CN113015011B - Method for realizing one-key shutdown recovery of IPTV multi-type video service - Google Patents

Abstract

A method for realizing one-key shutdown and recovery of IPTV multi-type video services is characterized in that a core operation is built in and core information is built in, and an operator can realize shutdown/recovery operation of a specified channel only by one-key operation according to a fault scene, so that the requirement of second-level shutdown is met, human factors are reduced, the operation accuracy is improved, and the misoperation risk is reduced.

Description

Method for realizing one-key shutdown recovery of IPTV multi-type video service

Technical Field

The invention relates to a shutdown/recovery technology of IPTV multi-type video services, in particular to a method for realizing one-key shutdown/recovery of IPTV multi-type video services.

Background

The IPTV high definition television service has been an important place in many product types as a key service for home users of an operator. However, with the increasing severity of the network environment security problem, the provincial operators lack a timely and effective processing means for sudden video security failures (such as illegal propaganda, content tampering, etc.). At present, for burst video failures (including watching various service scenes such as live broadcast, on-demand broadcast and the like), maintenance personnel need to manually search key information of a failed channel, log in problem equipment one by one, and complete the shutdown/recovery requirements of each scene in a one-by-one processing mode. At present, the shutdown/recovery method for various types of IPTV video services mainly has the following problems: (1) the manual intervention links are more, and the automation capability is too low. From the discovery of video security failure, a handler needs to manually search channel key information (such as channel ip, channel affiliation device ip, channel configuration information) and the like, manually log in a core device, modify a handling script, execute the script, manually check an execution result and the like, more than 80% of links need to manually execute core operation, and the error rate is high and the security is low. (2) The number of core devices is large, the error rate of manual operation is high, and the risk coefficient is large. The use experience of all online users in the province is influenced by the shutdown operation of the province service, the province with the medium user quantity is calculated according to the online rate of 30%, the number of the influenced users is also in the million level, and the risk level is extremely high. Therefore, the prior art implementation mode depends on manual operation to a great extent, is high-risk operation, has long operation time, and can not meet the operation requirement of video safety fault second-level shutdown at all. According to the method, the core operation is built in and the core information is built in, so that the shutdown/recovery operation of the specified channel can be realized only by one-click operation according to the fault scene by an operator, the requirement of second-level shutdown is met, human factors are reduced, the operation accuracy is improved, and the misoperation risk is reduced. In view of the above, the present inventors have completed the present invention.

Disclosure of Invention

Aiming at the defects or shortcomings in the prior art, the invention provides a method for realizing one-key shutdown/recovery of various types of IPTV video services.

The technical solution of the invention is as follows:

a method for realizing one-key shutdown/recovery of IPTV multi-type video services is characterized by comprising a one-key shutdown/recovery software system of the IPTV multi-type video services, wherein the software system comprises a shutdown/recovery triggering device and an equipment group return instruction analysis device, the triggering device calls service scene information from a service scene library, calls core instructions from a core instruction set according to the service scene information to carry out shutdown/recovery instruction assembly so as to realize core operation built-in and core information built-in, and sends the assembled shutdown/recovery instructions to an equipment group to be executed, the equipment group sends the equipment group return instructions to the analysis device, and the analysis device sends analysis results to a front-end webpage in an HTML language.

The core instruction set comprises a shutdown/recovery type instruction and an execution result verification type instruction.

The service scene library comprises a full-platform full-channel scene, a single-platform full-channel scene, a full-platform single-channel scene, a city full-channel scene and a city multi-channel scene; the core instruction set comprises an interface mode instruction, namely, an ingress-Trunk instruction, a multicast protocol instruction, anda multicast protocol instruction, namely, an egress-pm sm instruction, which enters a router port mode instruction, and an ingress-Trunk instruction, namely, an egress-Trunk-instruction, namely, an egress-Trunk instruction, and an ingress-Trunk-protocol instruction, namely, an egress-pm sm instruction, and an ingress-multicast protocol instruction.

