimicry equipment, a mimicry equipment management module corresponding to the type needs to be added in the mimicry equipment management subsystem in advance, and characteristic parameters to be monitored corresponding to the type of the mimicry equipment are set. Illustratively, the integrated management subsystem further includes 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 of the target device does not belong to the preset mimicry device type.
And the monitoring submodule is also used for setting characteristic parameters corresponding to the type of mimicry equipment.
It can be understood that the normalization module adds a mimic device management module corresponding to the type in the mimic device management subsystem, and the mimic device management module may also include an execution body management submodule and a monitoring submodule.
Exemplarily, after a mimic device management module corresponding to the type is added, an executive management submodule in the mimic device management module may perform capability negotiation with a target mimic device according to a NETCONF protocol, and exchange a basic capability base and an exchange capability set; the monitoring submodule in the mimicry equipment management module can set the characteristic parameters corresponding to the target mimicry equipment according to the exchanged base and exchange capability sets, so that the monitoring submodule can monitor the characteristic parameters of the target mimicry equipment in a targeted manner.
The normalization module adds a mimicry device management module corresponding to the type in the mimicry device management subsystem, and after the monitoring submodule sets the characteristic parameters corresponding to the type of the mimicry device, how to perform access operation on the target mimicry device is similar to the case that the type of the target mimicry device belongs to the preset mimicry device type, namely: the network resource management module is used for distributing external network resources for the target mimicry equipment. The executive body management submodule is used for distributing internal network resources for heterogeneous executive bodies 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. In addition, 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. The log management module is configured to update the state information of the target mimicry device to an accessed state according to the access success state information, and manage the target mimicry device in combination with the characteristic parameter, for specific implementation, reference may be made to the description that the type of the target mimicry device belongs to a preset mimicry device type, and here, details are not repeated in the embodiment of the present invention.
It can be seen that, when the mimicry device cluster is updated by accessing the operation instruction, the comprehensive management subsystem includes an operation and maintenance management module and a network resource management module, and the mimicry device management subsystem includes a mimicry device management module corresponding to a preset mimicry device type. The operation and maintenance management module is used for receiving an input access operation instruction and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster; the network resource management module is used for distributing external network resources to the target mimicry equipment under the condition that the operation and maintenance management module determines that the type of the target mimicry equipment belongs to the preset mimicry equipment type; and the executive management submodule is used for distributing internal network resources for a heterogeneous executive body in the target mimicry equipment so that the target mimicry equipment is accessed to the mimicry equipment cluster based on the external network resources and the internal network resources, and the mimicry equipment cluster is updated through the access operation instruction, so that the unified management of the mimicry equipment cluster is realized.
Illustratively, in another scenario, when the operation instruction comprises a change operation instruction, the change operation instruction may comprise a offline operation instruction, a rollback operation instruction, an activate operation instruction, a start operation instruction, a restart operation instruction, or the like. In view of the fact that the change operation instruction mainly aims at the heterogeneous executors in the target mimicry equipment, the change operation instruction further comprises the identification of the target heterogeneous executors to be changed in the target mimicry equipment and the type of change operation, and the comprehensive 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. For example, the method for the management system of the mimicry device cluster to implement unified management on the mimicry device cluster through the integrated management subsystem and the mimicry device management module may include:
the operation and maintenance management module is used for checking the log management module according to the identification of the target mimicry equipment and the identification 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 equipment type; the preset state is an off-line state or an operating state.
And the operation and maintenance management module is also used for sending a change instruction to the executive management submodule according to the judgment result, wherein the change instruction comprises the identification of the target mimicry equipment, the identification of the target heterogeneous executive and the type of 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, so that the target heterogeneous executive is uniformly managed.
In order to facilitate understanding of how to perform the change operation on the heterogeneous executive body in the target mimicry device based on the change operation instruction, in the following, taking a case that the change operation instruction includes a offline operation instruction, a case that the change operation instruction includes a rollback operation instruction, a case that the change operation instruction includes an activation operation instruction, a case that the change operation instruction includes a start operation instruction, and a case that the change operation instruction includes a restart operation instruction as examples, how the management system of the mimicry device cluster realizes unified management on the mimicry device cluster through the comprehensive management subsystem and the mimicry device management module will be described in detail.
For example, in one case, when the change operation instruction may include a logoff operation instruction, the logoff operation instruction further includes an identifier of a target heterogeneous executable to be logoff in the target mimicry device and a logoff operation type; the corresponding comprehensive 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 of the target mimicry equipment, and the mimicry equipment management module comprises an executive management submodule. By way of example, the method for the management system of the mimic device cluster to implement unified management on 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 for receiving an input offline operation instruction, wherein the offline operation instruction comprises the type and the identification of target mimicry equipment to be operated and the identification of a target heterogeneous executive to be offline in the target mimicry equipment; and searching whether the type belongs to a preset mimicry device type corresponding to the mimicry device cluster.
If the type is determined not to belong to the preset mimicry equipment type corresponding to the mimicry equipment cluster, and the current offline operation instruction is an error operation instruction, stopping the offline operation; on the contrary, if the type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module is further configured to, under the condition that the type belongs to the preset mimicry device type, check the log management module according to the identifier of the target mimicry device and the identifier of the target heterogeneous executive, and determine whether the target heterogeneous executive is in an offline state.
If the target heterogeneous executive body is determined to be in the offline state, ending the operation; on the contrary, if it is determined that the target heterogeneous execution body is in the non-offline state, the operation and maintenance management module is further configured to send an offline instruction to the execution management sub-module when the target heterogeneous execution body is in the non-offline state, where the offline instruction includes the identifier of the target pseudo-device, the identifier of the target heterogeneous execution body, 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.
For example, the offline operation instruction may be a single instruction or a script instruction, and the script instruction may concurrently change multiple mimicry devices or multiple heterogeneous executors.
For example, after receiving the input offline operation instruction, the operation and maintenance management module may parse the offline operation instruction, so as to extract, from the offline operation instruction, that the offline operation instruction includes the type and the identifier of the target mimicry device to be operated and the identifier of the target heterogeneous executor to be offline in the target mimicry device.
For example, since the executor management sub-module manages a plurality of mimicry devices of the same type as the target mimicry device, when the executor management sub-module controls the target heterogeneous executor to perform the offline operation according to the offline instruction, the executor management sub-module may first find the target mimicry device from the plurality of mimicry devices of the same type managed by the executor management sub-module according to the identifier of the target mimicry device included in the offline instruction, and send an instruction for controlling the target heterogeneous executor to go offline to the target mimicry device; correspondingly, the target mimicry device executes the instruction after receiving the instruction, and the target heterogeneous execution body is offline, so that offline operation of the target heterogeneous execution body is realized, and each mimicry device can be accurately managed.
In addition, after the target mimicry device performs offline operation on the target heterogeneous execution body, the offline state information of the target heterogeneous execution body may be sent to the execution body management sub-module, so that the execution body management sub-module acquires the offline state information of the target heterogeneous execution body.
In combination with the above description, after the offline operation of the target heterogeneous executable is executed, the target-mimetic device management module further includes a monitoring sub-module, for example.
The executive management submodule is further configured to send the updated state information of the target heterogeneous executive, that is, the offline state, to the log management module.
And the monitoring sub-module 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 an offline state and managing the target mimicry equipment by combining the characteristic parameters.
It can be understood that, when the monitoring sub-module monitors the characteristic parameters of the target mimicry device and sends the characteristic parameters to the log management module, the characteristic parameters may include the relevant parameters of each heterogeneous executive in the target mimicry device.
For example, after the log management module updates the state information of the target mimicry device to the offline state, the log management module may record the updated state information of the target mimicry device, and manage the target mimicry device by combining the characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to the operation and maintenance management module in real time, so that the operation and maintenance management module displays the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to a user through a visual interface, and the user can conveniently know and check the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body in time.
