CN112737802B - Internet private line management method and system - Google Patents

Abstract

The invention discloses a method and a system for managing an internet private line, wherein the method comprises the following steps: acquiring and analyzing BNG equipment configuration analysis data by utilizing a metropolitan area network BNG equipment configuration analysis program; generating a work order according to the configuration analysis data, and configuring and generating a service configuration script; and logging in BNG equipment by using the service configuration script to execute automatic configuration, and opening the special Internet line. The method and the system can automatically position a service path and allocate logic resources for access equipment corresponding to an Internet private line service user according to BNG equipment configuration analysis data, automatically generate an inspection script before the Internet private line is opened and relevant configuration in a worksheet form, perform the inspection script after the configuration and the configuration on the equipment, and reserve operation records for checking, thereby improving the working efficiency of operation and maintenance personnel, effectively ensuring the accuracy of the Internet private line opening and configuration, reducing the probability of fault occurrence, reducing user complaints and improving the quality of service of the Internet private line service of an operator.

Description

Internet private line management method and system

Technical Field

The invention relates to the technical field of communication, in particular to a method and a system for managing an internet private line.

Background

With the rapid development of communication technology, the end-to-end service can be rapidly and safely transmitted by opening an end-to-end internet special line.

At present, internet special line opening is a common work in the daily operation and maintenance process of an operator. Generally, the existing opening process is queried and configured in a manual mode, so that service faults caused by query or configuration errors and the like are easily caused, and meanwhile, the problem of no operation record checking exists; when a private line is opened, the private network is configured manually, which may result in long time for opening the private line, low efficiency, poor flexibility of subsequent private line management, and the like.

Therefore, a technical scheme for automatically opening a dedicated internet line and facilitating personnel to perform dedicated line management is needed.

Disclosure of Invention

In order to solve the problems, the invention provides an internet private line management method and system, which can realize automatic opening of the internet private line, record operation logs, service information and the like, improve the accuracy and efficiency of service configuration, reduce the manual operation and maintenance cost and reduce the service fault occurrence rate.

In an embodiment of the present invention, a method for managing a dedicated internet line is provided, where the method includes:

acquiring and analyzing BNG equipment configuration analysis data by utilizing a metropolitan area network BNG equipment configuration analysis program;

generating a work order according to the BNG equipment configuration analysis data;

generating a service configuration script according to the information configuration of the work order;

and logging in BNG equipment by using the service configuration script to execute automatic configuration, and opening the special Internet line.

In another embodiment of the present invention, a system for managing a dedicated internet line is further provided, where the system includes:

the acquisition and analysis module is used for acquiring and analyzing BNG equipment configuration analysis data by utilizing a metropolitan area network BNG equipment configuration analysis program;

the work order generating module is used for generating a work order according to the BNG equipment configuration analysis data;

the script generating module is used for generating a service configuration script according to the information configuration of the work order;

and the automatic configuration module is used for logging in BNG equipment by using the service configuration script to execute automatic configuration and open the Internet private line.

In another embodiment of the present invention, a computer device is further provided, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, and when the processor executes the computer program, the computer device implements the internet private line management method.

In another embodiment of the present invention, a computer-readable storage medium storing a computer program for executing the internet private line management method is also presented.

The Internet private line management method and the Internet private line management system can acquire and analyze BNG equipment configuration analysis data by utilizing a metropolitan area network BNG equipment configuration analysis program, automatically position a service path and distribute logic resources according to access equipment corresponding to an Internet private line service opening user by combining the data, automatically generate an Internet private line inspection script before opening relevant configuration in a worksheet form, execute the inspection script on the equipment, and reserve operation records for inspection and the like. The method and the system improve the working efficiency of operation and maintenance personnel, effectively ensure the accuracy of the Internet private line opening configuration, reduce the fault occurrence probability, reduce the customer complaints and improve the quality of the Internet private line service of operators.

Drawings

Fig. 1 and 2 show application scenarios in which embodiments of the present invention may be implemented.

Fig. 3 is a flowchart illustrating an internet private line management method according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of an internet private line management system according to an embodiment of the present invention.

Fig. 5 to 9 are schematic command playback diagrams of acquiring, analyzing and obtaining device configuration analysis data according to an embodiment of the invention.

Fig. 10 is a schematic diagram of an OLT management interface according to an embodiment of the present invention.

FIG. 11 is a diagram illustrating an OLT and BNG relationship viewing interface according to an embodiment of the present invention.

Fig. 12 is a schematic interface diagram of IP address maintenance according to an embodiment of the present invention.

FIG. 13 is a diagram illustrating a page with an added address pool according to an embodiment of the invention.

Fig. 14 is a schematic diagram of a page of the querying OLT device according to an embodiment of the present invention.

FIG. 15 is a work order flow diagram of an embodiment of the present invention.

Fig. 16 to 18 are schematic diagrams of interfaces for manufacturing a work order according to an embodiment of the present invention.

Fig. 19-21 are schematic interface diagrams of work order query according to an embodiment of the invention.

FIG. 22 is a diagram of an interface for configuring a configuration script for generating a service according to an embodiment of the present invention.

FIGS. 23 and 24 are schematic diagrams illustrating the service configuration script check command playback according to an embodiment of the present invention.

Fig. 25 is a schematic view of a VLAN usage query interface according to an embodiment of the present invention.

Fig. 26 is a schematic diagram of a service information query interface according to an embodiment of the present invention.

FIG. 27 is a diagram of a business change history query interface according to an embodiment of the present invention.