The shutdown/recovery instruction assembly comprises a complete-province multicast live broadcast shutdown instruction assembly mechanism and/or a complete-province multicast live broadcast recovery instruction assembly mechanism, and the work flow of the complete-province multicast live broadcast shutdown instruction assembly mechanism comprises the following steps: step A11, entering sys mode; step a12, enter port mode; step A13, disabling the multicast protocol; step A14, exiting sys mode; the working process of the provincial multicast live broadcast class recovery instruction assembly mechanism comprises the following steps: step A21, entering sys mode; step a22, enter port mode; step A23, starting multicast protocol; step a24, exits sys mode.

The shutdown/recovery instruction assembly comprises a shutdown instruction assembly mechanism of full-province unicast live broadcasting or new start-up unit broadcast live broadcasting, and/or a recovery instruction assembly mechanism of full-province unicast live broadcasting or new start-up unit broadcast live broadcasting, wherein the working flow of the shutdown instruction assembly mechanism of full-province unicast live broadcasting or new start-up unit broadcast live broadcasting comprises the following steps: step B11, entering sys mode; step B12, entering port mode; step B13, disabling the port; step B14, exit sys mode; the working process of the provincial unicast live broadcast or newly-opened unit broadcast live broadcast class recovery instruction assembly mechanism comprises the following steps of: step B21, entering sys mode; step B22, enter port mode; step B23, enable port; step B24, exits sys mode.

The shutdown/recovery instruction assembly comprises an assembly mechanism of all/a certain multicast live broadcast shutdown instructions in a certain city and/or an assembly mechanism of all/a certain multicast live broadcast recovery instructions in a certain city, and the workflow of the assembly mechanism of all/a certain multicast live broadcast shutdown instructions in a certain city comprises the following steps: step C11, entering sys mode; step C12, entering ACL mode; step C13, enabling RULE configuration to a specified IP; step C14, exit sys mode; the workflow of the all/some multicast live broadcast class recovery instruction assembly mechanism of the certain city comprises the following steps: step C21, entering sys mode; step C22, entering ACL mode; step B23, disabling the RULE configuration to the specified IP; step C24, exits sys mode.

And the shutdown/recovery execution result is objectively verified in an instruction verification mode by analyzing and verifying the instruction set execution result, so that an operator can immediately confirm the operation result after shutdown/recovery without manual coordination verification.

The invention has the following technical effects: the invention relates to a method for realizing one-key shutdown/recovery of IPTV multi-type video services, which customizes a core instruction set aiming at the shutdown/recovery of various IPTV video service scenes and adopts a code background packaging mode, thereby not only meeting the requirement of extremely high security level of the core instruction, but also realizing the full-automatic flow of shutdown/recovery. The core instruction set can completely cover various scene requirements such as full platform full channels, full platform multi-channels, city full channels, city multi-channels and the like. The invention adopts the instruction verification mode aiming at the shutdown/recovery execution result, objectively proves the shutdown/recovery effect by analyzing and verifying the instruction set execution result, and ensures that an operator can immediately confirm the operation result after shutdown/recovery without manual coordination verification. According to the invention, the core operation is built-in, the core information is built-in, the shutdown/recovery operation of the specified channel can be realized only by one-click operation according to the fault scene by an operator, the requirement of second-level shutdown is met, the human factors are reduced, the operation accuracy is improved, and the misoperation risk is reduced.

The invention can realize the following characteristics: (1) the invention provides the core instruction set under each shutdown/recovery scene by finishing the combing of the operation scenes, and adopts the form of JAVA script background packaging, so that an operator can realize the fixed-point and accurate issuing of all the core instructions only by clicking the corresponding shutdown/recovery button on the foreground page, thereby greatly reducing the human intervention factors, realizing the automation of the whole process and completely meeting the time limit requirement of the second-level shutdown/recovery of the video safety scenes. (2) Aiming at core equipment information (such as ip, login name, password and the like) required to be used in each operation scene, a background built-in mode is adopted, and information leakage ways are reduced. (3) Aiming at the verification of the shutdown/recovery result, the invention also realizes the automatic verification, and avoids the extra time delay and error caused by artificial verification.

