CN112653585B

CN112653585B - Automatic staged processing method and device for service mobility

Info

Publication number: CN112653585B
Application number: CN202011532870.5A
Authority: CN
Inventors: 聂树明
Original assignee: Unihub China Information Technology Co Ltd
Current assignee: Unihub China Information Technology Co Ltd
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2022-12-02
Anticipated expiration: 2040-12-23
Also published as: CN112653585A

Abstract

The invention discloses an automatic staged processing method and device for a service mobile machine, wherein the method comprises the following steps: the two-layer configuration device and the three-layer configuration device perform machine moving pre-occupation firstly, and then perform machine moving switching after the completion of the machine moving pre-occupation, meanwhile, the three-layer configuration device updates a machine moving state, a machine moving pre-occupation state and a machine moving switching state in real time, and the two-layer configuration device and the three-layer configuration device are interacted through a work order interface; the work order interface displays the overall state and the staged state, including a machine moving state, a machine moving pre-occupation state and a machine moving switching state. The method and the device provide a set of automatic interactive configuration device with stages, two-layer networks and three-layer networks in the process of metro network government-enterprise business mobile configuration so as to realize accurate, fault-tolerant and automatic configuration in a complex mobile business scene.

Description

Automatic staged processing method and device for service mobility

Technical Field

The invention relates to the field of metro network administrative enterprise business mobile machine configuration, in particular to an automatic staged processing method and device for business mobile machines.

Background

As shown in figure 1, the networking of the government and enterprise business is changed, and the network disconnection time of a client is required to be reduced as much as possible in the changing process, so that the network networking change which is not perceived by the client is realized.

Due to the particularity of the mobile phone scene, the mobile phone needs to be completed under the condition that the government and enterprise business experience is influenced as little as possible, and the change of a two-layer network and a three-layer network is usually involved. The network of the second layer refers to the networking change of a client internet site-gateway-OLT, the network of the third layer refers to the change of MSE of a metropolitan area network, and the client internet site-gateway in the network of the second layer generally cannot change due to fiber distribution, so the actual change points are the OLT of the second layer and the MSE of the third layer.

In order to reduce the network disconnection events of the clients as much as possible and change the networking structure, the pre-occupation is generally carried out on the second layer and the third layer, the switching action is carried out after the pre-occupation of the second layer and the third layer is finished, and the original networking is detached after the switching is finished. In the process, the two layers and the three layers need to be closely interacted, which is generally realized manually originally, but because the manual operation belongs to a plurality of posts, the time consumed for moving the machine once is very long.

Disclosure of Invention

The invention provides an automatic stage processing method and device of a business mobile machine, which aims at automation and considers various fault-tolerance, and takes accuracy as a premise.

In order to realize the purpose, the invention adopts the following technical scheme:

in an embodiment of the present invention, an automatic staged processing method for a service relocation is provided, where the method includes:

the two-layer configuration device and the three-layer configuration device perform machine moving preemption firstly, and perform machine moving switching after the completion of the machine moving preemption, meanwhile, the three-layer configuration device updates a machine moving state, a machine moving preemption state and a machine moving switching state in real time, and the two-layer configuration device and the three-layer configuration device interact through a work order interface;

the work order interface displays the whole state and the staged state, including a machine moving state, a machine moving pre-occupation state and a machine moving switching state.

Furthermore, the machine moving state is subdivided into pre-occupation of machine moving to be deployed, switching of machine moving to be deployed, abnormal machine moving and success of machine moving;

the machine-moving pre-occupation state is subdivided into three-layer pre-occupation success, three-layer pre-occupation failure, machine-moving pre-occupation success, two-layer pre-occupation failure, two-layer pre-occupation rollback failure and two-layer pre-occupation rollback;

the machine moving switching state is divided into a three-layer switching success state, a three-layer switching failure state, a two-layer machine moving dismantling failure state, a machine moving switching success state, a three-layer switching dismantling failure state, a loading success state, a three-layer switching dismantling success state, a loading failure state, a three-layer switching dismantling failure state and a loading failure state.

