CN113259791B

CN113259791B - Information configuration method, electronic device and computer-readable storage medium

Info

Publication number: CN113259791B
Application number: CN202110747319.0A
Authority: CN
Inventors: 董建峰; 郑直; 王培佩; 李明
Original assignee: Wuhan Yangtze Optical Technology Co ltd
Current assignee: Wuhan Yangtze Optical Technology Co ltd
Priority date: 2021-07-02
Filing date: 2021-07-02
Publication date: 2021-09-14
Anticipated expiration: 2041-07-02
Also published as: CN113259791A

Abstract

The application provides an information configuration method, an electronic device and a computer readable storage medium; the method comprises the following steps: determining that a network state of a first ONU device is a connected state and an information configuration task for the first ONU device exists; obtaining configuration information for the first ONU device based on a corresponding virtual ONU port under a virtual ONU associated with the first ONU device; the first ONU device belongs to a first set, the first set is associated with the virtual ONU, and the virtual ONU comprises at least one virtual ONU port; each ONU device in the first set is associated with one of the virtual ONU ports; sending, by the OLT, the configuration information to the first ONU device, so that the first ONU device performs configuration based on the configuration information for the first ONU device. By the method and the device, information configuration of the ONU equipment can be quickly and conveniently realized.

Description

Information configuration method, electronic device and computer-readable storage medium

Technical Field

The present disclosure relates to information technologies, and in particular, to an information configuration method, an electronic device, and a computer-readable storage medium.

Background

In Fiber to The home (FTTR) networks, The number and variety of Optical Network Unit (ONU) devices accessing The Network is large. In the related art, when the ONU devices are configured with information, each ONU device is configured one by one, and in an actual scene, the configuration task for the ONU devices is often targeted, for example, the configuration task that needs to be executed at present is for the home ONU device of the user 1.

Disclosure of Invention

The embodiment of the application provides an information configuration method, electronic equipment and a computer-readable storage medium, which can quickly and conveniently realize information configuration on ONU equipment.

The technical scheme of the embodiment of the application is realized as follows:

an embodiment of the present application provides an information configuration method, including:

determining that a network state of a first ONU device is a connected state and an information configuration task for the first ONU device exists;

obtaining configuration information for the first ONU device based on a corresponding virtual ONU port under a virtual ONU associated with the first ONU device; the first ONU device belongs to a first set, the first set is associated with the virtual ONU, and the virtual ONU comprises at least one virtual ONU port; each ONU device in the first set is associated with one of the virtual ONU ports;

sending, by an Optical Line Terminal (OLT), the configuration information to the first ONU device to cause the first ONU device to configure based on the configuration information for the first ONU device.

In the above scheme, the method further comprises:

receiving a registration request of the first ONU equipment sent by the OLT;

generating an information configuration task for the first ONU device based on the registration request.

In the above scheme, the method further comprises:

analyzing the registration request of the first ONU equipment to obtain the identifier of the first ONU equipment;

and determining a virtual ONU port associated with the identifier of the first ONU equipment based on the identifier of the ONU equipment, the virtual ONU and the mapping relation of the virtual port.

In the above scheme, the method further comprises:

receiving a change operation for configuration information of the first ONU device;

generating an information configuration task for the first ONU device based on the change operation.

In the foregoing solution, the obtaining configuration information for the first ONU device includes:

obtaining configuration information for the first ONU device by receiving an information configuration operation;

or, obtaining the stored configuration information for the first ONU device.

In the foregoing solution, the obtaining configuration information for the first ONU device by receiving an information configuration operation includes:

presenting information configuration function items aiming at the virtual ONU in an information configuration interface;

receiving configuration information configured by the information configuration operation in response to the information configuration operation aiming at the information configuration function item; the received configuration information can be the configuration information of each ONU device in the first set;

using the received configuration information as configuration information of the first ONU equipment; and determining the first ONU equipment based on the identifier of the ONU equipment, the mapping relation between the virtual ONU and the virtual port.

presenting a first virtual ONU port in an information configuration interface;

receiving configuration information configured by the information configuration operation in response to the information configuration operation for the first virtual ONU port;

determining the first ONU equipment based on the identifier of the ONU equipment, the mapping relation of the virtual ONU and the virtual port;

the received configuration information is taken as configuration information for the first ONU device.

In the above scheme, the method further comprises:

creating a virtual ONU, and creating at least one virtual ONU port aiming at the virtual ONU;

acquiring the identifier of each ONU device in the first set;

associating the identity of each ONU device with the created corresponding virtual ONU port.

In the above scheme, the method further comprises:

constructing a network topology map based on at least one virtual ONU port contained in the virtual ONU;

presenting the network topology map, and presenting the state information of the ONU equipment corresponding to each ONU virtual port in the network topology map, wherein the state information is used for indicating the network state of the corresponding ONU equipment.

An embodiment of the present application provides an information configuration apparatus, including:

the device comprises a determining module, a processing module and a processing module, wherein the determining module is used for determining that the network state of first ONU equipment is a connected state and an information configuration task aiming at the first ONU equipment exists;

an obtaining module, configured to obtain configuration information for the first ONU device based on a corresponding virtual ONU port under a virtual ONU associated with the first ONU device; the first ONU device belongs to a first set, the first set is associated with the virtual ONU, and the virtual ONU comprises at least one virtual ONU port; each ONU device in the first set is associated with one of the virtual ONU ports;

a sending module, configured to send the configuration information to the first ONU device through an OLT, so that the first ONU device performs configuration based on the configuration information for the first ONU device.

An embodiment of the present application provides an electronic device, including:

a memory for storing executable instructions;

and the processor is used for realizing the information configuration method provided by the embodiment of the application when executing the executable instructions stored in the memory.

The embodiment of the application provides a computer-readable storage medium, which stores executable instructions and is used for realizing the information configuration method provided by the embodiment of the application when being executed by a processor.