Drawings

Fig. 1 is a schematic diagram of the association of each execution body involved in implementing the method for implementing the one-key shutdown recovery of IPTV multi-type video services according to the present invention. Fig. 1 illustrates a one-key shutdown/recovery software system for multiple types of video services of IPTV (Interactive personal TV, Interactive network TV, or Interactive personalized TV), where the software system includes a shutdown/recovery trigger device and an equipment group return instruction parsing device, where the trigger device calls service scene information from a service scene library, calls core instructions from a core instruction set according to the service scene information to perform shutdown/recovery instruction assembly, and sends the assembled shutdown/recovery instruction to an equipment group to be executed, the equipment group sends an equipment group return instruction to the parsing device, and the parsing device sends a parsing result to a front-end presentation web page in HTML (HyperText Markup Language). The core instruction set comprises a shutdown/recovery type instruction and an execution result verification type instruction.

FIG. 2 is a schematic diagram of a number of core instructions included in the core instruction set of FIG. 1. The instruction 1 and the interface eth-Trunk10 in fig. 2 enter a router port mode (the port is a general entrance and exit of the total province service); 2. the ando pim sm forbids the multicast protocol, and the service is stopped after forbidding, thereby achieving the effect of shutdown; 3. pim sm, starting a multicast protocol, and recovering the service after starting; and so on.

Fig. 3 is a schematic structural diagram of a plurality of scenes defined in the service scene library in fig. 1. Fig. 3 includes a full-platform full-channel scene, a single-platform full-channel scene, a full-platform single-channel scene, a city full-channel scene, and a city multi-channel scene.

Fig. 4 is a schematic diagram of a shutdown/recovery triggering device in the shutdown/recovery software of fig. 1, which is used for issuing an instruction to a device group, and is used for assembling a shutdown/recovery instruction of the provincial multicast live broadcast class. Fig. 4 includes a shutdown instruction assembly mechanism for the provincial multicast live broadcast class and a recovery instruction assembly mechanism for the provincial multicast live broadcast class. The working process of the provincial multicast live broadcast shutdown instruction assembly mechanism comprises the following steps: step A11, enter system mode (system, system or system-view, system or system platform); step a12, enter port mode; step A13, disabling the multicast protocol; step a14, exits sys mode. The working process of the provincial multicast live broadcast class recovery instruction assembly mechanism comprises the following steps: step A21, enter system mode (system, system or system-view, system or system platform); step a22, enter port mode; step A23, starting multicast protocol; step a24, exits sys mode.

Fig. 5 is a schematic diagram of an assembly mechanism of shutdown/recovery instructions of either full-province unicast live broadcasting or new start-up unit broadcast live broadcasting related to instructions issued by the shutdown/recovery triggering device to the device group in the shutdown/recovery software of fig. 1. Fig. 5 includes a shutdown instruction assembly mechanism for full-province unicast live broadcasting or new start of unit broadcast live broadcasting and a recovery instruction assembly mechanism for full-province unicast live broadcasting or new start of unit broadcast live broadcasting. The working process of the shutdown instruction assembly mechanism of the provincial unicast live broadcast or newly-started unit broadcast live broadcast class comprises the following steps: step B11, enter system mode (system, system or system-view, system or system platform); step B12, enter port mode; step B13, disabling the port; step B14, exits sys mode. The working process of the recovery instruction assembly mechanism of the broadcasting and live broadcasting class of the province unicast or newly-opened unit broadcast comprises the following steps: step B21, enter system mode (system, system or system-view, system or system platform); step B22, entering port mode; step B23, enable port; step B24, exits sys mode.