For example, after the target pseudo-device performs offline operation on the target heterogeneous execution entity, in order to improve the utilization rate of the internal network resources, the execution management sub-module is further configured to recycle the internal network resources allocated to the target heterogeneous execution entity after the target heterogeneous execution entity performs offline operation, and the internal network resources are used for being allocated to a new heterogeneous execution entity when the new heterogeneous execution entity is online in the target pseudo-device, so that the utilization rate of the internal network resources can be effectively improved.
It can be seen that, when the offline operation instruction is used for performing the offline operation on the heterogeneous executer of the target mimicry device in the mimicry device cluster, the comprehensive management subsystem comprises an operation and maintenance management module and a log management module, the mimicry device management subsystem comprises a target mimicry device management module corresponding to the type of the target mimicry device, and the mimicry device management module comprises an executive management sub-module. The operation and maintenance management module is used for receiving an input offline operation instruction and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster; under the condition that the type belongs to the preset mimicry equipment type, checking a log management module according to the identification of the target mimicry equipment and the identification of the target heterogeneous executive body, and judging whether the target heterogeneous executive body is in an offline state; sending an offline instruction to the executive management submodule under the condition that the target heterogeneous executive is in a non-offline state; the execution management sub-module is used for controlling the target heterogeneous executer to execute offline operation according to the offline instruction, so that the offline operation is executed on the heterogeneous executer of the target mimicry device in the mimicry device cluster through the offline instruction, and unified management on the mimicry device cluster is achieved.
In combination with the above description of performing the offline operation on the heterogeneous executer of the target mimicry device in the mimicry device cluster, in the embodiment of the present invention, in order to facilitate understanding how to perform the offline operation on the heterogeneous executer of the target mimicry device in the mimicry device cluster, the offline operation on the heterogeneous executor a in the mimicry router a in the mimicry device cluster will be taken as an example, and how to perform the offline operation on the heterogeneous executer of the target mimicry device in the mimicry device cluster will be exemplified.
For example, as shown in fig. 5, fig. 5 is a schematic flowchart of the offline operation performed on the heterogeneous executor a in the mimic router a in the mimic device cluster according to the embodiment of the present invention, where when the offline operation is performed on the heterogeneous executor a, 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 executor management submodule and a monitoring submodule, and for example, the monitoring submodule may be a traffic monitoring submodule. Referring to fig. 5, the process of performing the offline operation on the heterogeneous executor a may include:
the operation and maintenance management module receives an offline operation instruction; the offline operation instruction comprises the type of the mimic router A, the identifier of the mimic router A and the identifier of the heterogeneous executor a to be offline in the mimic router A; and searching whether the type of the mimic router belongs to a preset mimic device type corresponding to the mimic device cluster.
If the mimicry router type is determined not to belong to the preset mimicry equipment type corresponding to the mimicry equipment cluster, and the current offline operation instruction is an error operation instruction, stopping the offline operation; on the contrary, if the mimicry router type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module checks the log management module according to the identifier of the mimicry router a and the identifier of the heterogeneous executor a, and judges whether the heterogeneous executor a is in the offline state.
If the heterogeneous executive body a is determined to be in the offline state, ending the operation; on the contrary, if the heterogeneous executor a is determined to be in the non-offline state, the operation and maintenance management module sends an offline instruction to an executor management submodule in the mimicry router management module, where the offline instruction includes the identifier of the mimicry router a, the identifier of the heterogeneous executor a, and the offline operation type.
After receiving the offline instruction, the executive management submodule searches the mimicry router A from a plurality of mimicry devices of the same type managed by the executive management submodule according to the identifier of the mimicry router A included in the offline instruction, and sends an instruction for controlling the heterogeneous executive a to go offline to the mimicry router A; correspondingly, the mimic router A executes the instruction after receiving the instruction, and the heterogeneous executive body a is offline, so that offline operation of the heterogeneous executive body a is realized. In addition, after the pseudo router a performs offline operation on the heterogeneous executor a, the pseudo router a may send offline state information of the heterogeneous executor a to the executor management sub-module, so that the executor management sub-module acquires the offline state information of the heterogeneous executor a.
The executive management submodule sends the state information after the heterogeneous executive a is updated, namely the offline state to the log management module; the traffic monitoring submodule monitors the characteristic parameters of the mimic router A and sends the characteristic parameters to the log management module; in addition, the execution body management sub-module is further configured to recycle the internal network resources allocated to the heterogeneous execution body a after the heterogeneous execution body a is offline, so that the internal network resources are allocated to a new heterogeneous execution body subsequently when the new heterogeneous execution body is online in the pseudo-router a, and thus the utilization rate of the internal network resources can be effectively improved.
The log management module updates the state information of the heterogeneous executive body a into an updated line state, manages the mimic router A by combining the characteristic parameters, can end the relevant operation of the heterogeneous executive body a in the mimic router A, and displays the characteristic parameters of the mimic router A and the updated state information of the heterogeneous executive body a to a user on a visual plane through the operation and maintenance management module, so that the user can conveniently know and check the characteristic parameters of the mimic router A and the updated state information of the heterogeneous executive body a in time.
For example, in one case, when the change operation instruction may include a rollback operation instruction, the offline operation instruction further includes an identification of a target heterogeneous executable to be rolled back in the target mimicry device and a rollback operation type; correspondingly, the comprehensive management subsystem comprises an operation and maintenance management module and a log management module, and the mimicry equipment management subsystem comprises a target mimicry equipment management module corresponding to the type of the target mimicry equipment. For example, the method for the management system of the mimicry device cluster to implement unified management on the mimicry device cluster through the integrated management subsystem and the mimicry device management module may include:
the operation and maintenance management module is used for receiving an input rollback operation instruction, wherein the rollback operation instruction comprises the type and the identification of target mimicry equipment to be operated and the identification of a target heterogeneous executive to be rolled back in the target mimicry equipment; and searching whether the type belongs to a preset mimicry device type corresponding to the mimicry device cluster.
If the determined type does not belong to the preset mimicry equipment type corresponding to the mimicry equipment cluster, and the current rollback operation instruction is an error operation instruction, stopping the rollback operation; on the contrary, if the type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module is further configured to, under the condition that the type belongs to the preset mimicry device type, check the log management module according to the identifier of the target mimicry device and the identifier of the target heterogeneous executive, and determine whether the target heterogeneous executive is in an offline state.
If the target heterogeneous execution body is determined to be in the non-offline state, the operation and maintenance management module is further configured to send an offline instruction to the execution management sub-module under the condition that the target heterogeneous execution body is in the non-offline state, where the offline instruction includes an identifier of the target mimicry device, an identifier of the target heterogeneous execution body, and an offline operation type; and the executive management sub-module is also used for controlling the target heterogeneous executive to execute offline operation according to the offline instruction so as to enable the target heterogeneous executive to be in an offline state, and continuously executing rollback operation of the target heterogeneous executive in a non-offline state. It can be understood that, here, a method for sending the offline instruction to the executor management sub-module and controlling the target heterogeneous executor to execute the offline operation according to the offline instruction by the executor management sub-module is similar to the above-mentioned method for sending the offline instruction to the executor management sub-module and controlling the target heterogeneous executor to execute the offline operation according to the offline instruction when the operation instruction is changed to be the offline operation instruction, reference may be made to the above-mentioned description about the control of the target heterogeneous executor to execute the offline operation, and no further description is given in this embodiment of the present invention.
If the target heterogeneous executive body is determined to be in the offline state, the operation and maintenance management module is further used for sending a rollback instruction to the executive body management sub-module, wherein the rollback instruction comprises the identification of the target mimicry device, the identification of the target heterogeneous executive body and the rollback operation type.
And the executive management submodule is used for controlling the target heterogeneous executive to execute the rollback operation according to the rollback instruction.