Further, the machine-moving pre-occupation comprises:

the three-layer configuration device carries out the pre-occupation deployment of the mobile phone, and the two-layer configuration device is informed to carry out the pre-occupation of the mobile phone after the pre-occupation of the mobile phone is successful;

if the machine moving pre-occupation of the three-layer configuration device fails, performing pre-occupation rollback, setting the machine moving state as the machine moving failure, setting the machine moving pre-occupation state as the three-layer pre-occupation failure, and informing the two-layer configuration device of the three-layer machine moving pre-occupation failure through a work order interface;

after receiving the receipt information, the second-layer configuration device performs second-layer machine moving pre-occupation and informs a result of the third-layer configuration device after the machine moving pre-occupation is finished;

after the three-layer configuration device receives the result returned by the two-layer configuration device, if the result is successful, the machine moving state is changed into the machine moving switching to be deployed, the machine moving pre-occupation state is changed into the machine moving pre-occupation success, and the three-layer machine moving switching is carried out by manual deployment; if the two-layer configuration device fails, the two-layer configuration device automatically initiates a two-layer pre-occupation rollback and sends a failure result to the three-layer configuration device, the machine moving state is set as a machine moving failure, the machine moving pre-occupation state is changed into a two-layer pre-occupation failure, and the three-layer configuration device initiates the machine moving pre-occupation rollback;

according to the result of the two-layer pre-occupation rollback, the machine-moving pre-occupation state is changed into a two-layer pre-occupation rollback failure or a two-layer pre-occupation rolled back.

The two states and the three-layer preemption failure are abnormal states, and manual work is allowed to perform forced machine-moving preemption completion on an interface and enter machine-moving switching.

Further, the three-layer configuration device only pre-occupies the sub-interface when the mobile phone is pre-occupied, and configures the port description under the sub-interface.

Further, the machine-moving switching comprises:

the three-layer configuration device carries out machine moving switching, and the two-layer configuration device is informed to carry out the two-layer machine moving switching after the switching is normal;

after receiving the receipt information, the second-layer configuration device performs second-layer mobile switching and informs a result of the third-layer configuration device after the switching is finished;

after the three-layer configuration device receives the receipt information, if the receipt information is successful, the machine moving switching state is changed into the machine moving switching success, the machine moving state is changed into the machine moving success, and the machine moving is finished; if the machine moving switching state is failed, changing the machine moving switching state into a two-layer machine moving dismantling failure, allowing manual force machine moving completion on an interface, changing the machine moving state into a machine moving abnormity after operation, and finishing the machine moving;

if the new installation fails when the three-layer configuration device is switched, the new installation is rolled back, and the state of the switching stage of the mobile machine is updated.

Further, if a new installation fails during the mobile switching of the three-tier configuration device, the new installation rollback is performed, and the mobile switching stage state is updated, including:

if the mobile machine switching of the three-layer configuration device is abnormal, performing abnormal judgment, namely failure in dismounting, success in mounting and dismounting, failure in mounting and dismounting, and failure in mounting;

two types of failures for new installations: after the assembly and disassembly are successful, the assembly and disassembly are failed, and the assembly is failed, and new assembly rollback is carried out;

three kinds of machine moving switching abnormity need to carry out two-layer machine moving switching, and a two-layer machine moving switching interface of the postmark department is called directly according to a normal machine moving switching mode;

three kinds of abnormal switchover: the disassembly fails, the assembly succeeds, the disassembly succeeds, the assembly fails and the disassembly fails, and the assembly fails and corresponds to three moving switching states respectively: and in the three machine moving switching states, forced machine moving completion to machine moving abnormity is allowed to be carried out manually on the interface, and machine moving is finished.