Fig. 6 is a schematic diagram of an assembly mechanism of shutdown/recovery instructions of all/some multicast live broadcast class in a certain city to which a shutdown/recovery triggering device issues instructions to a device group in the shutdown/recovery software of fig. 1. Fig. 5 includes an all/some multicast live broadcast class shutdown instruction assembly mechanism for a certain city and an all/some multicast live broadcast class recovery instruction assembly mechanism for a certain city. The workflow of the shutdown instruction assembly mechanism of all/a multicast live broadcast class in a certain city comprises the following steps: step C11, enter system mode (system, system or system-view, system or system platform); step C12, enter ACL mode (Access Control List ); step C13, enabling RULE configuration to a specified IP; step C14, exits sys mode. The workflow of the all/some multicast live broadcast class recovery instruction assembly mechanism of a certain city comprises the following steps: step C21, enter system mode (system, system or system-view, system or system platform); step C22, entering ACL mode; step B23, disable RULE configuration (RULE ) to specified IP; step C24, exits sys mode.

Detailed Description

The invention is described below with reference to the figures (fig. 1-6) and examples.

Fig. 1 is a schematic diagram of the association of each execution body involved in implementing the method for implementing the one-key shutdown recovery of IPTV multi-type video services according to the present invention. FIG. 2 is a schematic diagram of a number of core instructions included in the core instruction set of FIG. 1. Fig. 3 is a schematic structural diagram of a plurality of scenes defined in the service scene library in fig. 1. Fig. 4 is a schematic diagram of a shutdown/recovery triggering device in the shutdown/recovery software of fig. 1, which is used for issuing an instruction to a device group, and is used for assembling a shutdown/recovery instruction of the provincial multicast live broadcast class. Fig. 5 is a schematic diagram of an assembly mechanism of shutdown/recovery instructions of either full-province unicast live broadcasting or new start-up unit broadcast live broadcasting related to instructions issued by the shutdown/recovery triggering device to the device group in the shutdown/recovery software of fig. 1. Fig. 6 is a schematic diagram of an assembly mechanism of shutdown/recovery instructions of all/a certain multicast live broadcast class in a certain city to which an instruction is issued to a device group by a shutdown/recovery triggering device in the shutdown/recovery software in fig. 1. Referring to fig. 1 to 6, a method for implementing a key shutdown/recovery of IPTV multi-type video services includes a key shutdown/recovery software system of IPTV multi-type video services, where the software system includes a shutdown/recovery triggering device and an equipment group return instruction parsing device, where the triggering device calls service scene information from a service scene library, calls core instructions from a core instruction set according to the service scene information to perform shutdown/recovery instruction assembly to implement core operation embedding and core information embedding, and issues the assembled shutdown/recovery instructions to an equipment group for execution, the equipment group transmits an equipment group return instruction to the parsing device, and the parsing device transmits a parsing result to a front-end presentation webpage in an HTML language. The core instruction set comprises a shutdown/recovery type instruction and an execution result verification type instruction. The service scene library comprises a full-platform full-channel scene, a single-platform full-channel scene, a full-platform single-channel scene, a city full-channel scene and a city multi-channel scene; the core instruction set comprises an interface instruction-Trunk for entering a router port mode, an instruction for forbidding a multicast protocol undo pim sm and an instruction for starting the multicast protocol pim sm. And the shutdown/recovery execution result is objectively verified in an instruction verification mode by analyzing and verifying the instruction set execution result, so that an operator can immediately confirm the operation result after shutdown/recovery without manual coordination verification.