In the embodiment of the application, when the network state of the first ONU equipment is determined to be the connected state and an information configuration task aiming at the first ONU equipment exists, the configuration information aiming at the first ONU equipment is obtained and sent to the first ONU equipment for configuration based on a corresponding virtual ONU port under a virtual ONU associated with the first ONU equipment; the first ONU equipment belongs to a first set, the first set is associated with the virtual ONU, the virtual ONU comprises at least one virtual ONU port, each ONU equipment in the first set is associated with one virtual ONU port in the virtual ONU, and the ONU equipment in the FTTR network is divided according to the set so as to subdivide the huge number of ONU equipment in the FTTR network, thereby facilitating information configuration and management in a targeted manner, further providing convenience for local ONU equipment to perform information configuration, and enabling information configuration to be performed quickly and conveniently.

Drawings

Fig. 1 is an alternative architecture diagram of an information configuration system 100 provided by an embodiment of the present application;

fig. 2 is an alternative structural schematic diagram of an electronic device 200 provided in the embodiment of the present application;

fig. 3 is an alternative flow chart of an information configuration method provided in an embodiment of the present application;

fig. 4 is an alternative flow chart of an information configuration method provided in the embodiment of the present application;

FIG. 5 is an alternative schematic diagram of a network topology provided by an embodiment of the present application;

FIG. 6 is an alternative schematic diagram of a network topology provided by an embodiment of the present application;

FIG. 7 is an alternative schematic diagram of a network topology provided by an embodiment of the present application;

fig. 8 is an alternative flow chart of an information configuration method provided in the embodiment of the present application;

fig. 9 is an alternative flow chart of an information configuration method provided in the embodiment of the present application;

FIG. 10 is a schematic view of an alternative refinement of the first mode provided by the embodiments of the present application;

FIG. 11 is an alternative schematic diagram of an information configuration interface provided by embodiments of the present application;

FIG. 12 is a schematic view of an alternative refinement of the first mode provided by the embodiment of the present application;

FIG. 13 is an alternative schematic diagram of an information configuration interface provided by embodiments of the present application;

fig. 14 is an alternative schematic diagram of an information configuration interface provided in an embodiment of the present application.

Detailed Description

In order to make the objectives, technical solutions and advantages of the present application clearer, the present application will be described in further detail with reference to the attached drawings, the described embodiments should not be considered as limiting the present application, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present application.

In the following description, reference is made to "some embodiments" which describe a subset of all possible embodiments, but it is understood that "some embodiments" may be the same subset or different subsets of all possible embodiments, and may be combined with each other without conflict.

In the following description, references to the terms "first \ second \ third" are only to distinguish similar objects and do not denote a particular order, but rather the terms "first \ second \ third" are used to interchange specific orders or sequences, where appropriate, so as to enable the embodiments of the application described herein to be practiced in other than the order shown or described herein.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein is for the purpose of describing embodiments of the present application only and is not intended to be limiting of the application.

First, an information configuration system provided in an embodiment of the present application is described, referring to fig. 1, where fig. 1 is an optional architecture schematic diagram of an information configuration system 100 provided in an embodiment of the present application, a network management server 101 is in communication connection with an OLT102, the OLT102 is in communication connection with an optical splitter 103 through an optical fiber, and the optical splitter 103 is in communication connection with at least one ONU device 104 through an optical fiber. At least one ONU device 104 includes the first ONU device provided in the embodiment of the present application. The at least one ONU device 104 is further divided into at least one set, such as n sets shown in fig. 1, where n is a positive integer greater than or equal to 1, and each set includes at least one ONU device. Illustratively, the first set in FIG. 1 contains m ONU devices, namely ONU1-1, ONU1-2, … …, and ONU 1-m. The nth set contains j ONU devices, namely ONUn-1, ONUn-2, … …, ONUn-j. Wherein m and j are both positive integers greater than or equal to 1. In an embodiment of the present application, a first ONU device belongs to a first set. The network management server 101 and the OLT102 may be electrically connected to implement communication connection, and may also implement communication connection through a local area network. The network management server 101 and the OLT102 may be directly connected through wired communication. The OLT102 is connected to an optical splitter 103 via an optical cable, and the optical splitter 103 is connected to at least one ONU device 104 via an optical cable. In the embodiment of the present application, the network management server 101 is deployed in a local area network, and communicates with the OLT102 through the local area network to manage at least one ONU device 104 connected to the OLT102, thereby avoiding an attack of an external network on the network management server 101.

The network management server 101 is configured to determine that a network state of a first ONU device is a connected state and an information configuration task for the first ONU device exists; obtaining configuration information for the first ONU device based on a corresponding virtual ONU port under a virtual ONU associated with the first ONU device; the first ONU device belongs to a first set, the first set is associated with the virtual ONU, and the virtual ONU comprises at least one virtual ONU port; each ONU device in the first set is associated with one of the virtual ONU ports; sending, by the OLT, the configuration information to the first ONU device, so that the first ONU device performs configuration based on the configuration information for the first ONU device.

The OLT102 is configured to send configuration information to at least one ONU device 104 connected to the OLT102 through the optical splitter 103.

The optical splitter 103 is configured to receive the configuration information sent by the OLT102, and transmit the received configuration information to at least one ONU device 104 connected to the optical splitter 103.

And the ONU device 104 is configured to receive the configuration information, determine the identifier of the ONU device carried in the configuration information, and perform configuration based on the received configuration information when the identifier of the ONU device carried in the configuration information is consistent with the identifier of the local (ONU device 104).

Next, an electronic device for implementing the information configuration method provided in the embodiment of the present application is described, referring to fig. 2, fig. 2 is an optional structural schematic diagram of the electronic device 200 provided in the embodiment of the present application, and in practical application, the electronic device 200 may be implemented as the network management server 101 in fig. 1. The electronic device 200 shown in fig. 2 includes: at least one processor 201, memory 205, at least one network interface 202, and a user interface 203. The various components in the electronic device 200 are coupled together by a bus system 204. It will be appreciated that the bus system 204 is used to enable communications among the components. The bus system 204 includes a power bus, a control bus, and a status signal bus in addition to a data bus. For clarity of illustration, however, the various buses are labeled as bus system 204 in fig. 2.