FIG. 28 is a block 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 with reference to a number of exemplary embodiments. It is understood that these embodiments are given only to enable those skilled in the art to better understand and to implement the present invention, and do not 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 invention provides a method and a system for managing an internet private line. The method and the system eliminate the steps of manually inquiring a service path, distributing service logic resources and the like based on the analysis of data of the Internet private line service bureau, and realize the automatic opening process of the Internet private line, which is issued by automatic positioning selection of the service path, automatic distribution of logic resources such as user IP (Internet protocol), VLAN (virtual local area network) and the like, automatic generation of a service configuration script and automatic configuration of login equipment.

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

Reference is first made to fig. 1 and 2, which illustrate application scenarios in which embodiments of the present invention may be implemented.

Fig. 1 shows a scenario including a main BNG device 100, a standby BNG device 200, and an OLT device 300, where the scenario is a double-hook scenario, and the OLT device 300 is connected below the main BNG device 100 and the standby BNG device 200.

The scenario shown in fig. 2 includes a main BNG device 100 and an OLT device 300, and unlike fig. 1, the OLT device 300 is single-hung.

By logging in the main BNG device 100 and the standby BNG device 200, relationship information between a BNG (broadband network gateway control) device and an access network OLT (optical line terminal) device, a user address pool large segment and used address information, SVLAN and used CVLAN information, and the like can be collected, and service path information and logic resource use conditions are sorted and analyzed. The information is utilized to realize the automatic opening of the service in the form of a work order, and the work order can automatically position and configure BNG equipment related information, automatically allocate VLAN (according to the requirement) and automatically allocate the specified number of idle user addresses according to the IP of OLT equipment. Generating an Internet special line opening script according to the work order, logging in and configuring BNG equipment to execute automatic configuration, and completing automatic opening of the Internet special line; and finally, operation logs, configuration logs, service data and the like can be recorded and inquired according to needs, so that operation and maintenance personnel can maintain conveniently.

Referring to fig. 3 to fig. 27, the internet private line management method and system according to an exemplary embodiment of the present invention will be described with reference to the application scenarios of fig. 1 and fig. 2.

Fig. 3 is a flowchart illustrating an internet private line management method according to an embodiment of the present invention. As shown in fig. 3, the method includes:

and S101, acquiring and analyzing BNG equipment configuration analysis data by utilizing a metropolitan area network BNG equipment configuration analysis program.

And S102, generating a work order according to the BNG equipment configuration analysis data.

And S103, generating a service configuration script according to the information configuration of the work order.

And step S104, logging in BNG equipment by using the service configuration script to execute automatic configuration, and opening the Internet private line.

Step S105, recording operation logs, configuration logs and service information related to the Internet private line;

and step S106, receiving the query instruction, and deriving a corresponding query result according to the operation log, the configuration log and the service information.

It should be noted that although the operations of the method of the present invention are described in the embodiments of the present invention 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 illustrated operations must be performed, to achieve desirable 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.

Based on the same inventive concept, the invention also provides an internet private line management system, as shown in fig. 4, the system comprises:

the acquisition and analysis module 410 is configured to acquire and analyze BNG device configuration analysis data by using a metro network BNG device configuration analysis program;

a work order generation module 420, configured to generate a work order according to the BNG device configuration analysis data;

the script generating module 430 is configured to generate a service configuration script according to the information configuration of the work order;

and the automatic configuration module 440 is configured to log in the BNG device by using the service configuration script to execute automatic configuration, so as to open a dedicated internet line.

Further, corresponding to the foregoing method, the management system may further include:

the information recording module 450 is configured to record an operation log, a configuration log and service information related to the internet private line;

and the query module 460 is configured to receive a query instruction, and derive a corresponding query result according to the operation log, the configuration log, and the service information.

It should be noted that although several modules of the internet private line management system are mentioned in the above detailed description, such division 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.

In order to explain the above-mentioned internet private line management method and system more clearly, the following description is made with reference to specific embodiments.

Firstly, the management system (hereinafter referred to as the management system) of the internet private line is utilized, the step S101 is combined, the BNG equipment of the metropolitan area network is logged in, the BNG equipment of the metropolitan area network is utilized to configure an analysis program, the relation information of the BNG equipment and the access network OLT equipment, the large segment of the user address pool, the used address information, the SVLAN and the used CVLAN information are collected, and the service path information and the use condition of the logic resource are obtained through sorting and analysis.

Taking Arron BNG equipment as an example, logging in the equipment, and acquiring and analyzing configuration analysis data of the equipment by utilizing a metropolitan area network BNG equipment configuration analysis program.

Setting program selectable parameters: -oltip x.x.x.x-cityname xxx; if the parameters are carried out, analyzing the relevant information of the address pool under the lag port corresponding to the main edge BNG equipment of the OLT equipment under the parameter city; if no parameter, the total quantity is analyzed according to the following logic:

a) And acquiring OLT sub-interface information and commanding:

admin display-config | match "vprn 20000000" context all// fixed command

The lag port, the sap port, the gateway address, the weight and the operation group information corresponding to the interface name can be obtained according to the command echo, and meanwhile, the configuration of each section of interface corresponding to the interface name is recorded; wherein, an interface name corresponds to an OLT device.