In an embodiment of the present invention, an automatic staged processing device for a service mobility is further provided, where the device includes:

the machine moving pre-occupation module is used for pre-occupation of machine moving by the two-layer configuration device and the three-layer configuration device, updating a machine moving state and a machine moving pre-occupation state in real time by the three-layer configuration device, and interacting between the two-layer configuration device and the three-layer configuration device through a work order interface;

the machine moving switching module is used for performing machine moving switching after the completion of machine moving preoccupation of the two-layer configuration device and the three-layer configuration device, updating a machine moving state and a machine moving switching state in real time by the three-layer configuration device, and interacting between the two-layer configuration device and the three-layer configuration device through a worksheet interface;

and the work order interface display module is used for displaying the whole state and the staged state, including a machine moving state, a machine moving pre-occupation state and a machine moving switching state.

the machine moving switching state is subdivided into a three-layer switching success, a three-layer switching failure, a two-layer machine moving dismantling failure, a machine moving switching success, a three-layer switching dismantling failure, a mounting success, a three-layer switching dismantling success, a mounting failure, a three-layer switching dismantling failure and a mounting failure.

Further, the machine-moving pre-occupation module is specifically used for:

the three-layer configuration device carries out the pre-occupation deployment of the mobile phone, and the two-layer configuration device is informed of the pre-occupation of the mobile phone after the pre-occupation of the mobile phone is successful;

Further, the mobile phone switching module is specifically configured to:

the three-layer configuration device carries out machine moving switching, and the two-layer configuration device is informed to carry out second-layer machine moving switching after the switching is normal;

and if the new installation fails when the three-layer configuration device is switched to move, rolling back the new installation and updating the state of the mobile switching stage.

if the machine moving switching of the three-layer configuration device is abnormal, abnormal judgment is carried out, and the abnormal judgment comprises failure in detachment, successful in assembly, successful in detachment, failure in assembly and detachment and failure in assembly;

three kinds of abnormal machine-moving switching: the disassembly fails, the assembly succeeds, the disassembly succeeds, the assembly fails and the disassembly fails, and the assembly fails to respectively correspond to three machine-moving switching states: and in the three machine moving switching states, the forced machine moving completion to the abnormal machine moving on the interface is allowed to be carried out manually, and the machine moving is finished.

In an embodiment of the present invention, a computer device is further provided, which includes a memory, a processor, and a computer program stored on the memory and executable on the processor, and when the processor executes the computer program, the automatic staged processing method of the service migration machine is implemented.

In an embodiment of the present invention, a computer-readable storage medium is further provided, where a computer program for executing the automatic staged processing method for a traffic shift machine is stored in the computer-readable storage medium.

Has the advantages that:

1. the invention distinguishes two-layer and three-layer configuration devices and respectively carries out two-layer and three-layer operations.

2. The invention carries out the operation of moving the mobile phone by stages, thereby ensuring the minimum influence on the network disconnection time of the client in the process.

3. The two-layer and three-layer configuration device of the invention ensures the correct execution of the process through a communication mode (interface).

4. The invention realizes multi-fault-tolerant processing and automatic judgment processing.

Drawings

FIG. 1 is a schematic diagram of government service networking;

fig. 2 is a flow chart illustrating an automatic staging method for a service migration according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an automatic staged processing device for a service mobility machine according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a computer device according to an embodiment of the present invention.

Detailed Description

The principles and spirit of the present invention will be described below with reference to several exemplary embodiments, it being understood that these embodiments are presented only to enable those skilled in the art to better understand and implement the present invention, and are not intended to limit the scope of the present invention in any way. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

As will be appreciated by one skilled in the art, embodiments of the present invention may be embodied as a system, apparatus, device, method, or computer program product. Accordingly, the present disclosure may be embodied in the form of: entirely hardware, entirely software (including firmware, resident software, micro-code, etc.), or a combination of hardware and software.

According to the embodiment of the invention, the automatic staged processing method and device for the service relocation are provided, the relocation of a two-layer configuration device and the updating staged state of a three-layer configuration device are respectively provided for two layers and three layers, the two-layer configuration device and the three-layer configuration device are interacted through an interface, the configuration which is actually completed at one time is divided into two stages, and the deployment of the second stage (relocation switching) can be carried out only when the completion of the first stage (relocation preemption). The work order interface displays an overall state and a staged state, namely a machine moving state, a machine moving pre-occupation state and a machine moving switching state, wherein the machine moving state is subdivided into a machine moving pre-occupation state to be deployed, a machine moving switching state to be deployed, a machine moving abnormity and a machine moving success, the machine moving pre-occupation state is subdivided into a three-layer pre-occupation success, a three-layer pre-occupation failure, a machine moving pre-occupation success, a two-layer pre-occupation failure, a two-layer pre-occupation rollback failure and a two-layer pre-occupation rollback, the machine moving switching state is subdivided into a three-layer switching success, a three-layer switching failure, a two-layer machine moving failure, a machine moving switching success, a three-layer switching failure, a mounting failure and the like.