The Processor 201 may be an integrated circuit chip having Signal processing capabilities, such as a general purpose Processor, a Digital Signal Processor (DSP), or other programmable logic device, discrete gate or transistor logic device, discrete hardware components, or the like, wherein the general purpose Processor may be a microprocessor or any conventional Processor, or the like.

The user interface 203 includes one or more output devices 2031 capable of presenting media content, including one or more speakers and/or one or more visual display screens. The user interface 203 also includes one or more input devices 2032 including user interface components that facilitate user input, such as a keyboard, mouse, microphone, touch screen display, camera, other input buttons and controls.

The memory 205 may be removable, non-removable, or a combination thereof. Exemplary hardware devices include solid state memory, hard disk drives, optical disk drives, and the like. Memory 205 may optionally include one or more storage devices physically located remote from processor 201.

The memory 205 includes either volatile memory or nonvolatile memory, and may also include both volatile and nonvolatile memory. The nonvolatile Memory may be a Read Only Memory (ROM), and the volatile Memory may be a Random Access Memory (RAM). The memory 205 described in embodiments herein is intended to comprise any suitable type of memory.

In some embodiments, the memory 205 is capable of storing data, examples of which include programs, modules, and data structures, or a subset or superset thereof, in support of various operations, in embodiments of the present application, the memory 205 has stored therein an operating system 2051, a network communication module 2052, a presentation module 2053, an input processing module 2054, and an information configuration device 2055; specifically, operating system 2051, which includes system programs for handling various basic system services and performing hardware-related tasks, such as a framework layer, a core library layer, a driver layer, etc., is configured to implement various basic services and to handle hardware-based tasks;

a network communication module 2052 for communicating to other computing devices via one or more (wired or wireless) network interfaces 202, exemplary network interfaces 202 including: bluetooth, wireless compatibility authentication (WiFi), and Universal Serial Bus (USB), etc.;

a presentation module 2053 for enabling presentation of information (e.g., user interfaces for operating peripherals and displaying content and information) via one or more output devices 2031 (e.g., display screens, speakers, etc.) associated with the user interface 203;

an input processing module 2054 for detecting one or more user inputs or interactions from one of the one or more input devices 2032 and for translating the detected inputs or interactions.

In some embodiments, the information configuring apparatus provided in this embodiment of the present application may be implemented in software, and fig. 2 illustrates an information configuring apparatus 2055 stored in the memory 205, which may be software in the form of programs, plug-ins, and the like, and includes the following software modules: a determination module 20551, an obtaining module 20552, and a sending module 20553, which are logical and thus may be arbitrarily combined or further split depending on the functionality implemented. The functions of the respective modules will be explained below.

In other embodiments, the information configuring apparatus provided in this embodiment may be implemented in hardware, and for example, the information configuring apparatus provided in this embodiment may be a processor in the form of a hardware decoding processor, which is programmed to execute the information configuring method provided in this embodiment, for example, the processor in the form of the hardware decoding processor may be implemented by one or more Application Specific Integrated Circuits (ASICs), DSPs, Programmable Logic Devices (PLDs), Complex Programmable Logic Devices (CPLDs), Field Programmable Gate Arrays (FPGAs), or other electronic components.

The information configuration method provided by the embodiment of the present application will be described in conjunction with exemplary applications and implementations of the electronic device provided by the embodiment of the present application.

Referring to fig. 3, fig. 3 is an optional flowchart schematic diagram of an information configuration method provided in an embodiment of the present application, and as shown in fig. 3, the information configuration method includes the following steps:

step 301, determining that a network state of a first ONU device is a connected state and an information configuration task for the first ONU device exists;

step 302, obtaining configuration information for the first ONU device based on a corresponding virtual ONU port under a virtual ONU associated with the first ONU device; the first ONU device belongs to a first set, the first set is associated with the virtual ONU, and the virtual ONU comprises at least one virtual ONU port; each ONU device in the first set is associated with one of the virtual ONU ports;

step 303, sending the configuration information to the first ONU device through an OLT, so that the first ONU device performs configuration based on the configuration information for the first ONU device.

It should be noted that, the electronic device first creates a virtual ONU for the first ONU device locally, and sets a virtual ONU port for the first ONU device in the virtual ONU, so as to associate the virtual ONU with the first ONU device. Specifically, referring to fig. 4, fig. 4 is an optional flowchart of the information configuration method provided in the embodiment of the present application, and before step 301, the following steps may be further performed:

step 401, creating a virtual ONU, and creating at least one virtual ONU port for the virtual ONU;

step 402, acquiring an identifier of each ONU device in the first set;

step 403, associating the identity of each ONU device with the created corresponding virtual ONU port.

In actual implementation, the electronic device creates the virtual ONU in response to a creation request for the virtual ONU, and authorizes the created virtual ONU. Here, the creation request may be generated by the electronic device in response to a creation operation of a creation function item for the virtual ONU. Specifically, the electronic device presents a creation function item of the virtual ONU in a display interface, through which an administrator can trigger a creation operation, and generates a creation request for the virtual ONU in response to the creation operation for the creation function item. In some embodiments, the creation request may also be generated based on a creation condition, which may be, for example, when the electronic device determines that the first ONU device accesses the OLT and that there is no virtual ONU to be associated for the first ONU device within the electronic device. In the embodiment of the application, one set of ONU devices is associated with one virtual ONU. In an actual scene, all the ONU devices in a user home can be taken as a set, so that home centralized management of the ONU devices is facilitated. Exemplarily, when receiving an identifier of a first ONU device sent by an OLT, an electronic device determines that the first ONU device accesses the OLT, where the identifier of the first ONU device includes a set identifier of a first set to which the first ONU device belongs, and the electronic device searches for a virtual ONU corresponding to the first set based on a mapping relationship between the set identifier and the virtual ONU, and generates a creation request for the virtual ONU corresponding to the first set when the virtual ONU corresponding to the first set is not found. In addition, when the electronic device determines that the first ONU device is accessed to the OLT and that a virtual ONU to be associated for the first ONU device exists in the electronic device, the electronic device further determines whether a virtual ONU port to be associated for the first ONU device exists in the virtual ONU to be associated. Specifically, the electronic device searches for a virtual ONU port to be associated corresponding to the first ONU device based on a mapping relationship between the identifier of the ONU device and the virtual ONU port, and determines that the virtual ONU port to be associated does not exist in the virtual ONU to be associated for the first ONU device when the virtual ONU port to be associated is not found. And then, the electronic device generates a port creation request for the virtual ONU port of the first ONU device, and creates a first virtual ONU port for the first ONU device in the virtual ONU to be associated corresponding to the first ONU device. It should be understood that, when the electronic device determines that a virtual ONU port to be associated for the first ONU device exists in the virtual ONU to be associated corresponding to the first ONU device, the first ONU device is associated with the virtual ONU port to be associated.