For example, the rollback operation instruction may be a single instruction or a script instruction, and the script instruction may concurrently change multiple mimicry devices or multiple heterogeneous executors.
For example, after receiving the input rollback operation instruction, the operation and maintenance management module may parse the rollback operation instruction, so as to extract, from the rollback operation instruction, that the rollback operation instruction includes the type and the identifier of the target mimicry device to be operated, and the identifier of the target heterogeneous execution unit to be rolled back in the target mimicry device.
For example, since the executor management sub-module manages a plurality of mimicry devices of the same type as the target mimicry device, when the executor management sub-module controls the target heterogeneous executor to execute the rollback operation according to the rollback instruction, the executor management sub-module may first find the target mimicry device from the plurality of mimicry devices of the same type managed by the executor management sub-module according to the identifier of the target mimicry device included in the rollback instruction, and send an instruction for controlling the target heterogeneous executor to rollback to the target mimicry device; correspondingly, after receiving the instruction, the target mimicry device executes the instruction and rolls back the target heterogeneous executive body; in addition, the executive management submodule can also reallocate network resources and storage computing resources, so that the rollback operation of the target heterogeneous executive is realized, and each mimicry device can be accurately managed.
In addition, after the target mimicry device rolls back the target heterogeneous execution body, the target mimicry device may send the roll-back state of the target heterogeneous execution body to the execution body management sub-module, so that the execution body management sub-module obtains the roll-back state of the target heterogeneous execution body.
With reference to the above description, after the rollback operation of the target heterogeneous executable is performed, for example, the target mimicry device management module further includes a monitoring sub-module.
The executive management submodule is further configured to send the updated state information of the target heterogeneous executive, that is, the rollback state, to the log management module.
And 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 a rollback state and managing the target mimicry equipment by combining the characteristic parameters.
It can be understood that, when the monitoring sub-module monitors the characteristic parameters of the target mimicry device and sends the characteristic parameters to the log management module, the characteristic parameters may include the relevant parameters of each heterogeneous executive in the target mimicry device.
For example, after the log management module updates the state information of the target mimicry device to the rollback state, the updated state information of the target mimicry device may be recorded, and the target mimicry device may be managed by combining the characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to the operation and maintenance management module in real time, so that the operation and maintenance management module displays the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to a user through a visual interface, and the user can conveniently know and check the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body in time.
It can be seen that, when the rollback operation is performed on the heterogeneous executant of the target mimicry device in the mimicry device cluster through the rollback operation instruction, the comprehensive management subsystem includes an operation and maintenance management module and a log management module, the mimicry device management subsystem includes a target mimicry device management module corresponding to the type of the target mimicry device, and the mimicry device management module includes an execution management submodule. The operation and maintenance management module is used for receiving an input rollback operation instruction and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster; under the condition that the type belongs to the preset mimicry equipment type, checking a log management module according to the identification of the target mimicry equipment and the identification of the target heterogeneous executive body, and judging whether the target heterogeneous executive body is in an offline state; and sending a rollback instruction to the executive management submodule under the condition that the target heterogeneous executive is in an offline state; the execution management sub-module is used for controlling the target heterogeneous executer to execute the rollback operation according to the rollback instruction, so that the rollback operation is executed on the heterogeneous executer of the target mimicry device in the mimicry device cluster through the rollback operation instruction, and the unified management on the mimicry device cluster is achieved.
In combination with the above-mentioned description of performing a rollback operation on the heterogeneous executor of the target pseudo device in the pseudo device cluster, in the embodiment of the present invention, in order to facilitate understanding how to perform a rollback operation on the heterogeneous executor of the target pseudo device in the pseudo device cluster, in the following, taking performing a rollback operation on the heterogeneous executor a in the pseudo router a in the pseudo device cluster as an example, how to perform a rollback operation on the heterogeneous executor of the target pseudo device in the pseudo device cluster is exemplified.
For example, as shown in fig. 6, fig. 6 is a schematic flowchart illustrating a process of performing a rollback operation on a heterogeneous executor a in a mimic router a in a mimic device cluster according to an embodiment of the present invention, where when the rollback operation is performed on the heterogeneous executor a, the integrated 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 a mimic router type, and the mimic router management module includes an executor management sub-module and a monitoring sub-module, and for example, the monitoring sub-module may be a traffic monitoring sub-module. Referring to fig. 6, the process of performing a rollback operation on the heterogeneous executor a may include:
the operation and maintenance management module receives a rollback operation instruction; the rollback operation instruction comprises the type of the mimic router A, the identifier of the mimic router A and the identifier of a heterogeneous executor a to be rolled back in the mimic router A; and searching whether the type of the mimic router belongs to a preset mimic device type corresponding to the mimic device cluster.
If the type of the mimicry router is determined not to belong to the preset mimicry equipment type corresponding to the mimicry equipment cluster, and the current rollback operation instruction is an error operation instruction, stopping the rollback operation; on the contrary, if the mimicry router type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module checks the log management module according to the identifier of the mimicry router a and the identifier of the heterogeneous executor a, and judges whether the heterogeneous executor a is in the offline state.
If the heterogeneous executor a is determined to be in the non-offline state, the operation and maintenance management module sends an offline instruction to the executor management submodule, wherein the offline instruction comprises the identifier of the mimicry router A, the identifier of the heterogeneous executor a and the offline operation type; the executive management submodule is further used for controlling the heterogeneous executive a to execute offline operation according to the offline instruction so that the heterogeneous executive a is in an offline state, and continuing to execute rollback operation of the heterogeneous executive a in a non-offline state. It can be understood that, here, a method for sending the offline instruction to the executive management submodule and controlling the heterogeneous executor a to execute the offline operation according to the offline instruction by the executive management submodule is similar to the above-mentioned method for sending the offline instruction to the executive management submodule when the operation instruction is changed into the offline operation instruction and controlling the heterogeneous executor a to execute the offline operation according to the offline instruction by the executive management submodule, reference may be made to the above-mentioned description related to controlling the heterogeneous executor a to execute the offline operation, and no further description is given in this embodiment of the present invention.
And if the heterogeneous executor a is determined to be in the offline state, the operation and maintenance management module is further configured to send a rollback instruction to the executor management sub-module, where the rollback instruction includes the identifier of the mimic router a, the identifier of the heterogeneous executor a, and the rollback operation type.
After receiving the rollback instruction, the executive management sub-module searches the mimic router A from the mimic devices of the same type managed by the mimic router A according to the identifier of the mimic router A included in the rollback instruction, and sends an instruction for controlling the rollback of the heterogeneous executive a to the mimic router A; correspondingly, after receiving the instruction, the mimic router A executes the instruction, and rolls back the heterogeneous executor a, and in addition, the executor management submodule can also reallocate network resources and storage computing resources, so that the roll-back operation of the heterogeneous executor a is realized. In addition, after rolling back the heterogeneous executor a, the mimic router a may send the rolling back state of the heterogeneous executor a to the executor management sub-module, so that the executor management sub-module obtains the rolling back state of the heterogeneous executor a.
The execution body management submodule sends the rollback state of the heterogeneous execution body a to the log management module; and the flow monitoring submodule 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 into a rollback state, manages the target mimicry equipment by combining the characteristic parameters, can end the related operation of the heterogeneous executive a in the mimicry router A, and displays the characteristic parameters of the mimicry router A and the updated state information of the heterogeneous executive a to a user on a visual plane through the operation and maintenance management module, so that the user can conveniently know and check the characteristic parameters of the mimicry router A and the updated state information of the heterogeneous executive a in time.