Fig. 5 is a schematic illustration showing an OLT sub-interface according to an embodiment of the present invention, and as can be seen from fig. 5, the interface name of the OLT apparatus is "GE-lag-16;

its corresponding lag mouth: lag-16; intercepting character strings from the start of the lag to the front of the lag according to the interface name;

and an sap opening: lag-16; intercepting character strings from the beginning to the end of the lag;

gateway address: 172.23.250.1; the gateway address is the same as the gateway of the same OLT on the main BNG and the standby BNG;

and (3) weighting: 120 of a solvent;

operator-group (operation group): GE-lag-16.

b) Acquiring the master-slave priority of the OLT sub-interface, and commanding:

show router 20000000vrrp instance// fixed command

Acquiring the corresponding relation between the interface name and the weight according to the command echoing; wherein, if the weight result is not collected after the command is executed, the weight of the collection result in a) is adopted.

Fig. 6 is a schematic diagram of displaying back the main/standby priorities of the OLT sub-interfaces according to an embodiment of the present invention. As can be seen from FIG. 6, the interface name "GE-lag-9" corresponds to the weight: 120.

the data corresponding to the weight is 120, which means that the OLT sub-interface corresponds to the main-side BNG device of the OLT device, is not 120 or is not acquired, which means that the OLT sub-interface corresponds to the standby-side BNG device of the OLT device, if the OLT device is single-hung, the weight is 120 by default, and the OLT sub-interface corresponds to the main-side BNG device of the OLT device.

c) Judging the direct-hanging relationship between the OLT equipment and the BNG equipment according to the lag port, and ordering:

admin disp|match'lag'con chi

acquiring the corresponding relation between the lag port and the access mode according to the command playback;

fig. 7 is a schematic illustration showing the access method of the OLT device and the BNG device according to an embodiment of the present invention. As can be seen from fig. 7, the access method data corresponding to the lag port "lag 16" (replacing "-" with a blank space) is: 1000.

the data corresponding to the access mode is 1000, which means that the OLT device is not directly hung on the BNG device (box), and if the data is not 1000 or is not collected, which means that the OLT device is directly hung on the BNG device (box).

d) And acquiring the physical relationship between the BNG equipment and the OLT equipment, and ordering:

show router 20000000arp// fixed command

Acquiring the corresponding relation between the interface name and the IP of the OLT equipment according to the command echo display, and further acquiring the physical relation between the BNG equipment and the OLT equipment by utilizing the corresponding relation;

fig. 8 is a schematic illustration showing a corresponding relationship between an interface name and an IP of an OLT device according to an embodiment of the present invention. For example, as can be seen from FIG. 8, the interface name "GE-lag-9: the BNG device of 20.0 "has an IP of 187.17.51.129 for the OLT device.

e) Collecting OLT service interface information, and ordering:

GDGZ-MS-IPMAN-BNG01-XY-AL # configuration services 11110000// fixed command

* GDGZ-MS-IPMAN-BNG01-XY-AL > config > service > ies # info// fixed command

Acquiring and recording each section of user interface configuration, SVLAN and used CVLAN corresponding to the lag port according to the command echo; if the OLT equipment corresponds to the main-side BNG equipment, further acquiring address related information, removing the network address, the broadcast address, the gateway address and the used address in the large section of the address pool, and acquiring idle address information.

Fig. 9 is a schematic echo diagram for collecting OLT service interface information according to an embodiment of the present invention. As shown in FIG. 9, the SVLAN of lag Port "lag-106": 1023; CVLAN has been used: 100, respectively; address pool large segment (there may be multiple): 120.236.80.65/28; the address pool is large with the used addresses (there may be multiple): 120.236.80.66.

through the step S101, operations such as OLT management, OLT and BNG relationship check, and IP address maintenance may be further performed, and these processes may be performed according to the needs of the operation and maintenance personnel, and the operation and maintenance personnel may perform operations directly on the corresponding interface of the management system.

a) And OLT management:

the management system can execute a first control instruction according to the obtained BNG equipment configuration analysis data, perform OLT management, import OLT equipment according to the city, and display city information, equipment name, equipment address, OLT access mode and updating time according to the query condition; and deleting the corresponding equipment according to the deletion instruction.

Specifically, fig. 10 is a schematic diagram of an OLT management interface according to an embodiment of the present invention. As shown in fig. 10, in the interface, there are provided: an "import" button and a "query" button.

The operation and maintenance personnel can press the information of the importing OLT equipment in the city by using an importing button in the interface. The query condition 'city' is a drop-down box, the value is the name of the city in province, and the management mode adopts the weighted domain division.

The query condition 'OLT access mode' is a drop-down box, and the value is single-hanging or double-hanging.

The query conditions of 'equipment name' and 'equipment address' are input boxes and support fuzzy matching.

And selecting check boxes in the columns, wherein the operation and maintenance personnel can check the equipment and delete the corresponding equipment by the management system according to the deletion instruction by clicking a 'delete' button.

b) And checking the relationship between the OLT and the BNG:

the management system can execute the second control instruction according to the BNG device configuration analysis data, query and display the relationship information between the OLT and the BNGs including the city information, the name of the OLT device, the address of the OLT device, the name of the main BNG, the address of the main BNG device, the primary lag port, the name of the standby BNG, the address of the standby BNG device, the standby lag port and the access mode.

Specifically, FIG. 11 is a schematic diagram of an OLT relationship viewing interface and a BNG relationship viewing interface according to an embodiment of the present invention. As shown in fig. 11, in the interface, a "query" button and a "export excel" button are provided, and the query result shows data obtained by the BNG device configuration analysis program.