The principles and spirit of the present invention are explained in detail below with reference to several exemplary embodiments of the present invention.

Fig. 2 is a flow chart illustrating an automatic staged processing method of a service migration in an embodiment of the present invention. As shown in fig. 2, the method includes:

pre-occupation of the moving machine:

if the machine moving pre-occupation of the three-layer configuration device fails, pre-occupation rollback is carried out, the machine moving state is set as machine moving failure, the machine moving pre-occupation state is set as three-layer pre-occupation failure, and the two-layer configuration device is informed of the three-layer machine moving pre-occupation failure through a work order interface;

The two states and the three-layer preemption failure are abnormal states, and manual work is allowed to perform forced machine moving preemption completion on an interface and enter machine moving switching;

machine moving and switching:

after the three-layer configuration device receives the receipt information, if the receipt information is successful, the machine moving switching state is changed into the machine moving switching success, the machine moving state is changed into the machine moving success, and the machine moving is finished; if the machine moving switching state is failed, changing the machine moving switching state into a two-layer machine moving dismantling failure, allowing manual work to perform forced machine moving completion on the interface, changing the machine moving state into abnormal machine moving after operation, and finishing the machine moving;

if the new installation fails when the three-layer configuration device is switched, rolling back the new installation and updating the state of the mobile switching stage, which is specifically as follows:

three kinds of abnormal machine-moving switching need to carry out two-layer machine-moving switching, and a two-layer machine-moving switching interface of the postal department is called directly according to a normal mode of machine-moving switching;

three kinds of abnormal machine-moving switching: the disassembly fails, the assembly succeeds, the disassembly succeeds, the assembly fails and the disassembly fails, and the assembly fails to respectively correspond to three machine-moving switching states: and in the three machine moving switching states, forced machine moving completion to machine moving abnormity is allowed to be carried out manually on the interface, and machine moving is finished.

It should be noted that although the operations of the method of the present invention have been described in the above embodiments and the accompanying drawings in a particular order, this does not require or imply that these operations must be performed in this particular order, or that all of the operations shown must be performed, to achieve the desired results. Additionally or alternatively, certain steps may be omitted, multiple steps combined into one step execution, and/or one step broken down into multiple step executions.

For a clearer explanation of the automatic staged processing method of the service migration, a specific embodiment is described below, but it should be noted that the embodiment is only for better explaining the present invention and is not to be construed as an undue limitation to the present invention.

Examples of applications are as follows:

the first stage is as follows:

the three-layer configuration device pre-occupies the mobile phone first, similar to new service installation, but only pre-occupies the sub-interface, and configures the port description under the sub-interface, the configuration of the port description is consistent with the new installation, but the port description needs to be added with DYJ at the last.

And after the mobile phone pre-occupation is finished, informing a two-layer configuration device to perform two-layer mobile phone pre-occupation, wherein the informing format can refer to a newly-installed format, but a sub-link field needs to be added aiming at a mobile phone scene. The notification interface information refers to the following table 1:

TABLE 1

And if the mobile machine pre-occupation of the three-layer configuration device fails, pre-occupation rollback is required, and pre-occupied sub-interfaces are deleted. The machine moving state is set as machine moving failure, and the machine moving pre-occupation state is set as three-layer pre-occupation failure. And the second-layer configuration device is informed of the failure of the third-layer machine-moving pre-occupation through the work order.

And after receiving the receipt information, the second-layer configuration device performs second-layer machine moving pre-occupation, and informs the third-layer configuration device of the result after the pre-occupation is completed. The new machine moving/detaching result is returned, and the returned content needs to contain the following information in the following table 2:

TABLE 2

The message examples returned by the new installation result of the mobile phone are as follows:

and after the three-layer configuration device receives the result feedback of the two-layer configuration device, if the result is successful, the mobile machine state is changed into mobile machine switching to be deployed. The deployment of the second phase of the relocation switching can be performed manually.