In another case, when the change operation instruction may include an activation operation type, the activation operation instruction further includes an identification of a target heterogeneous executable to be activated in the target mimicry device and the activation operation type; correspondingly, the comprehensive 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 of the target mimicry equipment, and the mimicry equipment management module comprises an executive management submodule. For example, the method for the management system of the mimicry device cluster to implement unified management on the mimicry device cluster through the integrated management subsystem and the mimicry device management module may include:
the operation and maintenance management module is used for receiving an input activation operation instruction, wherein the activation operation instruction comprises the type and the identification of target mimicry equipment to be operated and the identification of a target heterogeneous executive to be activated in the target mimicry equipment; and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster.
If the determined type does not belong to the preset mimicry equipment type corresponding to the mimicry equipment cluster, and the current activation operation instruction is an error operation instruction, stopping the current activation operation; on the contrary, if the type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module is further configured to check the log management module according to the identifier of the target mimicry device and the identifier of the target heterogeneous executive, and determine whether the target heterogeneous executive is in an operating state.
If the target heterogeneous executive body is determined to be in the running state, ending the activation operation; if the target heterogeneous executive body is determined to be in the non-running state, the operation and maintenance management module is further used for sending an activation instruction to the executive body management submodule, wherein the activation instruction comprises the identification of the target mimicry device, the identification of the target heterogeneous executive body and the activation operation type.
And the executive management submodule is used for controlling the target heterogeneous executive to execute the activation operation according to the activation instruction.
For example, the operation activating instruction may be a single instruction or a script instruction, and the script instruction may concurrently change multiple mimicry devices or multiple heterogeneous executors.
For example, after receiving an input activation operation instruction, the operation and maintenance management module may parse the activation operation instruction to extract, from the activation operation instruction, that the activation operation instruction includes a type and an identifier of a target mimicry device to be operated, and an identifier of a target heterogeneous execution entity to be activated in the target mimicry device.
For example, since the executor management sub-module manages a plurality of mimicry devices of the same type as the target mimicry device, when the executor management sub-module controls the target heterogeneous executor to execute the activation operation according to the activation instruction, the executor management sub-module may first find the target mimicry device from the plurality of mimicry devices of the same type managed by the executor management sub-module according to the identifier of the target mimicry device included in the activation instruction, and send an instruction for controlling the activation of the target heterogeneous executor to the target mimicry device; correspondingly, the target mimicry device executes the instruction after receiving the instruction, and activates the target heterogeneous executive body, so that the activation operation of the target heterogeneous executive body is realized, and each mimicry device can be accurately managed.
In addition, after activating the target heterogeneous execution body, the target mimicry device may send the activation state of the target heterogeneous execution body to the execution body management sub-module, so that the execution body management sub-module obtains the activation state of the target heterogeneous execution body.
In conjunction with the above description, after the activation operation of the target heterogeneous executable is performed, the target mimicry device management module may further include a monitoring sub-module.
The executive management submodule is further configured to send the updated state information, i.e., the activation state, of the target heterogeneous executive to the log management module.
And 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 an activated state and managing the target mimicry equipment by combining the characteristic parameters.
It can be understood that, when the monitoring sub-module monitors the characteristic parameters of the target mimicry device and sends the characteristic parameters to the log management module, the characteristic parameters may include the relevant parameters of each heterogeneous executive in the target mimicry device.
For example, after the log management module updates the state information of the target mimicry device to the active state, the updated state information of the target mimicry device may be recorded, and the target mimicry device may be managed by combining the characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to the operation and maintenance management module in real time, so that the operation and maintenance management module displays the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to a user through a visual interface, and the user can conveniently know and check the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body in time.
It can be seen that, when the activation operation is performed on the heterogeneous executer of the target mimicry device in the mimicry device cluster through the activation operation instruction, the comprehensive management subsystem includes an operation and maintenance management module and a log management module, the mimicry device management subsystem includes a target mimicry device management module corresponding to the type of the target mimicry device, and the mimicry device management module includes an executive management sub-module. The operation and maintenance management module is used for receiving an input activation operation instruction and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster; under the condition that the type belongs to the preset mimicry equipment type, checking a log management module according to the identification of the target mimicry equipment and the identification of the target heterogeneous executive body, and judging whether the target heterogeneous executive body is in an operating state; under the condition that the target heterogeneous execution body is in a non-running state, an activation instruction is sent to the execution body management submodule; the executive management sub-module is used for controlling the target heterogeneous executive to execute the activation operation according to the activation instruction, so that the activation operation is executed on the heterogeneous executive of the target mimicry equipment in the mimicry equipment cluster through the activation operation instruction, and the unified management of the mimicry equipment cluster is realized.
In combination with the above-mentioned description of performing the activation operation on the heterogeneous executor of the target pseudo device in the pseudo device cluster, in the embodiment of the present invention, in order to facilitate understanding how to perform the activation operation on the heterogeneous executor of the target pseudo device in the pseudo device cluster, below, taking the execution of the activation operation on the heterogeneous executor a in the pseudo router a in the pseudo device cluster as an example, how to perform the activation operation on the heterogeneous executor of the target pseudo device in the pseudo device cluster will be exemplified.
For example, as shown in fig. 7, fig. 7 is a schematic flowchart illustrating a process of performing an activation operation on a heterogeneous executor a in a mimic router a in a mimic device cluster according to an embodiment of the present invention, where the integrated management subsystem includes an operation and maintenance management module and a log management module when performing the activation operation on the heterogeneous executor a, the mimic device management subsystem includes a mimic router management module of a mimic router type, and the mimic router management module includes an executor management submodule and a monitoring submodule, and for example, the monitoring submodule may be a traffic monitoring submodule. Referring to fig. 7, the process of performing the activation operation on the heterogeneous executor a may include:
the operation and maintenance management module receives an activation operation instruction; the activation operation instruction comprises the type of the mimic router A, the identifier of the mimic router A and the identifier of a heterogeneous executor a to be activated in the mimic router A; and searching whether the type of the mimic router belongs to a preset mimic device type corresponding to the mimic device cluster.
If the type of the mimicry router is determined not to belong to the preset mimicry equipment type corresponding to the mimicry equipment cluster, and the current activation operation instruction is an error operation instruction, stopping the activation operation; on the contrary, if the mimicry router type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module checks the log management module according to the identifier of the mimicry router a and the identifier of the heterogeneous executive body a, and judges whether the heterogeneous executive body a is in the running state.
If the heterogeneous executive body a is determined to be in the running state, ending the activation operation; if the heterogeneous executor a is determined to be in the non-running state, the operation and maintenance management module is further configured to send an activation instruction to the executor management sub-module, where the activation instruction includes an identifier of the mimic router a, an identifier of the heterogeneous executor a, and an activation operation type.
After receiving the activation instruction, the execution management sub-module searches the mimicry router A from a plurality of mimicry devices of the same type managed by the execution management sub-module according to the identifier of the mimicry router A included in the activation instruction, and sends an instruction for controlling the activation of the heterogeneous execution body a to the mimicry router A; correspondingly, after receiving the instruction, the mimic router A executes the instruction to activate the heterogeneous executor a, thereby realizing the activation operation of the heterogeneous executor a. In addition, after activating the heterogeneous executor a, the mimic router a may send the activation state of the heterogeneous executor a to the executor management sub-module, so that the executor management sub-module acquires the activation state of the heterogeneous executor a.
The execution body management submodule sends the activation state of the heterogeneous execution body a to the log management module; and the flow monitoring submodule 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 into an activated state, manages the target mimicry device by combining the characteristic parameters, can end the related operation of the heterogeneous executive a in the mimicry router A, and displays the characteristic parameters of the mimicry router A and the updated state information of the heterogeneous executive a to a user on a visual plane through the operation and maintenance management module, so that the user can conveniently know and check the characteristic parameters of the mimicry router A and the updated state information of the heterogeneous executive a in time.