The inquiry condition 'city' is a drop-down box, the value is the name of the city in province, and the management mode is the weight division and domain division;

the query conditions of equipment name, equipment address and binding port are input boxes, and fuzzy matching is supported;

and the export excel button is utilized to support the export of the query result in the excel format.

c) And IP address maintenance:

the management system can execute a third control instruction according to the BNG equipment configuration analysis data, inquire and display IP address maintenance information including city information, a BNG equipment name, a BNG equipment address, an OLT equipment name, an OLT equipment address, an address pool, an IP address, an address state, an acquisition state, a city standing book state and a comprehensive fund standing book state;

according to the import instruction, the state of a city, the state of comprehensive resources and the state of an address corresponding to the existing address pool can be further updated, verification is carried out during import, and the imported field conforms to the coding specification, the address field of the address pool is legal and the existing information exists;

according to the updating instruction, a BNG device configuration analysis program, OLT device address information with parameters and city information can be further called, and corresponding address pool information is updated;

and according to the input instruction, inputting a large-segment address pool address and adding an address segment.

Specifically, as shown in FIG. 12, a schematic view of an interface maintained for IP addresses showing the results of the analysis procedure based on BNG device configuration.

For the IP address maintenance, an 'add address field' button, an 'inquiry' button, an 'export excel' button and an 'import' button are arranged, and an 'update' button is arranged in the last column of an inquiry result.

The inquiry condition 'city' is a drop-down box, the value is the name of the city in province, and the management mode is the division of weight and domain.

The inquiry conditions of address state, acquisition state, city state and comprehensive resource state are pull-down boxes, and the values are idle, occupied and occupied (an independent program updates the total address state according to the acquisition/address ledger/comprehensive ledger state, wherein any occupied state is occupied, all idle states are idle, and all occupied states are occupied).

The query conditions of 'equipment name', 'equipment address', 'address pool' and 'user IP address' are all input boxes, and fuzzy matching is supported.

The query result can be exported as excel using the "export excel" button.

The 'import' button has the main functions of updating the city state, the comprehensive resource state and the address state corresponding to the existing address pool, and can check when importing, and import the existing information of which the field conforms to the coding specification and the address field of the address pool is legal.

The "update" button may invoke a BNG device configuration analysis program to update the corresponding address pool information based on the OLT device address with parameters and the city of the earth.

After the operation and maintenance personnel click the address field, the page of adding the address pool shown in fig. 13 is opened, and the address of the large address pool can be recorded.

On the page of fig. 13, the operation and maintenance personnel can click the "ok" button to verify that the existing OLT equipment is available, and the input address field cannot conflict with the existing large address pool address records in the database.

The operation and maintenance personnel can click on a 'select' button to open a find OLT equipment page as shown in fig. 14.

Further, on the page of fig. 14, the query of the OLT device may be performed through the query condition "OLT device name" and "OLT device IP address", so as to support fuzzy matching; the operation and maintenance personnel can click a 'confirm' button to check any selected OLT equipment, close the page after the check is passed, and backfill the name and IP address of the OLT equipment on the previous page.

After the BNG device configuration analysis data is collected, further, in combination with step S102, a work order is generated according to the BNG device configuration analysis data, and the specific process is as follows:

fig. 15 to 17 are combined to show a work order production flow diagram, a work order parameter input interface, and a host/standby related logic information interface, respectively.

Referring to fig. 15, a work order circulation diagram is shown, which shows a series of work order circulation processes after the manufacture, configuration, distribution and invalidation of the work order, and the specific processes are introduced as follows:

as shown in fig. 16, according to the service path information, the operation and maintenance staff may manually write parameter information of the work order when the node position is within the configured local scope.

For a work order which is not in the configured city range, after the node position is selected, the management system can automatically generate the corresponding service order number, group product code, SVLAN and CVLAN, and further write the parameter information of the work order.

After the operation and maintenance personnel click the "acquire service logic resource" button, as shown in fig. 17, the management system may acquire the main/standby relevant logic information and the shared gateway address information according to the input IP address of the OLT device.

In the interface of fig. 17, after the operation and maintenance personnel click the "download configuration file" button, the management system may download the latest configuration file of the BNG device to the formulated directory according to the host/standby related logic information;

after the operation and maintenance personnel click the button for viewing the interface configuration, the management system displays user interface (subscriber-interface) information and configuration under a network management sub-interface according to the latest configuration file of the BNG equipment for the operation and maintenance personnel to view;

the operation and maintenance personnel can input the address information of the large address pool according to the large address pool segment of the user and the used address information by clicking the button for adding the address segment;

the management system saves the created work order information through a "save" button.

After saving the work order, the operation and maintenance staff may click the "view address configuration" button in fig. 17, and the management system generates the address configuration information of the OLT device, as shown in fig. 18, which is a display interface diagram of the address configuration information of the OLT device, where the address configuration information of the OLT device is displayed.

In fig. 17, the operation and maintenance staff may further click on a "configuration generation" button to open a configuration generation page, and the specific content is described in detail in step S103 described later.

In an embodiment, in combination with step S103, a service configuration script is configured and generated according to the information of the work order.

As shown in fig. 17, when the "configuration generation" button is clicked, the job ticket in the state to be generated generates a service configuration script according to the configuration generation command and the information of the job ticket.

Further, after configuring and generating the service configuration script, the work orders may be subjected to operation processing modes such as system work order query, work order information update, work order configuration, configuration check, and the like, which are specifically as follows:

FIG. 19 is a schematic diagram of a system work order query page. As shown in fig. 19, the management system can search and display the work order information including the information of the local city, the service order number, the group product code, the service type, the operation type, the SVLAN, the CVLAN, the OLT name, the OLT IP, the user address, and the work order status according to the work order search command.

During query, the query condition 'city' is a drop-down box, the value is the name of the city in province, and the management mode is the division of weight and domain.