If the two-layer pre-occupation of the two-layer configuration device fails, the two-layer configuration device automatically initiates the two-layer pre-occupation rollback and sends a failure result to the three-layer configuration device, the machine moving state is set as machine moving failure, and the machine moving pre-occupation state is changed into two-layer pre-occupation failure.

The two-tier configuration device needs to send the rollback result back to the three-tier configuration device, and the rollback needs to contain the following information in table 3:

TABLE 3

The message sample returned by the return result of the machine-shift pre-occupying two layers is as follows:

and modifying the machine-moving pre-occupation state into two-layer pre-occupation rollback failure or two-layer pre-occupation rollback according to the machine-moving pre-occupation two-layer rollback result.

The two states and the three-layer pre-occupation failure of the three-layer configuration device are abnormal states, but the forced machine-moving pre-occupation completion can be manually carried out on the interface to enter the second stage.

And a second stage:

for the purpose of mobile switching, the old data is actually dismounted once and the new data is mounted newly. The requirement is to disassemble the machine and then assemble the machine again.

After deleting the configuration content on the original equipment (disassembling the machine according to oldpe and oldport of the work order, and performing the show check of the port before disassembling the machine), newly installing the machine according to the service data of the machine-moving work order information, noticing that the atomic interface is pre-occupied, and resetting the port description according to the new installation standard.

If the configuration is successful, the receipt is sent to a two-layer configuration device after the configuration is completed, the receipt information is consistent with the machine removal information, but a sub-link field needs to be added aiming at a machine moving scene, and the machine moving and removing sub-link is as follows: move _ del, format reference zap preemption.

If the configuration fails, configuration rollback of machine moving switching needs to be carried out, the configuration rollback comprises rollback of old data dismantling and rollback of new data newly installing, namely the dismantled data needs to be newly installed, the newly installed data needs to be dismantled, the work order updating state after the rollback is completed is three-layer switching failure, and forced completion can be triggered manually.

And after receiving the receipt information, the second-layer configuration device performs second-layer machine moving switching, and informs the third-layer configuration device of the result after switching is completed. The loopback interface is consistent with the pre-occupation of the mobile phone, but the suncart is move _ del, and the reference of the sample message is as follows:

and after receiving the receipt, the three-layer configuration device judges a switching result. If the mobile machine is successful, updating the mobile machine switching state to be successful, and updating the mobile machine state to be successful;

if the failure occurs, the updating of the machine-moving switching state is changed into a two-layer machine-moving failure. But the machine-moving completion operation can be manually carried out on the page, and the machine-moving state is changed into the abnormal machine-moving state after the operation.

In the process of testing joint debugging, specific mobile machine switching conditions are judged according to the mobile machine deployment conditions after mobile machine switching is started to be deployed, if new installation fails, new installation rollback needs to be carried out, and the mobile machine switching states are updated according to the deployment states. Actually, no matter whether the three-layer switching is successful or not, the two-layer configuration device needs to perform the mobile switching, and the adjustment flow logic is as follows:

all the flow logics of the three-layer machine shifting switching success are unchanged;

and the three-layer machine moving switching needs to distinguish the detailed state, and if the three-layer machine moving switching is abnormal, the specific abnormal condition needs to be judged. The method mainly comprises the following steps of distinguishing three types, namely failure in assembly, failure in assembly and failure in assembly;

two types of failures for installation: the disassembly is successful, the assembly is failed, the disassembly is failed, the assembly is failed, and the assembly rollback is needed;

three kinds of abnormal machine-moving switching need to carry out two-layer machine-moving switching, and a postal department two-layer machine-moving switching interface is directly called according to a normal mode of machine-moving switching;

the three states of the machine moving switching state of the assembly failure and the three-layer switching failure are added to the work order state, and the abnormal condition from completion to machine moving can be manually forced under the condition of the three states, and the machine moving is finished.