In another case, when the change operation instruction may include a start operation type, the start operation instruction further includes an identifier of a target heterogeneous executable to be started in the target mimicry device and the start operation type; correspondingly, the comprehensive 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 of the target mimicry equipment, and the mimicry equipment management module comprises an executive management submodule. For example, the method for the management system of the mimicry device cluster to implement unified management on the mimicry device cluster through the integrated management subsystem and the mimicry device management module may include:
the operation and maintenance management module is used for receiving an input starting operation instruction, wherein the starting operation instruction comprises the type and the identification of target mimicry equipment to be operated and the identification of a target heterogeneous executive to be started in the target mimicry equipment; and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster.
If the determined type does not belong to the preset mimicry equipment type corresponding to the mimicry equipment cluster, and the current starting operation instruction is an error operation instruction, stopping the starting operation; on the contrary, if the type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module is further configured to check the log management module according to the identifier of the target mimicry device and the identifier of the target heterogeneous executive, and determine whether the target heterogeneous executive is in an operating state.
If the target heterogeneous executive body is determined to be in the running state, ending the starting operation; and if the target heterogeneous executive body is determined to be in a non-running state, the operation and maintenance management module is further used for sending a starting instruction to the executive body management submodule, wherein the starting instruction comprises the identification of the target mimicry device, the identification of the target heterogeneous executive body and the starting operation type.
And the executive management submodule is used for controlling the target heterogeneous executive to execute the starting operation according to the starting instruction.
For example, the start operation instruction may be a single instruction or a script instruction, and the script instruction may concurrently change multiple mimicry devices or multiple heterogeneous executors.
For example, after receiving the input start operation instruction, the operation and maintenance management module may parse the start operation instruction to extract, from the start operation instruction, that the start operation instruction includes the type and the identifier of the target mimicry device to be operated and the identifier of the target heterogeneous execution entity to be started in the target mimicry device.
For example, since the executor management sub-module manages a plurality of mimicry devices of the same type as the target mimicry device, when the executor management sub-module controls the target heterogeneous executor to execute the start operation according to the start instruction, the executor management sub-module may first find the target mimicry device from the plurality of mimicry devices of the same type managed by the executor management sub-module according to the identifier of the target mimicry device included in the start instruction, send an instruction for controlling the start of the target heterogeneous executor to the target mimicry device, and allocate network resources and store computing resources for the target heterogeneous executor; correspondingly, the target mimicry device executes the instruction after receiving the instruction, and starts the target heterogeneous executive body, so that the starting operation of the target heterogeneous executive body is realized, and each mimicry device can be accurately managed.
In addition, after starting the target heterogeneous execution body, the target mimicry device may send the starting state of the target heterogeneous execution body to the execution body management sub-module, so that the execution body management sub-module obtains the starting state of the target heterogeneous execution body.
With reference to the above description, after the start operation of the target heterogeneous executable is executed, for example, the target mimicry device management module further includes a monitoring sub-module.
The executive management submodule is further configured to send the updated state information of the target heterogeneous executive, that is, the starting state to the log management module.
And the monitoring sub-module 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 a starting state and managing the target mimicry equipment by combining the characteristic parameters.
It can be understood that, when the monitoring sub-module monitors the characteristic parameters of the target mimicry device and sends the characteristic parameters to the log management module, the characteristic parameters may include the relevant parameters of each heterogeneous executive in the target mimicry device.
For example, after the log management module updates the state information of the target mimicry device to the start state, the log management module may record the updated state information of the target mimicry device, and manage the target mimicry device by combining the characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to the operation and maintenance management module in real time, so that the operation and maintenance management module displays the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to a user through a visual interface, and the user can conveniently know and check the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body in time.
It can be seen that, when the start operation is performed on the heterogeneous executer of the target mimicry device in the mimicry device cluster through the start operation instruction, the comprehensive management subsystem includes an operation and maintenance management module and a log management module, the mimicry device management subsystem includes a target mimicry device management module corresponding to the type of the target mimicry device, and the mimicry device management module includes an executive management sub-module. The operation and maintenance management module is used for receiving an input starting operation instruction and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster; under the condition that the type belongs to the preset mimicry equipment type, checking a log management module according to the identification of the target mimicry equipment and the identification of the target heterogeneous executive body, and judging whether the target heterogeneous executive body is in an operating state; under the condition that the target heterogeneous execution body is in a non-running state, sending a starting instruction to the execution body management submodule; the executive management sub-module is used for controlling the target heterogeneous executive body to execute the starting operation according to the starting instruction, so that the starting operation is executed on the heterogeneous executive body of the target mimicry equipment in the mimicry equipment cluster through the starting operation instruction, and the unified management of the mimicry equipment cluster is realized.
In combination with the above-mentioned description of performing the start operation on the heterogeneous executer of the target pseudo device in the pseudo device cluster, in the embodiment of the present invention, in order to facilitate understanding how to perform the start operation on the heterogeneous executer of the target pseudo device in the pseudo device cluster, below, taking the start operation on the heterogeneous executor a in the pseudo router a in the pseudo device cluster as an example, how to perform the start operation on the heterogeneous executor of the target pseudo device in the pseudo device cluster will be exemplified.
For example, as shown in fig. 8, fig. 8 is a schematic flowchart illustrating a process of executing a start operation on a heterogeneous executor a in a mimic router a in a mimic device cluster according to an embodiment of the present invention, where when the start operation is executed on the heterogeneous executor a, the integrated 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 a mimic router type, and the mimic router management module includes an executor management submodule and a monitoring submodule, and for example, the monitoring submodule may be a traffic monitoring submodule. Referring to fig. 8, the process of performing the boot operation on the heterogeneous executor a may include:
the operation and maintenance management module receives a starting operation instruction; the starting operation instruction comprises the type of the mimic router A, the identifier of the mimic router A and the identifier of a heterogeneous executor a to be started in the mimic router A; and searching whether the type of the mimic router belongs to a preset mimic device type corresponding to the mimic device cluster.
If the type of the mimicry router is determined not to belong to the preset mimicry equipment type corresponding to the mimicry equipment cluster, and the current starting operation instruction is an error operation instruction, stopping the starting operation; on the contrary, if the mimicry router type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module checks the log management module according to the identifier of the mimicry router a and the identifier of the heterogeneous executive body a, and judges whether the heterogeneous executive body a is in the running state.
If the heterogeneous executive body a is determined to be in the running state, ending the starting operation; and if the heterogeneous executor a is determined to be in the non-running state, the operation and maintenance management module is further configured to send a starting instruction to the executor management submodule, where the starting instruction includes the identifier of the mimic router a, the identifier of the heterogeneous executor a, and the starting operation type.
After receiving the starting instruction, the executive management sub-module searches the mimicry router A from a plurality of mimicry devices of the same type managed by the executive management sub-module according to the identifier of the mimicry router A included in the starting instruction, sends an instruction for controlling the start of the heterogeneous executive body a to the mimicry router A, and allocates network resources and stores and calculates resources for the heterogeneous executive body a; correspondingly, the mimic router A executes the instruction after receiving the instruction, and starts the heterogeneous executor a, thereby realizing the starting operation of the heterogeneous executor a. In addition, after starting the heterogeneous executor a, the mimic router a may send the starting state of the heterogeneous executor a to the executor management sub-module, so that the executor management sub-module acquires the starting state of the heterogeneous executor a.
The execution body management submodule sends the starting state of the heterogeneous execution body a to the log management module; and the flow monitoring submodule 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 into a starting state, manages the target mimicry device by combining the characteristic parameters, can end the related operation of the heterogeneous executive body a in the mimicry router A, and displays the characteristic parameters of the mimicry router A and the updated state information of the heterogeneous executive body a to a user on a visual plane through the operation and maintenance management module, so that the user can conveniently know and check the characteristic parameters of the mimicry router A and the updated state information of the heterogeneous executive body a in time.