In actual implementation, after the electronic device creates the virtual ONU, the electronic device further authorizes the created virtual ONU. The authorization method may be that the electronic device sets the created virtual ONU to an authorized state to allow data traffic from the virtual ONU to pass through, for example, when the electronic device receives a request from the virtual ONU, the electronic device responds to the request. In some embodiments, the authorization manner may also be that the electronic device adds an authorization number to the created virtual ONU, and adds the authorization number and the identifier of the virtual ONU to the set of authorization numbers. Here, the set of authorization numbers may be stored in the form of a number table. When the electronic equipment receives a request from the virtual ONU, searching an authorization number set based on the identification of the virtual ONU, and responding to the request from the virtual ONU when an authorization number corresponding to the identification of the virtual ONU exists in the authorization number set.

In actual implementation, after the electronic device creates the virtual ONU, the electronic device creates a virtual ONU port in the virtual ONU in response to a port creation request for the virtual ONU port of the virtual ONU. In actual implementation, the port creation request carries the identifier of the ONU device, and the electronic device parses the port creation request, obtains the identifier of the ONU device carried in the port creation request, and associates the identifier of the ONU device with the created virtual ONU port. Here, the identification of the ONU device may include, but is not limited to, a Media Access Control (MAC) address and/or a Serial Number (SN) of the ONU device. Illustratively, the electronic device creates one virtual ONU port in response to a port creation operation for the virtual ONU port of the virtual ONU when associating the first ONU device with the created virtual ONU. Specifically, the electronic device presents a port creation function item for a virtual ONU port of the virtual ONU in the display interface, and the administrator can trigger a port creation operation through the port creation function item. After the electronic device creates the virtual ONU port, the electronic device presents a device binding function item aiming at the created virtual ONU port, and an administrator can trigger device binding operation through the device binding function item. The electronic equipment responds to the equipment binding operation aiming at the created virtual ONU port, presents an identification input function item aiming at the ONU equipment of the created virtual ONU port, responds to the input operation aiming at the identification input function item, obtains the input identification of the first ONU equipment, and associates the identification of the first ONU equipment with the created virtual ONU port. In this embodiment of the present application, a virtual ONU port associated with a first ONU device is denoted as a first virtual ONU port.

In order to facilitate the administrator to manage the ONU device connected to the OLT, the electronic device further generates and presents a network topology so that the administrator can browse the state of the ONU device and perform information configuration on the ONU device. Specifically, after step 403, it may further perform:

presenting the network topology map, and presenting the state information of the ONU equipment corresponding to each virtual ONU port in the network topology map, wherein the state information is used for indicating the network state of the corresponding ONU equipment.

In actual implementation, the electronic device creates a network topology map, acquires the identifiers of all virtual ONU ports included in the virtual ONU, determines ONU devices associated with the virtual ONU ports based on the identifiers of the virtual ONU ports, acquires the network states of the ONU devices associated with the virtual ONU ports, and presents the network states in the network topology map, so that an administrator can directly browse to obtain the states of the ONU devices, thereby facilitating network management of the ONU devices.

Illustratively, referring to fig. 5, fig. 5 is an alternative schematic diagram of a network topology provided by an embodiment of the present application. Here, the electronic device creates a network topology map based on OLT501, optical splitter 502, and virtual ONU ports. The set of ONU devices connected to the optical splitter 502 includes a first set 503, a second set 504, and a third set 505. Here, the ONU devices included in the set are represented in the form of virtual ONU ports. For example, the first set 503 includes: a first ONU device corresponding to the first virtual ONU port 5031, a second ONU device corresponding to the second virtual ONU port 5032, a third ONU device corresponding to the third virtual ONU port 5033, and a fourth ONU device corresponding to the fourth virtual ONU port 5034. The status information of the ONU apparatus shown in fig. 5 is represented by two symbols "√" indicating that the network status of the ONU apparatus is the connected status and "xx" indicating that the network status of the ONU apparatus is the unconnected status. For example, according to the status information 50311 of the first ONU device corresponding to the first virtual ONU port 5031, the network status of the first ONU device can be determined to be a connected status, and according to the status information 50321 of the second ONU device corresponding to the second virtual ONU port 5032, the network status of the second ONU device can be determined to be an unconnected status. In some embodiments, the status information of the ONU devices may also be characterized by other presentation forms, for example, different network statuses of the ONU devices may be represented by different colors, such as representing the network status of the corresponding ONU device as a connected status by displaying the color of the virtual ONU port as green, representing the network status of the corresponding ONU device as an unconnected status by displaying the color of the virtual ONU port as red, and so on.

In actual implementation, the electronic device further presents, for the association relationship between the set of ONU devices and the corresponding virtual ONU, information for identifying the association relationship between the set of ONU devices and the virtual ONU in a network topology map, so as to facilitate management by an administrator. For example, the information for identifying the association relationship between the set of ONU devices and the virtual ONU may be a serial number commonly associated with the set and the virtual ONU. For example, the electronic device may present sequence numbers for the first set 503, such as sequence number 1, and present a sequence number for the first virtual ONU within the information configuration interface, where the sequence number for the first virtual ONU is the same as the sequence number for the first set 503 and both are sequence numbers 1, so that it may be determined that the first set is associated with the first virtual ONU based on the sequence numbers, so as to configure the ONU devices in the first set 503 by performing information configuration on the first virtual ONU within the information configuration interface.