Mobile station request message sample:

the work order status is described as follows:

the work order interface displays an overall state and a staged state, namely a machine moving state, a machine moving pre-occupation state and a machine moving switching state.

Work order state enumeration value:

relocation pre-occupation to be deployed
	Relocation handover to be deployed
Abnormal of moving machine
	Success of moving the machine

The machine-shift pre-occupation state enumeration value:

success of three-layer preemption
	Three-layer preemption failure
The pre-occupation of the moving machine is successful
	Two-tier preemption failure
Two tier pre-emptive rollback failure
	Two-tier preemption rolled back

Machine-shift switching state enumeration value:

if one of the three states of the work order contains failure, the work order is abnormal, and the work order needs to be displayed on the top.

Based on the same invention concept, the invention also provides an automatic stage processing device for the service migration. The implementation of the device can refer to the implementation of the method, and repeated details are not repeated. The term "module," as used below, may be a combination of software and/or hardware that implements a predetermined function. Although the means described in the embodiments below are preferably implemented in software, an implementation in hardware, or a combination of software and hardware is also possible and contemplated.

Fig. 3 is a schematic structural diagram of an automatic staged processing device of a service mobility machine according to an embodiment of the present invention. As shown in fig. 3, the apparatus includes:

the machine moving pre-occupation module 101 is used for performing machine moving pre-occupation on the two-layer configuration device and the three-layer configuration device, updating a machine moving state and a machine moving pre-occupation state in real time by the three-layer configuration device, and interacting between the two-layer configuration device and the three-layer configuration device through a work order interface; the method comprises the following specific steps:

according to the result of the two-layer pre-occupation rollback, the machine-moving pre-occupation state is changed into a state that the two-layer pre-occupation rollback fails or the two-layer pre-occupation is rolled back.

The two states and the three-layer preemption failure are abnormal states, and manual work is allowed to perform forced machine-moving preemption completion on an interface and enter machine-moving switching;

when the mobile phone is in pre-occupation, the three-layer configuration device only pre-occupies the sub-interface and configures the port description under the sub-interface.

The machine moving switching module 102 is used for performing machine moving switching after the machine moving preemption completion of the two-layer configuration device and the three-layer configuration device, updating a machine moving state and a machine moving switching state in real time by the three-layer configuration device, and interacting the two-layer configuration device and the three-layer configuration device through a worksheet interface; the method comprises the following specific steps:

if the new installation fails when the three-layer configuration device is switched to move, rolling back the new installation and updating the state of the mobile switching stage, specifically as follows:

two types of failures for new installations: if the assembly and disassembly are successful, the assembly and disassembly are failed, and the assembly is failed, and new assembly rollback is carried out;

three kinds of abnormal switchover: the disassembly fails, the assembly succeeds, the disassembly succeeds, the assembly fails and the disassembly fails, and the assembly fails to respectively correspond to three machine-moving switching states: and in the three machine moving switching states, forced machine moving completion to machine moving abnormity is allowed to be carried out manually on the interface, and machine moving is finished.

The work order interface display module 103 is used for displaying an overall state and a staged state, including a machine moving state, a machine moving pre-occupation state and a machine moving switching state;

the machine moving state is subdivided into machine moving pre-occupation to be deployed, machine moving switching to be deployed, abnormal machine moving and successful machine moving;

the machine-moving preemption state is subdivided into three-layer preemption success, three-layer preemption failure, machine-moving preemption success, two-layer preemption failure, two-layer preemption rollback failure and two-layer preemption rollback;

It should be noted that although several modules of the automated staged processing device of a traffic migration are mentioned in the above detailed description, such partitioning is merely exemplary and not mandatory. Indeed, the features and functionality of two or more of the modules described above may be embodied in one module according to embodiments of the invention. Conversely, the features and functions of one module described above may be further divided into embodiments by a plurality of modules.

Based on the aforementioned inventive concept, as shown in fig. 4, the present invention further provides a computer device 200, which includes a memory 210, a processor 220 and a computer program 230 stored on the memory 210 and capable of running on the processor 220, wherein the processor 220 implements the aforementioned automatic staged processing method of a service migration machine when executing the computer program 230.