The shutdown/recovery instruction assembly comprises a complete-province multicast and live broadcast shutdown instruction assembly mechanism and/or a complete-province multicast and live broadcast recovery instruction assembly mechanism, and the work flow of the complete-province multicast and live broadcast shutdown instruction assembly mechanism comprises the following steps: step A11, entering sys mode; step a12, enter port mode; step A13, disabling the multicast protocol; step A14, exiting sys mode; the working process of the provincial multicast live broadcast class recovery instruction assembly mechanism comprises the following steps: step A21, entering sys mode; step a22, enter port mode; step A23, starting multicast protocol; step a24, exits sys mode. The shutdown/recovery instruction assembly comprises a shutdown instruction assembly mechanism of full-province unicast live broadcasting or new start-up unit broadcast live broadcasting, and/or a recovery instruction assembly mechanism of full-province unicast live broadcasting or new start-up unit broadcast live broadcasting, wherein the working flow of the shutdown instruction assembly mechanism of full-province unicast live broadcasting or new start-up unit broadcast live broadcasting comprises the following steps: step B11, entering sys mode; step B12, enter port mode; step B13, disabling the port; step B14, exit sys mode; the working process of the provincial unicast live broadcast or newly-opened unit broadcast live broadcast class recovery instruction assembly mechanism comprises the following steps of: step B21, entering sys mode; step B22, enter port mode; step B23, enable port; step B24, exits sys mode. The shutdown/recovery instruction assembly comprises an assembly mechanism of shutdown instructions of all/a certain multicast live broadcast class in a certain city and/or an assembly mechanism of recovery instructions of all/a certain multicast live broadcast class in a certain city, and the workflow of the assembly mechanism of shutdown instructions of all/a certain multicast live broadcast class in a certain city comprises the following steps: step C11, entering sys mode; step C12, entering ACL mode; step C13, enabling RULE configuration to a specified IP; step C14, exit sys mode; the workflow of the all/some multicast live broadcast class recovery instruction assembly mechanism of the certain city comprises the following steps: step C21, entering sys mode; step C22, entering ACL mode; step B23, disabling RULE configuration to a specified IP; step C24, exits sys mode.

The method for one-key shutdown/recovery of IPTV multi-type video services comprises a service scene library, a core instruction set, a trigger device, instruction analysis, result pushing, front-end presentation and other modules. The main business flow between the modules is shown in figure 1.

The invention supports starting the shutdown/recovery device for various service scenes, and the specific scene information is as follows, see fig. 3: (1) full platform full channel scenario: in a networking scene with multiple service platforms, a one-key triggering mechanism needs to be supported for all the platforms, and a platform type and full-channel attributes need to be defined in a full-platform full-channel scene. Wherein, the core instruction information used for shutdown is different due to different platform manufacturers); the full channel needs to be defined separately for the channel division address of a specific province, and for the province adopting the ACL policy, a flow policy mapping relation corresponding table corresponding to each channel needs to be collected. (2) Full platform single channel scenario: for a single channel shutdown/recovery trigger, the instruction set is encapsulated for a single channel. (3) Single-platform full-channel scenario: similar to a full platform and full channel scenario, but it is necessary to perform operations on a specific platform independently according to the platform's own attribute information, such as access IP. (4) City full channel scene: the invention supports a one-touch shutdown/recovery for full channel service for a certain/several cities. (5) City multi-channel scenario: the invention supports a key-off/restore of a certain/several channel service for a certain/several cities.

Referring to fig. 2, the core instruction set: after the definition of the service scene library is completed, a specific instruction set needs to be defined according to the scene, and the automatic encapsulation of the instructions is realized by a program. The core instructions include shutdown/recovery class instructions and result verification class instructions.

The specific instruction logic is as follows:

referring to fig. 4, type 1: the mechanism for assembling the multicast live broadcast class instructions in the province is as follows:

shutdown instruction assembly result:

system-view

interface (specific port number is based on specific configuration information in the service scene library)

undo pim sm

quit

quit

And restoring the instruction assembly result:

system-view

interface (specific port number is based on specific configuration information in the service scene library)

pim sm

quit

quit

Referring to fig. 5, type 2: the shutdown instruction assembly mechanism for unicast and live broadcast of the province and the newly-started unit is as follows: shutdown instruction assembly result:

system-view

interface Eth-Trunk (specific port number is based on specific configuration information in service scene library)

shutdown

quit

quit

And restoring the instruction assembly result:

system-view

interface Eth-Trunk (specific port number is based on specific configuration information in service scene library)

undo shutdown

quit

quit

Type 3: the whole province and the whole network service are shut down (live broadcast), and the type is the same 1.