In some embodiments, the electronic device may further create a network topology map based on the network management system, the OLT, the virtual ONU, and the at least one virtual ONU port. Here, the network management system is a software system implemented in the electronic device, and is used to implement the information configuration method provided in the embodiment of the present application. Specifically, referring to fig. 6, fig. 6 is an alternative schematic diagram of a network topology provided in the embodiment of the present application. Fig. 6 shows that the virtual ONU601 is a virtual ONU associated with the first set, and in this embodiment, a set of virtual ONU ports corresponding to all ONU devices in the first set is used as the first port set. The first port set 602 shown in FIG. 6 includes at least one virtual ONU port (e.g., ONUs 1-ONUm shown in FIG. 6). Here, the electronic device may present, by presenting the color of the virtual ONU port, the state information of the ONU device corresponding to the virtual ONU port, and represent, by the color of the different virtual ONU port, different network states, for example, a first color represents that the network state is a connected state, and a second color represents that the network state is an unconnected state. Illustratively, the color of the first virtual ONU port 6021 shown in fig. 6 is represented as a first color, which indicates that the network state of the first ONU device corresponding to the first virtual ONU port is a connected state, and the color of the second virtual ONU port 6022 is represented as a second color, which indicates that the network state of the second ONU device corresponding to the second virtual ONU port is an unconnected state.

It should be noted that the electronic device may generate a network topology map for a set of ONU devices, for example, a network topology map as shown in fig. 6 for each set of ONU devices. By generating a network topology map for each set of ONU equipment, an administrator can conveniently and rapidly browse the network topology maps corresponding to the sets of different ONU equipment in order to manage the ONU equipment.

In some embodiments, the electronic device may also generate a network topology map for the set of all ONU devices. Illustratively, referring to fig. 7, fig. 7 is an alternative schematic diagram of a network topology provided by an embodiment of the present application. Fig. 7 shows a network topology diagram including virtual ONUs 701 corresponding to at least one set of ONU devices, where each virtual ONU701 corresponds to one virtual ONU port set 702. By generating a network topological graph for the set of all the ONU equipment, an administrator can browse the state of each ONU equipment in the set of the ONU equipment at one time, so that the administrator can conveniently perform global management on the ONU equipment.

In the embodiment of the application, the ONU equipment is divided into different sets, the network topology is constructed and displayed based on the virtual ONU ports of the different sets, the set classification of the ONU equipment can be carried out, and the condition that corresponding specific ONU equipment needs to be searched from the huge number of ONU equipment every time the information configuration of the ONU equipment needs to be carried out is avoided, so that the management of an administrator and the information configuration of the ONU equipment are facilitated. In addition, the method and the device for displaying the virtual ONU ports in the network topology map display the states of the corresponding ONU devices (such as the existence state of the ONU devices and the network state of the ONU devices) through the simple virtual ONU ports, replace the ONU devices with various numbers and kinds directly displayed in the network topology map, and display the virtual ONU ports belonging to the same ONU device set in a set form, so that the display confusion when a display interface displays the ONU devices with huge numbers in the network topology map is avoided, the management of an administrator is facilitated, the network management efficiency is improved, and the processing pressure of electronic devices is reduced. In addition, in the embodiment of the application, a relay router is not needed, at least one ONU device is connected with the OLT only through the optical splitter, and the ONU device is associated with the corresponding virtual ONU port of the virtual ONU, so that the information configuration can be directly carried out on the virtual ONU port, and further the information configuration can be carried out on the corresponding ONU device, the relay function of the router is replaced, the hardware device of the router is omitted, and the network configuration cost is saved.

In step 301, an information configuration task for the first ONU device is generated under a certain scene condition. In some embodiments, the electronic device generates an information configuration task for the first ONU device when the first ONU device is unregistered. Specifically, referring to fig. 8, fig. 8 is an optional flowchart of the information configuration method provided in the embodiment of the present application, and before step 301, the following may be further performed:

step 801, receiving a registration request of the first ONU device sent by the OLT;

step 802, generating an information configuration task for the first ONU device based on the registration request.

In the embodiment of the application, when the first ONU device is on-line for the first time, that is, when the first ONU device is accessed to the OLT for the first time, the first ONU device sends the registration request to the OLT, and the OLT sends the received registration request to the electronic device. The electronic equipment receives a registration request of the first ONU equipment sent by the OLT. Here, the OLT transmits the registration request to the electronic device in the form of a trap (trap) message. In actual implementation, the electronic device generates an information configuration task for the first ONU device after receiving a registration request of the first ONU device sent by the OLT.

In some embodiments, the registration request sent by the first ONU device carries an identifier of the first ONU device, where the identifier of the ONU device is used to indicate the ONU device corresponding to the registration request received by the electronic device, and is used to determine the virtual ONU port associated with the ONU device. Specifically, the electronic device may further perform:

In actual implementation, the electronic device may analyze the registration request after receiving the registration request sent by the OLT, obtain an identifier of the first ONU device carried in the registration request, and generate an information configuration task for the first ONU device based on the identifier of the first ONU device. When the electronic device performs information configuration on the first ONU based on the information configuration task for the first ONU device, the electronic device determines a virtual ONU port associated with the identifier of the first ONU device based on the mapping relation between the identifier of the first ONU device, the virtual ONU and the virtual port, so as to obtain configuration information for the first ONU device based on the virtual ONU port associated with the first ONU device.

The following continues to describe a scenario in which the electronic device generates an information configuration task. In some embodiments, the electronic device may further generate an information configuration task for the first ONU device upon a change to the configuration information for the first ONU device. Specifically, referring to fig. 9, fig. 9 is an optional flowchart of the information configuration method provided in the embodiment of the present application, and before step 301, the following may be further performed:

step 901, receiving a change operation for configuration information of the first ONU device;

step 902, generating an information configuration task for the first ONU device based on the change operation.