In another case, when the change operation instruction may include a restart operation type, the restart operation instruction further includes an identifier of a target heterogeneous execution body to be restarted in the target mimicry device and the restart operation type; correspondingly, the comprehensive 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 of the target mimicry equipment, and the mimicry equipment management module comprises an executive management submodule. By way of example, the method for the management system of the mimic device cluster to implement unified management on 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 for receiving an input restart operation instruction, wherein the restart operation instruction comprises the type and the identification of target mimicry equipment to be operated and the identification of a target heterogeneous executive to be restarted in the target mimicry equipment; and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster.
If the determined type does not belong to the preset mimicry equipment type corresponding to the mimicry equipment cluster, and the current restarting operation instruction is an error operation instruction, stopping the restarting operation; on the contrary, if the type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module is further configured to check the log management module according to the identifier of the target mimicry device and the identifier of the target heterogeneous executive, and determine whether the target heterogeneous executive is in an operating state.
If it is determined that the target heterogeneous executive is in the non-running state, the start operation of the target heterogeneous executive is executed, and the method is similar to the above-mentioned method for controlling the start of the target heterogeneous executive when the change operation instruction is the start operation instruction, which can be referred to the above-mentioned related description.
And if the target heterogeneous executive body is determined to be in the running state, the operation and maintenance management module is further used for sending a restarting instruction to the executive body management submodule, wherein the restarting instruction comprises the identifier of the target mimicry device, the identifier of the target heterogeneous executive body and the restarting 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.
For example, the restart operation instruction may be a single instruction or a script instruction, and the script instruction may concurrently change multiple mimicry devices or multiple heterogeneous executors.
For example, after receiving the input restart operation instruction, the operation and maintenance management module may parse the restart operation instruction to extract, from the restart operation instruction, that the restart operation instruction includes a type and an identifier of a target mimic device to be operated and an identifier of a target heterogeneous execution entity to be restarted in the target mimic device.
For example, since the executor management sub-module manages a plurality of mimicry devices of the same type as the target mimicry device, when the executor management sub-module controls the target heterogeneous executor to execute the restart operation according to the restart instruction, the executor management sub-module may first find the target mimicry device from the plurality of mimicry devices of the same type managed by the executor management sub-module according to the identifier of the target mimicry device included in the restart instruction, and send an instruction for controlling the target heterogeneous executor to restart to the target mimicry device; correspondingly, the target mimicry device executes the instruction after receiving the instruction, and restarts the target heterogeneous execution body, so that the restart operation of the target heterogeneous execution body is realized, and each mimicry device can be accurately managed.
In addition, after restarting the target heterogeneous execution body, the target mimicry device may send the restart state of the target heterogeneous execution body to the execution body management sub-module, so that the execution body management sub-module obtains the restart state of the target heterogeneous execution body.
In combination with the above description, after the reboot operation of the target heterogeneous execution block is performed, the target mimicry device management module further includes a monitoring sub-module.
The executive management submodule is further configured to send state information, namely a restart state, after the target heterogeneous executive is updated to the log management module.
And 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 a restarting state and managing the target mimicry equipment by combining the characteristic parameters.
It can be understood that, when the monitoring sub-module monitors the characteristic parameters of the target mimicry device and sends the characteristic parameters to the log management module, the characteristic parameters may include the relevant parameters of each heterogeneous executive in the target mimicry device.
For example, after the log management module updates the state information of the target mimicry device to the restart state, the log management module may record the updated state information of the target mimicry device, and manage the target mimicry device by combining the characteristic parameters. In addition, the log management module can also transmit the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to the operation and maintenance management module in real time, so that the operation and maintenance management module displays the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body to a user through a visual interface, and the user can conveniently know and check the characteristic parameters of the target miming device and the updated state information of the target heterogeneous executive body in time.
It can be seen that, when the restart operation is performed on the heterogeneous executer of the target mimicry device in the mimicry device cluster through the restart operation instruction, the comprehensive management subsystem includes an operation and maintenance management module and a log management module, the mimicry device management subsystem includes a target mimicry device management module corresponding to the type of the target mimicry device, and the mimicry device management module includes an executive management submodule. The operation and maintenance management module is used for receiving an input restart operation instruction and searching whether the type of the target mimicry equipment belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster; under the condition that the type belongs to the preset mimicry equipment type, checking a log management module according to the identification of the target mimicry equipment and the identification of the target heterogeneous executive body, and judging whether the target heterogeneous executive body is in an operating state; under the condition that the target heterogeneous execution body is in the running state, a restarting instruction is sent to the execution body management submodule; the execution management submodule is used for controlling the target heterogeneous execution body to execute the restarting operation according to the restarting instruction, so that the restarting operation is executed on the heterogeneous execution body of the target mimicry device in the mimicry device cluster through the restarting operation instruction, and the unified management on the mimicry device cluster is realized.
In combination with the above-mentioned description of performing the restart operation on the heterogeneous executer of the target pseudo device in the pseudo device cluster, in the embodiment of the present invention, in order to facilitate understanding how to perform the restart operation on the heterogeneous executer of the target pseudo device in the pseudo device cluster, below, taking the execution of the restart operation on the heterogeneous executor a in the pseudo router a in the pseudo device cluster as an example, how to perform the restart operation on the heterogeneous executer of the target pseudo device in the pseudo device cluster will be illustrated.
For example, as shown in fig. 9, fig. 9 is a schematic flowchart illustrating a process of performing a restart operation on a heterogeneous executor a in a mimic router a in a mimic device cluster according to an embodiment of the present invention, where when the restart operation is performed on the heterogeneous executor a, the integrated 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 a mimic router type, and the mimic router management module includes an executor management submodule and a monitoring submodule, and for example, the monitoring submodule may be a traffic monitoring submodule. Referring to fig. 9, the process of performing the reboot operation on the heterogeneous executor a may include:
the operation and maintenance management module receives a restart operation instruction; the restarting operation instruction comprises the type of the mimic router A, the identifier of the mimic router A and the identifier of a heterogeneous executive body a to be restarted in the mimic router A; and searching whether the type of the mimic router belongs to a preset mimic device type corresponding to the mimic device cluster.
If the type of the mimicry router is determined not to belong to the preset mimicry device type corresponding to the mimicry device cluster, and the current restarting operation instruction is an error operation instruction, stopping the restarting operation; on the contrary, if the mimicry router type is determined to belong to the preset mimicry device type corresponding to the mimicry device cluster, the operation and maintenance management module checks the log management module according to the identifier of the mimicry router a and the identifier of the heterogeneous executive body a, and judges whether the heterogeneous executive body a is in the running state.
If the heterogeneous executor a is determined to be in the non-running state, the start operation of the heterogeneous executor a is executed, the method is similar to the above-mentioned method for controlling the heterogeneous executor a when the change operation instruction is the start operation instruction, and reference may be made to the above-mentioned related description.
And if the heterogeneous executor a is determined to be in the running state, the operation and maintenance management module is further configured to send a restart instruction to the executor management submodule, where the restart instruction includes the identifier of the mimic router a, the identifier of the heterogeneous executor a, and a restart operation type.
After the execution management submodule receives the restart instruction, the mimicry router A is searched from a plurality of mimicry devices of the same type managed by the execution management submodule according to the identifier of the mimicry router A included in the restart instruction, and an instruction for controlling the heterogeneous execution body a to restart is sent to the mimicry router A; correspondingly, the mimic router A executes the instruction after receiving the instruction, and restarts the heterogeneous executive body a, thereby realizing the restarting operation of the heterogeneous executive body a. In addition, after restarting the heterogeneous executor a, the mimic router a may send the restart state of the heterogeneous executor a to the executor management sub-module, so that the executor management sub-module acquires the restart state of the heterogeneous executor a.