Type 4: the whole province and the whole network service are shut down (live broadcast), and the type is 2.

Referring to fig. 6, type 5: the mechanism for assembling all/some multicast live broadcast instructions in a certain city is as follows:

shutdown instruction assembly result:

system-view

acl X

rule X dense ip destination 239.21.1. X0 (X parameter takes concrete configuration information in service scene library as standard)

quit

quit

And restoring the instruction assembly result:

system-view

acl X

undo rule X (X parameter is based on specific configuration information in the service scene library)

quit

quit

Type 6: the class of the shut-down of the whole network service in the city is the same 5.

Type 7: and the protocol verification class is used for controlling the shutdown/recovery operation scene through the protocol, and the protocol verification class instruction needs to be executed after the execution of the operation class instruction is finished. The instruction logic is as follows: if the result contains the keyword "pim sm", the recovery is successful or the shutdown is failed. If not, the shutdown is successful or the recovery fails.

Type 8: and the ACL verification class is used for controlling the shutdown/recovery operation scene through the ACL and executing the ACL verification class instruction after the execution of the operation class instruction is finished. The instruction logic is as follows: if the result includes the keyword "rule X", the shutdown is successful or the recovery is failed. If not, the recovery is successful or the shutdown is failed.

Triggering device and instruction analysis: issuing an instruction to a background through page parameters, inquiring a server to be operated by the background through an analysis instruction and a service scene type, correspondingly starting a thread by each server in a multithreading mode, logging in the server by each server according to telnet or ssh defined in advance, issuing a defined shutdown or recovery instruction, analyzing the instruction to obtain a shutdown or recovery result executed by the corresponding server, and inserting a log; and aggregating the execution results of all the machines, splicing the result details and the total conclusion of all the machines, and returning to the interface.

The key code is as follows:

// blocking city class full network service

// initiate Call

ExecutorService exe＝

xecutors. newfixedthreedpool (startbo. getwheelbusinessessicityllist ().); creating a fixed-length thread pool countdown latch begin ═ new countdown latch (1);

CountDownLatch end＝new CountDownLatch(startBo.getWholeBusinessCityList().size())；

for(WholeBusinessCityRouteBean wholeBusinessCityRoute:

startBo.getWholeBusinessCityList()){

setURouteInfo(zlist,wholeBusinessCityRoute)；

StopCityWholeBusinessCityThread stopCityWholeBusiness＝new

StopCityWholeBusinessCityThread(

bathchId,bathchId,wholeBusinessCityRoute,begin,end,startBo.getOpModule(),

startBo.getOpFunction(),

startBo.getTransmissionType(),

startBo.getShutdownType(),

startBo.getScene(),

startBo.getLookbackSourcePort())；

exe.execute(stopCityWholeBusiness)；

cityWholeBusinessList.add(stopCityWholeBusiness)；

}

countdown (); // begin execution

end. await (MAX _ TIME, timeunit. semiconds); // wait for the current thread to complete

// integration of all thread results

for(StopCityWholeBusinessCityThread stopCityThread:cityWholeBusinessList){

listResult.add(stopCityThread.getSealBo())；

}

Results push and front end rendering: the invention supports the front-end pushing of operation results of all shutdown/recovery scenes, provides a visual operation interface for operators, and visually presents execution results.

Those skilled in the art will appreciate that the invention may be practiced without these specific details. It is pointed out here that the above description is helpful for the person skilled in the art to understand the invention, but does not limit the scope of protection of the invention. Any such equivalents, modifications and/or omissions as may be made without departing from the spirit and scope of the invention may be resorted to.