Based on the above inventive concept, the present invention further provides a computer readable storage medium storing a computer program for executing the automatic staged processing method of a traffic migration machine.

The invention provides an automatic staged processing method and device for a service mobile machine, which are used for distinguishing a two-layer configuration device and a three-layer configuration device and respectively carrying out two-layer operation and three-layer operation; the method comprises the steps of carrying out a mobile operation in stages, and ensuring the minimum influence on the network disconnection time of a client in the process; 2. the three-layer configuration device ensures the correct execution of the process through a communication mode (interface); and multi-fault-tolerant processing and automatic judgment processing are realized.

While the spirit and principles of the invention have been described with reference to several particular embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, nor is the division of aspects, which is for convenience only as the features in such aspects cannot be combined to advantage. The invention is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

The limitation of the protection scope of the present invention is understood by those skilled in the art, and various modifications or changes which can be made by those skilled in the art without inventive efforts based on the technical solution of the present invention are still within the protection scope of the present invention.

Claims

1. An automatic staging method for a traffic relocation, the method comprising:

the two-layer configuration device and the three-layer configuration device perform machine moving pre-occupation firstly, and then perform machine moving switching after the completion of the machine moving pre-occupation, meanwhile, the three-layer configuration device updates a machine moving state, a machine moving pre-occupation state and a machine moving switching state in real time, and the two-layer configuration device and the three-layer configuration device are interacted through a work order interface;

the machine that moves preempts includes:

according to the result of the two-layer pre-occupation rollback, the machine-moving pre-occupation state is changed into a state that the two-layer pre-occupation rollback fails or the two-layer pre-occupation is rolled back;

the two-layer pre-occupation rollback failure, the two-layer pre-occupation rollback failure and the three-layer pre-occupation failure are abnormal states, and manual work is allowed to perform forced machine-moving pre-occupation completion on an interface and enter machine-moving switching;

2. The automatic staging method for traffic relocation according to claim 1, wherein the relocation state is subdivided into relocation pre-occupation to be deployed, relocation switching to be deployed, relocation exception and relocation success;

the machine moving preemption state is subdivided into three-layer preemption success, three-layer preemption failure, machine moving preemption success, two-layer preemption failure, two-layer preemption rollback failure and two-layer preemption rollback;

3. The method of claim 1, wherein the three-tier configuration means only pre-empts the subinterface and configures the port description under the subinterface when the mobile is pre-empted.

4. The method of automated staging of traffic migration according to claim 1, wherein said migration handover includes:

5. The method as claimed in claim 4, wherein if a new loading failure occurs during a handoff of the three-tier device, performing a new loading rollback and updating the handoff stage state, comprises:

three kinds of abnormal switchover: the disassembly fails, the assembly succeeds, the disassembly succeeds, the assembly fails and the disassembly fails, and the assembly fails to respectively correspond to three machine-moving switching states: and in the three machine moving switching states, the forced machine moving completion to the abnormal machine moving on the interface is allowed to be carried out manually, and the machine moving is finished.

6. An automatic staged processing device for a traffic migration, the device comprising:

the machine moving pre-occupation module is used for performing machine moving pre-occupation on the two-layer configuration device and the three-layer configuration device, updating a machine moving state and a machine moving pre-occupation state in real time by the three-layer configuration device, and interacting between the two-layer configuration device and the three-layer configuration device through a work order interface; the method is specifically used for:

7. The automatic staged processing device for service relocation according to claim 6, wherein the relocation state is subdivided into relocation pre-occupation to be deployed, relocation switching to be deployed, relocation exception and relocation success;

8. The apparatus of claim 6, wherein the three-tier configuration means only pre-empts the sub-interface and configures the port description under the sub-interface when the mobile is pre-empted.

9. The automatic staged processing device for a service relocation of claim 6, wherein the relocation switching module is specifically configured to:

10. The apparatus of claim 9, wherein if a new loading failure occurs during a mobile switching of the three-tier configuration apparatus, performing a new loading rollback and updating the mobile switching phase state comprises:

11. A computer arrangement 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 according to any of claims 1-5 when executing the computer program.

12. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program for executing the method of any one of claims 1-5.