In actual implementation, the electronic device receives a change operation of the configuration information for the first ONU device, and generates an information configuration task for the first ONU device in response to the received change operation. Specifically, the electronic device presents an information configuration interface, presents an information configuration function item for the first ONU device in the information configuration interface, and receives a change operation sent for the information configuration function item.

It should be noted that, at the same time, there may be information configuration tasks of a plurality of ONU devices in the electronic device. In the embodiment of the application, after the information configuration task of the ONU equipment is generated, the electronic equipment adds the generated information configuration task to the task queue. Here, the electronic device may take the information configuration task from the task queue for execution in a first-in first-out manner. In some embodiments, the electronic device may further create a new thread after generating the information configuration task of the ONU device, where the created new thread is used to execute the newly generated information configuration task, and the thread generated by the electronic device and used to execute the information configuration task is a parallel thread, that is, the electronic device may execute a plurality of information configuration tasks in a parallel manner, so as to improve the execution efficiency of the information configuration task.

Then, after determining that the network state of the first ONU device is the connected state and that there is an information configuration task for the first ONU device, the electronic device obtains configuration information for the first ONU device based on a corresponding virtual ONU port under a virtual ONU associated with the first ONU device when the electronic device starts to execute the information configuration task for the first ONU device. In some embodiments, in step 302, the obtaining of the configuration information for the first ONU device may be implemented by:

a first mode of obtaining configuration information for the first ONU device by receiving an information configuration operation;

in a second mode, the stored configuration information for the first ONU device is acquired.

In actual implementation, when the electronic device performs information configuration on the first ONU device, the electronic device may receive an information configuration operation in real time, obtain configuration information for the first ONU device, and obtain configuration information for the first ONU device, which is saved in advance, from a local area. Here, the configuration information for the first ONU device that is held in advance may also be obtained by the electronic device after receiving the information configuration operation.

For the first mode, when an administrator needs to perform new configuration or update configuration, the electronic device may present an information configuration function item in the information configuration interface, and the administrator performs an information configuration operation on the information configuration function item, where the electronic device obtains configuration information for the first ONU device by receiving the information configuration operation.

For the second approach, the following scenarios may apply:

one scenario is: when an administrator needs to configure the ONU equipment and the electronic equipment stores the configuration information of the ONU equipment, the electronic equipment can present an information issuing function item in a display interface, the administrator operates the information issuing function item to generate an issuing instruction, and at the moment, the electronic equipment acquires the stored configuration information of the ONU equipment after receiving the issuing instruction.

Another scenario is: the electronic device stores the configuration information of the newly online ONU device, and after an ONU device is newly online, the first electronic device receives the registration request of the newly online ONU device, and at the moment, the electronic device acquires the stored configuration information of the ONU device.

Next, a procedure of the electronic device receiving information configuration operation will be described. In some embodiments, referring to fig. 10, fig. 10 is an optional detailed flowchart of the first manner provided in the embodiments of the present application, and step one may also be implemented by the following manner:

step 1001, presenting an information configuration function item aiming at the virtual ONU in an information configuration interface;

step 1002, in response to an information configuration operation for the information configuration function item, receiving configuration information configured by the information configuration operation; the received configuration information can be the configuration information of each ONU device in the first set;

step 1003, using the received configuration information as the configuration information of the first ONU device; and determining the first ONU equipment based on the identifier of the ONU equipment, the mapping relation between the virtual ONU and the virtual port.

In the embodiment of the application, the electronic device presents the information configuration function item of the virtual ONU corresponding to the first ONU device in the information configuration interface. It should be noted that the first ONU device belongs to a first set, and the first set is associated with the virtual ONU, where the virtual ONU includes at least one virtual ONU port; each ONU device in the first set is associated with one of the virtual ONU ports. In practical implementation, there are a plurality of sets of ONU devices connected to the OLT, and for example, the set of ONU devices connected to the OLT includes a first set, … …, and an nth set. In an actual scene, all the ONU devices in a user home can be used as a set, so that home management of the ONU devices is facilitated.

In practical implementation, the configuration information may include, but is not limited to, local area network account information, uplink bandwidth, downlink bandwidth, Internet Group Management Protocol (IGMP) multicast information, and the like. The local area network account information includes a Service Set IDentifier (SSID) and a password. In the embodiment of the application, the electronic device receives the configuration information configured by the information configuration operation by receiving the information configuration operation for the virtual ONU corresponding to the first ONU device, and uses the configuration information configured for the virtual ONU as the configuration information of all the ONU devices under the virtual ONU device. Here, all ONU devices connected to the virtual ONU corresponding to the first ONU device form the first set, that is, in this embodiment of the application, the electronic device uses the configuration information configured for the virtual ONU as the configuration information of all ONU devices in the first set.

Exemplarily, referring to fig. 11, fig. 11 is an optional schematic diagram of an information configuration interface provided in an embodiment of the present application. Here, the electronic device presents a selection function item 111 for the virtual ONU within the information configuration interface 110. Wherein the selection function item 111 includes a sub-selection function item for at least one virtual ONU, such as the sub-configuration function item 1111 for the first virtual ONU shown in fig. 11. Here, the first virtual ONU is a virtual ONU to which the first ONU device is connected. In actual implementation, the electronic device presents the information configuration function item 112 for the first virtual ONU in response to the triggering operation of the sub-selection function item 1111 for the first virtual ONU. The electronic device may then perform information configuration on the first virtual ONU in response to the configuration operation for the information configuration function item 112. In fig. 11 of the embodiment of the present application, the information configuration function items include a network configuration function item 1121, a downlink bandwidth configuration function item 1122, and an uplink bandwidth configuration function item 1123. When the electronic device receives a trigger operation for the downlink bandwidth configuration function 1122, a selection list 11221 for the downlink bandwidth is presented, and a plurality of bandwidth selection function items are presented in the selection list 11221, where each bandwidth selection function item corresponds to one downlink bandwidth, as shown in fig. 11, bandwidth selection function items of 5 downlink bandwidths are respectively 10Mbps, 20Mbps, 50Mbps, 100Mbps, 200Mbps, and the like. And the electronic equipment responds to the selection operation aiming at the bandwidth selection function item, and takes the downlink bandwidth corresponding to the selected bandwidth selection function item as the downlink bandwidth of the first virtual ONU, so that the configuration of the downlink bandwidth in the configuration information is completed. The electronic equipment completes the configuration of other configuration information based on the configuration mode aiming at the downlink bandwidth.