The query condition 'work order state' is a drop-down frame, and the value is to-be-generated, to-be-issued, successful, failed and invalid.

The query condition 'operation type' is a drop-down box, and values are new installation, new disassembly and new installation rollback.

The query conditions of client name, user address, SVLAN, CVLAN, equipment name, equipment IP, service order number and group product code are all input boxes, and fuzzy matching is supported.

The query result supports export as excel.

After the operation and maintenance personnel click the 'increase work order' button, the work order making page can be opened to make and add the work order;

and after clicking 'update import', the management system receives the work order update information input by the user according to the work order update instruction, and updates the information of the work orders in batches.

After the operation and maintenance personnel click the "view log" button in fig. 19, as shown in fig. 20, a deployment result page may be opened, and the work order deployment result, the inspection log (including the inspection item and the result), the issue log, and the post-configuration inspection log (including the inspection item and the result) of each BNG device to be configured are displayed;

in fig. 19, the operation and maintenance personnel may click the "work order detail" button to open a work order information page, as shown in fig. 21, where the information of the work order is displayed in detail for the operation and maintenance personnel to view.

FIG. 22 is a schematic diagram of an interface for generating a service configuration script for a configuration. And after generating the service configuration script according to the information configuration of the work order, checking the generated service configuration script, and if the checking is passed, successfully configuring the generation result to generate the service configuration script of each BNG device to be configured.

And performing configuration generation on the active and standby BNG devices, wherein the configuration generation result is successful only under the condition that the check is passed before the configuration generation of the two devices. The audit log may be: examination terms and examination result summary statements.

Further, if the work order has been successfully configured to generate the service configuration script, and the configuration check passes and is issued, the work order state is as shown in the first item of "query result" in fig. 19: and (4) success.

If the deployment result is successful, as shown in the second item of the "query result" in fig. 19, the work order status is: and after the result is issued, an operation column behind the result can display an issue button, operation and maintenance personnel can click the issue button, and the management system logs in corresponding equipment to execute automatic configuration according to the configuration issue instruction to open the Internet private line.

For a work order of a new installation operation type with a failed work order deployment result and no rollback, as the third item in the "query result" shown in fig. 19, the work order state is: when the operation and maintenance personnel fail, the operation and maintenance personnel can click a 'rollback' button, and the management system generates a corresponding new rollback work order according to the rollback instruction;

before generating a corresponding new rollback work order through the rollback configuration, a check command needs to be executed:

GDGZ-MS-IPMAN-BNG01-FC-AL # admin display-config | match "jk-lag-108" context chip tree ", a texture lag-10

sap lag-10

And displaying back by the command, judging that no sap port exists, not rolling back, and continuing to roll back if the sap port exists.

For the work order of the new installation operation type with the unsuccessful deployment result and no rollback, the operation and maintenance personnel can click a 'configuration deletion' button, and the management system generates a corresponding machine-dismantling work order according to a configuration deletion instruction;

for the work order in a state to be generated or issued, the operation and maintenance personnel can click a 'invalidation work order' button, and the management system invalidates the current work order according to the invalidation instruction.

Specifically, before logging in the BNG device to execute the automatic configuration by using the service configuration script in step S104 and opening the dedicated internet line, the service configuration script may be checked.

That is, as shown in the fourth "query result" in fig. 19, the work order status is: to be checked. The operation and maintenance personnel can click the 'configuration check' button to carry out configuration check.

Taking a new lan BNG device as an example, first, a check command is used to judge whether the SVLAN and CVLAN are regularly matched according to the command echo, and whether the SVLAN + CVLAN combination is available is checked, and the command:

A:GDGZ-MS-IPMAN-BNG01-FC-AL#show service sap-using

for example, as shown in fig. 23, the command redisplay is used to determine whether "svlan.cvlan" can be regularly matched, and if "SVLAN + CVLAN" is matched (completely matched VLAN), the combination of SVLAN and CVLAN is determined to be unavailable, the subtask fails and "SVLAN + CVLAN combination is reported to be unavailable";

in the example of FIG. 23, "SVLAN. CVLAN" matched to "lag-4" and "lag-51" determines that the SVLAN and CVLAN combination is not available, and that the subtask failed and reported an error; cvlan ", which did not match to" lag-35", was determined to be available.

If the match is not found, the decision is available, and the newly allocated user IP is further checked, and the command:

service configure ies 11110000

sub-interface jk-lag-106--sub interface

B:GDGZ-MS-IPMAN-BNG02-FC-AL>config>service>ies>sub-if#info

intercepting a configuration address pool according to an address keyword (address) displayed back by a command, intercepting a used address according to a static-host IP (static-host IP) keyword of a host, and checking whether each newly distributed user IP is in the range of an address field of the configuration address pool or a pre-configured address pool and does not conflict with the used address;

for example, as shown in FIG. 24, a command playback diagram is shown. For example, the configured address pool of the "address" key in fig. 24 is: 120.197.36.130/26, 192.236.195.2/26, the used addresses intercepted by the "static-host ip" key are: 120.197.36.164 and 120.197.36.140.

If the check result is negative, the subtask fails and reports an error, and the error is reported, namely newly-opened and distributed user IP < x.x.x.x \8230; > unavailable ";

if the verification result is yes, the step S104 is continuously executed, the business configuration script is used for logging in the BNG equipment to execute automatic configuration, and the Internet private line is opened.

After the internet private line is opened, the management system may record the operation log, the configuration log, and the service data in step S105 for subsequent query as required.