The execution body management submodule sends the restart state of the heterogeneous execution body a to the log management module; and the flow monitoring submodule 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 into a restart state, manages the target mimicry equipment by combining the characteristic parameters, can end the related operation of the heterogeneous executive a in the mimicry router A, and displays the characteristic parameters of the mimicry router A and the updated state information of the heterogeneous executive a on a visual plane through the operation and maintenance management module, so that a user can conveniently know and check the characteristic parameters of the mimicry router A and the updated state information of the heterogeneous executive a in time.
For example, in another scenario, when the operation instruction includes a delete operation instruction, the corresponding integrated management subsystem includes 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 the preset mimicry equipment type, and the mimicry equipment management module comprises an executive management submodule. For example, referring to fig. 10, a method for a management system of a mimicry device cluster to delete a target mimicry device through an integrated management subsystem and a mimicry device management module is shown, where fig. 10 is a schematic flow diagram for executing a deletion operation on a target mimicry device in the mimicry device cluster according to an embodiment of the present invention, so as to implement unified management on the mimicry device cluster through the integrated management subsystem and the mimicry device management subsystem.
The operation and maintenance management module is used for receiving an input deletion operation instruction, wherein the deletion operation instruction comprises the type and the identification of target mimicry equipment to be operated, and searching whether the type belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster; and under the condition that the type of the target mimicry equipment belongs to the preset mimicry equipment type, checking the log management module according to the identifier of the target mimicry equipment, and judging whether the mimicry equipment managed by the mimicry equipment management subsystem comprises the target mimicry equipment.
And the network resource module is also used for recovering the external network resources distributed to the target mimicry equipment under the condition that the operation and maintenance management module determines that the target mimicry equipment is included.
And the executive management sub-module is also used for recovering internal network resources distributed to the heterogeneous executive body of the target mimicry device and closing the conversation with the target mimicry device under the condition that the operation and maintenance management module determines that the target mimicry device is included.
For example, after receiving the input deletion operation instruction, the operation and maintenance management module may parse the deletion operation instruction to extract the type and the identifier of the target mimicry device to be deleted from the deletion operation instruction.
Illustratively, the operation and maintenance management module checks the log management module according to the identifier of the target mimicry device, determines whether the mimicry device managed by the mimicry device management subsystem includes the target mimicry device, and sends a deletion instruction to the network resource management module and the executive management submodule under the condition that the target mimicry device is determined to be included, wherein the deletion instruction includes the identifier of the target mimicry device, so that the network resource management module recovers the external network resource allocated to the target mimicry device according to the deletion instruction, the executive management submodule recovers the internal network resource allocated to the heterogeneous executive body of the target mimicry device according to the deletion instruction, and closes the session with the target mimicry device, so as to delete the target mimicry device from the mimicry device cluster.
When the mimicry device cluster is updated through the deleting operation instruction, the operation and maintenance management module receives the input deleting operation instruction and searches whether the type of the target mimicry device belongs to the preset mimicry device type corresponding to the mimicry device cluster; under the condition that the type of the target mimicry equipment belongs to the preset mimicry equipment type, checking the log management module according to the identifier of the target mimicry equipment, and judging whether the mimicry equipment managed by the mimicry equipment management subsystem comprises the target mimicry equipment or not; the network resource module is also used for recovering the external network resources distributed for the target mimicry equipment under the condition that the operation and maintenance management module determines that the target mimicry equipment is included; and the executive management sub-module is also used for recovering internal network resources distributed to the heterogeneous executive bodies of the target mimicry equipment under the condition that the operation and maintenance management module determines that the target mimicry equipment is included, closing the session with the target mimicry equipment, and deleting the target mimicry equipment from the mimicry equipment cluster, so that the mimicry equipment cluster is updated by deleting the operation instruction, and the unified management of the mimicry equipment cluster is realized.
In addition, the executive management submodule is also used for sending the successful deleting state information of the target mimicry equipment to the log management module; correspondingly, 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.
For example, after the log management module updates the state information of the target mimicry device to the deleted state, the updated state information of the target mimicry device may be recorded. In addition, the log management module can also transmit the updated state information of the target mimicry device to the operation and maintenance management module in real time, so that the operation and maintenance management module displays the updated state information of the target mimicry device to a user through a visual interface, and the user can conveniently know and check the updated state information of the target mimicry device in time.
It should be noted that the management method for the mimicry device cluster provided in the embodiment of the present invention may also be applied to management of a common device cluster, and only a plurality of heterogeneous executors in the mimicry device need to be changed into one executor.
The management method of the mimicry device cluster provided by the present invention is described below, and the management method of the mimicry device cluster described below and the management system of the mimicry device cluster described above may be referred to correspondingly.
Fig. 11 is a schematic flowchart of a management method for a mimicry device cluster according to an embodiment of the present invention, and is applied to a management system for the mimicry device cluster, where the management system for the mimicry device cluster includes a comprehensive management subsystem and a mimicry device management subsystem. For example, please refer to fig. 11, the method for managing a mimic device cluster may include:
s1101, 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.
And S1102, searching whether the type belongs to a preset mimicry device type corresponding to the mimicry device cluster through the comprehensive management subsystem.
And S1103, triggering the mimicry device management subsystem to execute corresponding operation on the target mimicry device according to the operation instruction through the comprehensive management subsystem according to the search result, so as to manage the mimicry device in the mimicry device cluster.
Illustratively, the operation instruction comprises an access operation instruction, and the comprehensive management subsystem triggers the mimicry device management subsystem to execute corresponding operation on the target mimicry device according to the operation instruction, including:
and distributing external network resources for the target mimicry equipment by using a network resource management module in the comprehensive management subsystem under the condition that the operation and maintenance management module in the comprehensive management subsystem determines that the type belongs to the preset mimicry equipment type.
And allocating internal network resources for a heterogeneous executive body in the target mimicry equipment through an executive body management submodule in a mimicry equipment management module corresponding to the type of the target mimicry equipment, wherein the mimicry equipment management subsystem comprises the executive body management submodule, so that the target mimicry equipment is accessed into the mimicry equipment cluster based on the external network resources and the internal network resources.
Illustratively, the management method of the mimicry device cluster further comprises:
and sending the successful access state information of the target mimicry equipment to a log management module in the comprehensive management subsystem through the executive management submodule.
And monitoring the characteristic parameters of the target mimicry equipment by a monitoring submodule in the mimicry equipment management subsystem, and sending the characteristic parameters to the log management module.
And updating the state information of the target mimicry equipment into an accessed state through a log management module according to the successful access state information, and managing the target mimicry equipment by combining the characteristic parameters.
Exemplarily, the method for managing a mimicry device cluster further includes:
and adding a mimic device management module corresponding to the type in the mimic device management subsystem under the condition that the operation and maintenance management module determines that the type does not belong to the preset mimic device type through a normalization module in the comprehensive management subsystem.
And setting characteristic parameters corresponding to the mimic device of the type through the monitoring submodule.
Exemplarily, the operation instruction includes an operation instruction to be changed, the operation instruction to be changed further includes an identifier of a target heterogeneous execution entity to be changed in the target mimicry device and a type of the operation to be changed, and the synthetic management subsystem triggers the mimicry device management subsystem to execute a corresponding operation on the target mimicry device according to the operation instruction according to a search result, including:
under the condition that the type of the operation and maintenance management module in the integrated management subsystem belongs to the preset mimicry equipment type, checking a log management module in the integrated management subsystem according to the identification of the target mimicry equipment and the identification of the target heterogeneous executive body, and judging whether the target heterogeneous executive body is in a preset state; the preset state is an off-line state or an operating state.
And sending a change instruction to an executive management submodule in the mimicry equipment management module corresponding to the type of the target mimicry equipment in the mimicry equipment management subsystem through the operation and maintenance management module according to the judgment result, wherein the change instruction comprises the identification of the target mimicry equipment, the identification of a target heterogeneous executive and the type of change operation.