Next, the electronic device takes the configuration information for the first virtual ONU as the configuration information of all ONU devices connected to the first virtual ONU. In actual implementation, at least one virtual ONU port is provided in the virtual ONU, and the electronic device may determine the first ONU device based on the identifier of the ONU device, the mapping relationship between the virtual ONU and the virtual port, and use the configuration information for the first virtual ONU device as the configuration information of the first ONU device, thereby completing information configuration for the first ONU device.

It should be noted that the information configuration interface for the virtual ONU shown in fig. 11 is only an optional example, and in some embodiments, the information configuration for the virtual ONU may also be implemented in other manners, for example, the information configuration function item for the virtual ONU may be presented in the form of an input box, an administrator may input configuration information through an input device connected to the electronic device, and the electronic device takes the input configuration information as configuration information for the virtual ONU in response to an input operation for the input box.

The above is a scheme of performing information configuration on a virtual ONU, and performing information configuration on an ONU device connected to the virtual ONU by using configuration information for the virtual ONU as configuration information of an ONU device connected to the virtual ONU. In some embodiments, separate information configuration may also be performed for the ONU devices. Specifically, referring to fig. 12, fig. 12 is an optional detailed flowchart diagram of a first manner provided in the embodiment of the present application, and step one may also be implemented by the following manner:

step 1201, presenting a first virtual ONU port in an information configuration interface;

step 1202, in response to an information configuration operation for the first virtual ONU port, receiving configuration information configured by the information configuration operation;

step 1203, determining the first ONU device based on the identifier of the ONU device, the mapping relationship between the virtual ONU and the virtual port;

step 1204, using the received configuration information as configuration information for the first ONU device.

Exemplarily, referring to fig. 13, fig. 13 is an optional schematic diagram of an information configuration interface provided in an embodiment of the present application. The electronic device presents selection function items for the at least one virtual ONU, including a sub-selection function item 131 of the first virtual ONU, within the information configuration interface 130. Here, the first virtual ONU is a virtual ONU to which the first ONU device is connected. In actual implementation, the electronic device presents port selection function items for the first virtual ONU in response to a triggering operation of the sub-selection function item 131 for the first virtual ONU, where the port selection function items include a first port selection function item 1311 for the first virtual ONU port and a second port selection function item 1312 for the second virtual ONU port. The electronic device presents an information configuration function item 13110 for the first virtual ONU port in response to the selection operation for the first port selection function item 1311. The electronic device may then perform information configuration on the first virtual ONU port in response to the configuration operation for the information configuration function item 13110. In actual implementation, after configuring the first virtual ONU port, the electronic device determines the first ONU device based on the identifier of the ONU device, the mapping relationship between the virtual ONU and the virtual port, and uses the received configuration information for the first virtual ONU port as the configuration information for the first ONU device.

In some embodiments, the electronic device may also present the configuration function item for the virtual ONU and the information configuration function item for the first virtual ONU port simultaneously within the information configuration interface. When the electronic equipment receives the information configuration operation of the information configuration function item aiming at the virtual ONU, the configuration information aiming at the virtual ONU is obtained and is taken as the configuration information of the first ONU equipment. When the electronic equipment receives the information configuration operation of the information configuration function item aiming at the first virtual ONU port, the configuration information aiming at the first virtual ONU port is obtained, and the configuration information aiming at the first virtual ONU port is used as the configuration information of the first ONU equipment.

Exemplarily, referring to fig. 14, fig. 14 is an optional schematic diagram of an information configuration interface provided in an embodiment of the present application. The electronic device presents an information configuration function item 141 for the first virtual ONU and an information configuration function item 142 for the first virtual ONU port in the information configuration interface 140. The information configuration function item 141 is configured to perform information configuration on the first virtual ONU, and use the configured configuration information as configuration information of all ONU devices associated with the first virtual ONU, while the information configuration function item 142 is only configured to perform information configuration on the first virtual ONU port associated with the first virtual ONU, and the configured configuration information is only used as configuration information of the first ONU device associated with the first virtual ONU port. The administrator can select to perform information configuration on the first virtual ONU as needed, so as to perform one-key information configuration on all ONU devices associated with the first virtual ONU, and can also select to perform configuration on a specific one of the virtual ONU ports, so as to perform information configuration on a specific one of the ONU devices. In an actual scene, the electronic device may bind ONU devices with similar configuration information into a same set, so that information configuration of all ONU devices in a set is completed conveniently after information configuration is performed on a corresponding virtual ONU, for example, for a home ONU device, all ONU devices in the home may be used as a set to conveniently perform one-key information configuration on all ONU devices in the home.

In actual implementation, after the electronic device obtains the configuration information for the first ONU device, the electronic device sends the configuration information to the OLT, and sends the configuration information to all the ONU devices connected to the OLT through the OLT. Here, when the electronic device sends the configuration information for the first ONU device, the electronic device further packages the identifier of the first ONU device and the configuration information, and sends the identifier of the first ONU device and the configuration information together to all the ONU devices through the OLT. And the first ONU equipment determines that the configuration information is sent to the local according to the received identifier of the first ONU equipment, and performs information configuration based on the received configuration information. And after the non-first ONU device receives the configuration information, if it is determined that the received identifier of the first ONU device is not consistent with the local identifier, discarding the configuration information, for example, deleting the configuration information.