Specifically, in combination with step S106, the management system may receive the query instruction, and derive the query result according to the query instruction. The specific query content may include: VLAN use condition information, service information and service change history information.

a) VLAN use condition inquiry:

the management system inquires and displays VLAN use condition information including city information, BNG equipment name, BNG equipment address, OLT equipment name, OLT equipment address, service subinterface, SVLAN, CVLAN and CVLAN state according to the VLAN use condition inquiry command.

Specifically, as shown in fig. 25, the management system displays relevant information according to the processing result of the BNG device configuration analysis program and the situation that the work order occupies the VLAN.

The query condition 'city' is a drop-down box, and the value is the name of the city in province. Dividing the weight and the domain;

the query condition 'CVLAN state' is a drop-down box, and values are idle, occupied and pre-occupied;

query conditions of equipment name, equipment address, SVLAN and CVLAN are input boxes, and fuzzy matching is supported;

inquiring result BNG information as a main edge BNG;

the SVLAN is displayed only when the query result CVLAN state is occupied or pre-occupied;

the query result supports export as excel.

b) Service information query and service change history information query:

the management system inquires and displays service information including city information, service order number, group product code, OLT equipment name, OLT equipment address, main BNG name, main BNG equipment address, main user sub-interface, standby BNG name, standby BNG equipment address, standby BNG downlink binding port, user address, service state, new start time and operation time according to the service information inquiry instruction.

The management system inquires and displays service change history information including city information, service order number, group product code, OLT equipment name, OLT equipment address, main BNG name, main BNG equipment address, main user sub-interface, standby BNG name, standby BNG equipment address, standby BNG downlink binding port, user address number, user address, change operation and operation time according to the service history change inquiry instruction; and displaying the detailed information according to the detailed information display instruction.

Specifically, as shown in fig. 26 and 27, the service information query interface and the service history change query interface are respectively schematic diagrams, and after the automatic activation of the system internet private line is finished, the service information and the record change history are stored.

As can be seen from fig. 26, the query condition city is a drop-down box, the value is the name of the city in province, and the management mode is the division of weight and domain;

the query condition service state is a drop-down box, and the value is used, dismantled and shut down;

inquiring condition equipment name, equipment address, user sub-interface, user name, user address, service list number and group product code as input boxes, and supporting fuzzy matching (BNG equipment supports main and standby);

the query result supports export as excel;

clicking a 'detail' button in the figure 26 can open a work order detail page of the new installed work order corresponding to the service;

clicking the "view history" button opens the business change history page corresponding to the business as shown in fig. 27.

In fig. 27, the city, user name, and group product code are directly brought into the static display, and the "detail" button is clicked to open the work order detail page corresponding to the operation work order.

The system and the method can help operation and maintenance personnel to realize the automatic opening of the Internet private line, simultaneously record operation logs, service data and the like, improve the accuracy and efficiency of service configuration, and reduce the requirement of operators on the professional skill level of the operation and maintenance personnel and the occurrence rate of service faults.

Based on the foregoing inventive concept, as shown in fig. 28, the present invention further provides a computer device 2800, which includes a memory 2810, a processor 2820 and a computer program 2830 stored in the memory 2810 and capable of running on the processor 2820, wherein the processor 2820 implements the foregoing internet dedicated line management method when executing the computer program 2830.

Based on the foregoing inventive concept, the present invention also provides a computer-readable storage medium storing a computer program for executing the internet private line management method.

The internet private line management method, the system, the computer equipment and the computer readable storage medium provided by the invention can acquire and analyze BNG equipment configuration analysis data by utilizing a metropolitan area network BNG equipment configuration analysis program, automatically position a service path and distribute logic resources according to access equipment corresponding to an internet private line service user by combining the data, automatically generate an internet private line inspection script before opening relevant configuration in a worksheet form, configure and configure the inspection script, execute the inspection script on the equipment, reserve operation records for inspection and the like. The method and the system improve the working efficiency of operation and maintenance personnel, effectively ensure the accuracy of the Internet private line opening configuration, reduce the fault occurrence probability, reduce the customer complaints and improve the quality of the Internet private line service of operators.

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 may not be combined to benefit. The invention is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (11)

1. A special line management method for the Internet is characterized by comprising the following steps:

acquiring and analyzing BNG equipment configuration analysis data by utilizing a metropolitan area network BNG equipment configuration analysis program;

generating a work order according to the BNG equipment configuration analysis data;

generating a service configuration script according to the information configuration of the work order;

logging in BNG equipment by using the service configuration script to execute automatic configuration, and opening a special Internet line;

the method for acquiring and analyzing the BNG equipment configuration analysis data by utilizing the metropolitan area network BNG equipment configuration analysis program comprises the following steps of:

utilizing a metro network BNG device to configure an analysis program, acquiring relation information between the BNG device and an access network OLT device, a user address pool large segment and used address information, SVLAN and used CVLAN information, and obtaining service path information and logic resource use conditions through sorting and analysis;

utilizing a metropolitan area network (BNG) device to configure an analysis program and collecting OLT sub-interface information; executing a first command, acquiring lag port, sap port, gateway address, weight and operation group information corresponding to the interface name according to the command playback, and simultaneously recording each section of interface configuration corresponding to the interface name; wherein, one interface name corresponds to one OLT device;

acquiring the master-slave priority of an OLT sub-interface; executing a second command, and acquiring the corresponding relation between the interface name and the weight according to the command echoing; if the weight result is not acquired after the second command is executed, the weight of the acquisition result in the first command is adopted; the data corresponding to the weight is 120, which indicates that the OLT sub-interface corresponds to the main-side BNG device of the OLT device, is not 120 or is not acquired, which indicates that the OLT sub-interface corresponds to the standby-side BNG device of the OLT device, if the OLT device is singly hung, the weight is defaulted to 120, and the OLT sub-interface corresponds to the main-side BNG device of the OLT device;