And controlling the target heterogeneous executive body to execute corresponding change operation according to the change instruction through the executive management submodule.
Exemplarily, 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 sends a change instruction to an 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 according to the judgment result, and the change instruction comprises the following steps:
and sending an offline instruction to the executive management submodule through the operation and maintenance management module under the condition that the target heterogeneous executive is in a non-offline state, wherein the offline instruction comprises the identification of the target mimicry device, the identification of the target heterogeneous executive and the offline operation type.
Correspondingly, the execution body management sub-module controls the target heterogeneous execution body to execute corresponding change operation according to the change instruction, and the change operation comprises the following steps:
and controlling the target heterogeneous executive to execute offline operation according to the offline instruction through the executive management submodule.
Illustratively, the management method of the mimicry device cluster further comprises:
and recycling internal network resources allocated to the target heterogeneous executive through the executive management submodule, wherein the internal network resources are used for being allocated to the new heterogeneous executive when the new heterogeneous executive is online in the target mimicry equipment.
Exemplarily, the type of the change operation includes a rollback operation type, and the preset state is an offline state; wherein, the operation and maintenance management module sends a change instruction to an executive management submodule in the mimicry device management module corresponding to the type of the target mimicry device included in the mimicry device management subsystem according to the judgment result, and the change instruction comprises the following steps:
and sending a rollback instruction to the executive body management sub-module by the operation and maintenance management module under the condition that the target heterogeneous executive body is in an offline state, wherein the rollback instruction comprises the identification of the target mimicry equipment, the identification of the target heterogeneous executive body and the rollback operation type.
Correspondingly, the execution body management sub-module controls the target heterogeneous execution body to execute corresponding change operation according to the change instruction, and the change operation comprises the following steps:
and controlling the target heterogeneous executive body to execute the rollback operation according to the rollback instruction through the executive management submodule.
Illustratively, the management method of the mimicry device cluster further comprises:
and sending an offline instruction to the executive management submodule by the operation and maintenance management module under the condition that the target heterogeneous executive is in a non-offline state, wherein the offline instruction comprises the identification of the target mimicry device, the identification of the target heterogeneous executive and an offline operation type.
And controlling the target heterogeneous executive to execute offline operation according to the offline instruction through the executive management submodule.
Exemplarily, 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; wherein, the operation and maintenance management module sends a change instruction to an executive management submodule in the mimicry device management module corresponding to the type of the target mimicry device included in the mimicry device management subsystem according to the judgment result, and the change instruction comprises the following steps:
and sending a change instruction to the executive management submodule through the operation and maintenance management module under the condition that the target heterogeneous executive is in a non-running state, wherein the change instruction comprises the identification of the target mimicry equipment, the identification of the target heterogeneous executive and the type of change operation.
Correspondingly, the execution body management sub-module controls the target heterogeneous execution body to execute corresponding change operation according to the change instruction, and the change operation comprises the following steps:
and controlling the target heterogeneous executive body to execute the change operation according to the change instruction through the executive management submodule.
Exemplarily, the type of the change operation includes a restart operation type, and the preset state is a running state; wherein, the operation and maintenance management module sends a change instruction to an executive management submodule in the mimicry device management module corresponding to the type of the target mimicry device included in the mimicry device management subsystem according to the judgment result, and the change instruction comprises the following steps:
and sending a restart instruction to the executive management submodule by the operation and maintenance management module under the condition that the target heterogeneous executive is in the running state, wherein the restart instruction comprises the identification of the target mimicry equipment, the identification of the target heterogeneous executive and the restart operation type.
Correspondingly, the execution body management sub-module controls the target heterogeneous execution body to execute corresponding change operation according to the change instruction, and the change operation comprises the following steps:
and controlling the target heterogeneous executive body to execute the restarting operation according to the restarting instruction through the executive management submodule.
Illustratively, the management method of the mimicry device cluster further comprises:
and sending the updated state information of the target heterogeneous executive body to a log management module through an executive body management sub-module.
And monitoring the characteristic parameters of the target mimicry equipment by a monitoring submodule in the mimicry equipment management module corresponding to the type of the target mimicry equipment and included in the mimicry equipment management subsystem, and sending the characteristic parameters to the log management module.
And updating the state information of the target heterogeneous executive body into updated state information through a log management module, and managing the target mimicry equipment by combining the characteristic parameters.
Illustratively, the operation instruction comprises a delete operation instruction, and the synthetic management subsystem triggers the mimicry device management subsystem to execute corresponding operation on the target mimicry device according to the operation instruction, including:
and under the condition that the type belongs to the preset mimicry device type, the operation and maintenance management module in the mimicry device management subsystem checks the log management module in the mimicry device management subsystem according to the identification of the target mimicry device, and judges whether the mimicry device managed by the mimicry device management subsystem comprises the target mimicry device.
And recovering the external network resources allocated to the target mimicry equipment by a network resource module in the mimicry equipment management subsystem under the condition that the operation and maintenance management module determines that the target mimicry equipment is included.
And recovering internal network resources allocated to a heterogeneous executive body of the target mimicry equipment and closing the conversation with the target mimicry equipment by an executive management submodule in the mimicry equipment management module corresponding to the type of the target mimicry equipment included in the mimicry equipment management subsystem under the condition that the operation and maintenance management module determines that the target mimicry equipment is included.
Illustratively, the management method of the mimicry device cluster further comprises:
and sending the successful deleting state information of the target mimicry equipment to a log management module through an executive management submodule.
And updating the state information of the target mimicry equipment into a deleted state through a log management module according to the state information of successful deletion.
The implementation principle and the beneficial effect of the management method of the mimicry device cluster provided in the embodiment of the present invention are similar to those of the management system of the mimicry device cluster, and reference may be made to the implementation principle and the beneficial effect of the management system of the mimicry device cluster, which are not described herein again.
Fig. 12 illustrates a physical structure diagram of an electronic device, which may include, as shown in fig. 12: 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 via the communication bus 1240. The processor 1210 may call the logic instruction in the memory 1230 to execute a management method of a mimicry device cluster, which is applied to a management system of the mimicry device cluster, where the management system of the mimicry device cluster includes an integrated management subsystem and a mimicry device management subsystem, and the method includes: receiving an input operation instruction through the comprehensive management subsystem; the operation instruction comprises the type and the identification of target mimicry equipment to be operated, and the operation instruction comprises an access operation instruction and/or a change operation instruction; searching whether the type belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster 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.
In addition, the logic instructions in the memory 1230 may be implemented in software functional units and stored in a computer readable storage medium when the logic instructions are sold or used as a stand-alone product. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.
In another aspect, the present invention further provides a computer program product, where the computer program product includes a computer program, the computer program may be stored on a non-transitory computer-readable storage medium, and when the computer program is executed by a processor, a computer can execute the management method for a mimicry device cluster provided by the above methods, and apply to a management system for the mimicry device cluster, where the management system for the mimicry device cluster includes a comprehensive management subsystem and a mimicry device management subsystem, and the method includes: receiving an input operation instruction through the comprehensive management subsystem; the operation instruction comprises the type and the identification of target mimicry equipment to be operated, and the operation instruction comprises an access operation instruction and/or a change 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.
In still another aspect, the present invention further provides a non-transitory computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements a method for managing a mimic device cluster provided by the foregoing methods, and is applied to a management system of the mimic device cluster, where the management system of the mimic device cluster includes an integrated management subsystem and a mimic device management subsystem, and the method includes: receiving an input operation instruction through the comprehensive management subsystem; the operation instruction comprises the type and the identification of target mimicry equipment to be operated, and the operation instruction comprises an access operation instruction and/or a change operation instruction; searching whether the type belongs to a preset mimicry equipment type corresponding to the mimicry equipment cluster 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.
The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.
Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.
Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the 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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