Continuing with the exemplary structure of the information configuring apparatus 2031 provided in this embodiment of the present application as software modules, in some embodiments, as shown in fig. 2, the software modules stored in the information configuring apparatus 2031 of the memory 205 may include:

a determining module 20551, configured to determine that a network status of a first ONU device is a connected status, and that an information configuration task for the first ONU device exists;

an obtaining module 20552, configured to obtain configuration information for the first ONU device based on a corresponding virtual ONU port under a virtual ONU associated with the first ONU device; the first ONU device belongs to a first set, the first set is associated with the virtual ONU, and the virtual ONU comprises at least one virtual ONU port; each ONU device in the first set is associated with one of the virtual ONU ports;

a sending module 20553, configured to send, by the OLT, the configuration information to the first ONU device, so that the first ONU device performs configuration based on the configuration information for the first ONU device.

In some embodiments, the information configuring apparatus further includes: a task generating module, configured to receive a registration request of the first ONU device sent by the OLT; generating an information configuration task for the first ONU device based on the registration request.

In some embodiments, the information configuring apparatus further includes: the analysis module is used for analyzing the registration request of the first ONU equipment to obtain the identifier of the first ONU equipment; and determining a virtual ONU port associated with the identifier of the first ONU equipment based on the identifier of the ONU equipment, the virtual ONU and the mapping relation of the virtual port.

In some embodiments, the task generation module is further configured to receive a change operation for configuration information of the first ONU device; generating an information configuration task for the first ONU device based on the change operation.

In some embodiments, the obtaining module 20552 is further configured to obtain configuration information for the first ONU device by receiving an information configuration operation; or, obtaining the stored configuration information for the first ONU device.

In some embodiments, the obtaining module 20552 is further configured to present an information configuration function item for the virtual ONU in an information configuration interface; receiving configuration information configured by the information configuration operation in response to the information configuration operation aiming at the information configuration function item; the received configuration information can be configuration information for each ONU device in the first set; taking the received configuration information as configuration information of the first ONU equipment; and determining the first ONU equipment based on the identifier of the ONU equipment, the mapping relation between the virtual ONU and the virtual port.

In some embodiments, the obtaining module 20552 is further configured to present the first virtual ONU port within an information configuration interface; receiving configuration information configured by the information configuration operation in response to the information configuration operation for the first virtual ONU port; determining the first ONU equipment based on the identifier of the ONU equipment, the mapping relation of the virtual ONU and the virtual port; the received configuration information is taken as configuration information for the first ONU device.

In some embodiments, the information configuring apparatus further includes: the virtual ONU creating module is used for creating a virtual ONU and creating at least one virtual ONU port aiming at the virtual ONU; acquiring the identifier of each ONU device in the first set; associating the identity of each ONU device with the created corresponding virtual ONU port.

In some embodiments, the information configuring apparatus further includes: the presentation module is used for constructing a network topology map based on at least one virtual ONU port contained in the virtual ONU; presenting the network topology map, and presenting the state information of the ONU equipment corresponding to each ONU virtual port in the network topology map, wherein the state information is used for indicating the network state of the corresponding ONU equipment.

Embodiments of the present application provide a computer program product or computer program comprising computer instructions stored in a computer readable storage medium. The processor of the computer device reads the computer instructions from the computer-readable storage medium, and the processor executes the computer instructions, so that the computer device executes the information configuration method described in the embodiment of the present application.

The embodiment of the application provides a computer-readable storage medium which stores executable instructions, and the executable instructions are stored in the computer-readable storage medium and when being executed by a processor, the executable instructions can cause the processor to execute the information configuration method provided by the embodiment of the application.

In some embodiments, the computer-readable storage medium may be memory such as FRAM, ROM, PROM, EPROM, EEPROM, flash, magnetic surface memory, optical disk, or CD-ROM; or may be various devices including one or any combination of the above memories.

In some embodiments, executable instructions may be written in any form of programming language (including compiled or interpreted languages), in the form of programs, software modules, scripts or code, and may be deployed in any form, including as a stand-alone program or as a module, component, subroutine, or other unit suitable for use in a computing environment.

By way of example, executable instructions may correspond, but do not necessarily have to correspond, to files in a file system, and may also be stored in files that hold other programs or data, such as in one or more scripts stored in a hypertext Markup Language (HTML) document, in a single file dedicated to the program in question, or in multiple coordinated files (e.g., files that store one or more modules, sub-programs, or portions of code).

By way of example, executable instructions may be deployed to be executed on one computing device or on multiple computing devices at one site or distributed across multiple sites and interconnected by a communication network.

In summary, the information configuration of the ONU device can be quickly and conveniently implemented by the embodiment of the present application.

The above description is only an example of the present application, and is not intended to limit the scope of the present application. Any modification, equivalent replacement, and improvement made within the spirit and scope of the present application are included in the protection scope of the present application.

Claims

1. An information configuration method, comprising:

sending, by the OLT, the configuration information to the first ONU device, so that the first ONU device performs configuration based on the configuration information for the first ONU device.

2. The method of claim 1, further comprising:

receiving a registration request of the first ONU equipment sent by the OLT;

3. The method of claim 2, further comprising:

4. The method of claim 1, further comprising:

5. The method of claim 1, wherein obtaining configuration information for the first ONU device comprises:

alternatively, the first and second electrodes may be,

and acquiring the saved configuration information aiming at the first ONU equipment.

6. The method of claim 5, wherein obtaining configuration information for the first ONU device by receiving an information configuration operation comprises:

using the received configuration information as configuration information of the first ONU equipment; wherein the content of the first and second substances,

and determining the first ONU equipment based on the identification of the ONU equipment, the virtual ONU and the mapping relation of the virtual port.

7. The method of claim 5, wherein obtaining configuration information for the first ONU device by receiving an information configuration operation comprises:

presenting a first virtual ONU port in an information configuration interface;

8. The method according to any one of claims 1 to 7, further comprising:

9. An electronic device, comprising:

a memory for storing executable instructions;

a processor for implementing the information configuration method of any one of claims 1 to 8 when executing the executable instructions stored in the memory.

10. A computer-readable storage medium storing executable instructions for implementing the information configuring method of any one of claims 1 to 8 when executed by a processor.