judging the direct hanging relationship between the OLT equipment and the BNG equipment according to the lag port; executing a third command, and acquiring the corresponding relation between the lag port and the access mode according to the command echo, wherein the data corresponding to the access mode is 1000, which indicates that the OLT equipment is not directly hung on the BNG equipment, and if the data is not 1000 or is not acquired, which indicates that the OLT equipment is directly hung on the BNG equipment;

acquiring the physical relationship between BNG equipment and OLT equipment; executing a fourth command, acquiring the corresponding relation between the interface name and the IP of the OLT equipment according to the command echo, and acquiring the physical relation between the BNG equipment and the OLT equipment according to the corresponding relation;

collecting OLT service interface information; executing a fifth command, and acquiring and recording the configuration of each section of user interface corresponding to the lag port, the SVLAN and the used CVLAN according to the command playback; if the OLT equipment corresponds to the main-side BNG equipment, further acquiring address related information, removing a network address, a broadcast address, a gateway address and a used address in the large section of the address pool, and acquiring idle address information;

according to the BNG equipment configuration analysis data, executing a first control instruction, carrying out OLT management, importing information of OLT equipment according to the city, and displaying the city information, the equipment name, the equipment address, the OLT access mode and the updating time according to the query condition;

according to the BNG equipment configuration analysis data, executing a second control instruction, inquiring and displaying the relation information of the OLT and the BNG, wherein the relation information comprises city information, an OLT equipment name, an OLT equipment address, a main BNG name, a main BNG equipment address, a main edge lag port, a standby BNG name, a standby BNG equipment address, a standby edge lag port and an access mode;

according to the BNG device configuration analysis data, executing a third control instruction, inquiring and displaying IP address maintenance information including city information, a BNG device name, a BNG device address, an OLT device name, an OLT device address, an address pool, an IP address, an address state, an acquisition state, a city standing book state and an integrated fund standing book state; according to the import instruction, further updating a city state, a comprehensive resource state and an address state corresponding to the existing address pool, verifying during import, and leading in information of which an import field accords with a coding specification and an address section of the address pool is legal and already exists; according to the updating instruction, further calling a BNG equipment configuration analysis program, and updating corresponding address pool information according to the OLT equipment address information with parameters and the city information; and according to the input instruction, inputting a large-segment address pool address and adding an address segment.

2. The internet private line management method of claim 1, further comprising:

recording an operation log, a configuration log and service information related to the Internet private line;

and receiving a query instruction, and deriving a corresponding query result according to the operation log, the configuration log and the service information.

3. The internet private line management method of claim 1, wherein generating a work order according to the BNG device configuration analysis data comprises:

writing parameter information of the work order of the node position in the configured city and place range according to the service path information; after selecting a node position, automatically generating a corresponding service order number, a group product code, an SVLAN and a CVLAN for a work order which is not in a configured city range, and further writing parameter information of the work order;

acquiring and displaying main-standby related logic information and address information of a shared gateway according to the logic resource use condition and the IP address of the OLT equipment;

in the work order, inputting a large segment of address pool address information according to a large segment of a user address pool and used address information;

and generating and storing the work order according to the written parameter information of the work order, the main and standby related logic information, the address information of the shared gateway and the address information of the large-segment address pool.

4. The internet private line management method of claim 3, wherein generating a service configuration script according to the information configuration of the work order comprises:

if the work order is in a state to be generated, configuring and generating the service configuration script according to a configuration generation instruction and the information of the work order; and checking the generated service configuration script, and if the checking is passed, successfully configuring the generated result, and generating the service configuration script of each BNG device to be configured.

5. The internet private line management method of claim 4, wherein a service configuration script is configured and generated according to the information of the work order, further comprising:

inquiring and displaying the information of the work order including city information, service order number, group product code, service type, operation type, SVLAN, CVLAN, OLT name, OLT IP, user address and work order state according to the work order inquiry command;

receiving work order updating information input by a user according to a work order updating instruction, and updating the information of the work orders in batches;

deploying the work order, issuing the work order to the corresponding BNG equipment to be configured, recording the deployment result of the work order and the check log of each BNG equipment to be configured, issuing the log and the configured check log;

if the type information of the work order is the new installation operation type and the work order deployment result is failure, generating a corresponding new installation rollback work order through rollback configuration; before generating a corresponding new rollback work order through rollback configuration, the method further comprises the following steps: and according to the command playback of a checking command, if the sap port does not exist, the rollback is not performed, and if the sap port exists, the rollback continues to be performed.

6. The internet private line management method according to claim 5, wherein generating a service configuration script according to the information configuration of the work order further comprises:

if the deployment result of the work order is a new installation operation type which is not successful and does not perform rollback, generating a corresponding machine dismantling work order according to the configuration deleting instruction;

and if the work order is in a to-be-generated state or a to-be-issued state, the current work order is invalidated according to the invalidation instruction.