Claims (7)

1. A method for realizing IPTV multi-type video service one-key shutdown/recovery is characterized by comprising an IPTV multi-type video service one-key shutdown/recovery software system, wherein the software system comprises a shutdown/recovery trigger device and an equipment group return instruction analysis device, the trigger device calls service scene information from a service scene library, calls core instructions from a core instruction set according to the service scene information to carry out shutdown/recovery instruction assembly so as to realize core operation built-in and core information built-in, and sends the assembled shutdown/recovery instructions to an equipment group to be executed, the equipment group sends the equipment group return instructions to the analysis device, and the analysis device sends analysis results to a front end in an HTML language to present a webpage.

2. The method as claimed in claim 1, wherein the core set of instructions includes both shutdown/recovery class instructions and execution result verification class instructions.

3. The method of claim 1, wherein the service scene library comprises full-platform full-channel scenes, single-platform full-channel scenes, full-platform single-channel scenes, city full-channel scenes, and city multi-channel scenes; the core instruction set comprises an interface mode instruction, namely, an ingress-Trunk instruction, a multicast protocol instruction, anda multicast protocol instruction, namely, an egress-pm sm instruction, which enters a router port mode instruction, and an ingress-Trunk instruction, namely, an egress-Trunk-instruction, namely, an egress-Trunk instruction, and an ingress-Trunk-protocol instruction, namely, an egress-pm sm instruction, and an ingress-multicast protocol instruction.

4. The method according to claim 1, wherein the shutdown/recovery command assembly comprises a shutdown command assembly mechanism of full-province multicast live broadcast type and/or a recovery command assembly mechanism of full-province multicast live broadcast type, and the workflow of the shutdown command assembly mechanism of full-province multicast live broadcast type comprises the following steps: step A11, entering sys mode; step a12, enter port mode; step A13, disabling the multicast protocol; step A14, exiting sys mode; the working process of the provincial multicast live broadcast class recovery instruction assembly mechanism comprises the following steps: step A21, entering sys mode; step a22, enter port mode; step A23, starting multicast protocol; step a24, exits sys mode.

5. The method according to claim 1, wherein the shutdown/recovery command assembly mechanism comprises a shutdown command assembly mechanism of full-province unicast live broadcasting or new start-up unit broadcast live broadcasting class and/or a recovery command assembly mechanism of full-province unicast live broadcasting or new start-up unit broadcast live broadcasting class, and the workflow of the shutdown command assembly mechanism of full-province unicast live broadcasting or new start-up unit broadcast live broadcasting class comprises the following steps: step B11, entering sys mode; step B12, enter port mode; step B13, disabling the port; step B14, exit sys mode; the working process of the provincial unicast live broadcast or newly-opened unit broadcast live broadcast class recovery instruction assembly mechanism comprises the following steps of: step B21, entering sys mode; step B22, enter port mode; step B23, enable port; step B24, exits sys mode.

6. The method according to claim 1, wherein the shutdown/recovery command assembly comprises a shutdown command assembly mechanism for all/some multicast live broadcast in a certain local market, and/or a recovery command assembly mechanism for all/some multicast live broadcast in a certain local market, and the workflow of the shutdown command assembly mechanism for all/some multicast live broadcast in a certain local market comprises the following steps: step C11, entering sys mode; step C12, entering ACL mode; step C13, enabling RULE configuration to a specified IP; step C14, exit sys mode; the workflow of the all/some multicast live broadcast class recovery instruction assembly mechanism of the certain city comprises the following steps: step C21, entering sys mode; step C22, entering ACL mode; step B23, disabling RULE configuration to a specified IP; step C24, exits sys mode.

7. The method as claimed in claim 1, wherein the shutdown/recovery execution result is verified objectively by parsing the verification instruction set execution result in an instruction verification manner, so that an operator can immediately confirm the operation result after shutdown/recovery without manual coordination verification.

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