7. The internet private line management method of claim 6, wherein before logging in the BNG device to perform automatic configuration by using the service configuration script and opening the internet private line, the method further comprises:

judging whether the SVLAN and the CVLAN are regularly matched or not according to the command playback by using the checking command;

if the SVLAN and the CVLAN are matched, judging that the SVLAN and the CVLAN combination are unavailable, failing the subtask and reporting an error;

if the matching is not achieved, the combination of the SVLAN and the CVLAN is judged to be available, and the newly-distributed user IP is further checked; intercepting a configuration address pool according to an address keyword displayed back by a command, intercepting a used address according to a host static IP keyword, and checking whether each newly distributed user IP is in the range of an address field of the configuration address pool or a pre-configured address pool and does not conflict with the used address; if the verification result is negative, the subtask fails and an error is reported; if the verification result is yes, the business configuration script is continuously used for logging in BNG equipment to execute automatic configuration, and the Internet private line is opened.

8. The internet private line management method of claim 2, wherein receiving a query instruction and deriving a query result according to the query instruction comprises:

inquiring and displaying VLAN use condition information including city information, BNG equipment name, BNG equipment address, OLT equipment name, OLT equipment address, service subinterface, SVLAN, CVLAN and CVLAN state according to the first inquiry instruction;

inquiring and displaying service information including city information, service order number, group product code, OLT equipment name, OLT equipment address, main BNG name, main BNG equipment address, main user sub-interface, standby BNG name, standby BNG equipment address, standby BNG downlink binding port, user address, service state, new start time and operation time according to the second inquiry instruction;

and inquiring and displaying service change history information comprising city information, a service order number, a group product code, an OLT equipment name, an OLT equipment address, a main BNG name, a main BNG equipment address, a main user sub-interface, a standby BNG name, a standby BNG equipment address, a standby BNG downlink binding port, the number of user addresses, the user addresses, change operation and operation time according to the third inquiry instruction.

9. An internet private line management system, comprising:

the acquisition and analysis module is used for acquiring and analyzing BNG equipment configuration analysis data by utilizing a metropolitan area network BNG equipment configuration analysis program;

the work order generating module is used for generating a work order according to the BNG equipment configuration analysis data;

the script generating module is used for generating a service configuration script according to the information configuration of the work order;

the automatic configuration module is used for logging in BNG equipment by using the service configuration script to execute automatic configuration and opening an Internet private line;

wherein, the collection analysis module is specifically configured to:

utilizing a metro network BNG device to configure an analysis program, acquiring relation information between the BNG device and an access network OLT device, a user address pool large segment and used address information, SVLAN and used CVLAN information, and obtaining service path information and logic resource use conditions through sorting and analysis;

utilizing a metropolitan area network BNG device to configure an analysis program and collecting OLT sub-interface information; executing a first command, acquiring lag port, sap port, gateway address, weight and operation group information corresponding to the interface name according to the command playback, and simultaneously recording each section of interface configuration corresponding to the interface name; wherein, one interface name corresponds to one OLT device;

acquiring the master-slave priority of an OLT sub-interface; executing a second command, and acquiring the corresponding relation between the interface name and the weight according to the command echoing; if the weight result is not acquired after the second command is executed, the weight of the acquired result in the first command is adopted; the data corresponding to the weight is 120, which indicates that the OLT sub-interface corresponds to the main-side BNG device of the OLT device, is not 120 or is not acquired, which indicates that the OLT sub-interface corresponds to the standby-side BNG device of the OLT device, if the OLT device is singly hung, the weight is defaulted to 120, and the OLT sub-interface corresponds to the main-side BNG device of the OLT device;

judging the direct hanging relationship between the OLT equipment and the BNG equipment according to the lag port; executing a third command, and acquiring the corresponding relation between the lag port and the access mode according to the command echo, wherein the data corresponding to the access mode is 1000, which indicates that the OLT equipment is not directly hung on the BNG equipment, and if the data is not 1000 or is not acquired, which indicates that the OLT equipment is directly hung on the BNG equipment;

acquiring the physical relationship between BNG equipment and OLT equipment; executing a fourth command, acquiring a corresponding relation between an interface name and an IP (Internet protocol) of the OLT equipment according to the command echo, and acquiring a physical relation between the BNG equipment and the OLT equipment according to the corresponding relation;

collecting OLT service interface information; executing a fifth command, and acquiring and recording the configuration of each section of user interface corresponding to the lag port, the SVLAN and the used CVLAN according to the command playback; if the OLT equipment corresponds to the main-side BNG equipment, further acquiring address related information, removing a network address, a broadcast address, a gateway address and a used address in the large segment of the address pool, and acquiring idle address information;

according to BNG equipment configuration analysis data, executing a first control instruction, carrying out OLT management, leading in information of OLT equipment according to local city, and displaying local city information, equipment name, equipment address, OLT access mode and updating time according to query conditions;

according to the BNG equipment configuration analysis data, executing a second control instruction, inquiring and displaying the relation information of the OLT and the BNG, wherein the relation information comprises city information, an OLT equipment name, an OLT equipment address, a main BNG name, a main BNG equipment address, a main edge lag port, a standby BNG name, a standby BNG equipment address, a standby edge lag port and an access mode;

according to the BNG device configuration analysis data, executing a third control instruction, inquiring and displaying IP address maintenance information including city information, a BNG device name, a BNG device address, an OLT device name, an OLT device address, an address pool, an IP address, an address state, an acquisition state, a city standing book state and an integrated fund standing book state; according to the import instruction, further updating a city state, a comprehensive resource state and an address state corresponding to the existing address pool, checking during import, and enabling an import field to accord with coding specifications, and the address field of the address pool is legal and has existing information; according to the updating instruction, further calling a BNG equipment configuration analysis program, and updating corresponding address pool information according to the OLT equipment address information with parameters and the city information; and according to the input instruction, inputting a large-segment address pool address and adding an address segment.

10. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the method of any one of claims 1 to 8 when executing the computer program.

11. 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 to 8.

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