CN116528087A

CN116528087A - Service configuration method, device and storage medium of passive optical network device

Info

Publication number: CN116528087A
Application number: CN202310479535.0A
Authority: CN
Inventors: 张莹; 蔺菁; 朱晋锋
Original assignee: Shenzhen Huaxun Optical Communication Co ltd
Current assignee: Shenzhen Huaxun Optical Communication Co ltd
Priority date: 2023-04-27
Filing date: 2023-04-27
Publication date: 2023-08-01

Abstract

The invention discloses a service configuration method, equipment and storage medium of passive optical network equipment, wherein the method comprises the following steps: when the first optical network terminal is detected to finish registration, if the first configuration issuing state is issued and the configuration parameters of the first optical network terminal need to be upgraded, the optical line terminal determines a management mode corresponding to the first optical network terminal based on the first configuration issuing state; the optical line terminal determines a first target configuration file corresponding to the first optical network terminal based on a management mode, configuration parameters and a configuration information table; the optical line terminal transmits a first target configuration file to the first optical network terminal, wherein the first optical network terminal performs corresponding parameter configuration operation based on the configuration file. The invention can carry out parameter configuration on the optical network terminal issuing configuration file which is issued and needs to be upgraded, improves the resource utilization rate of the passive optical network equipment, and can update the default configuration in the optical network terminal.

Description

Service configuration method, device and storage medium of passive optical network device

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a service configuration method, a device, and a storage medium for a passive optical network device.

Background

At present, optical fiber home entry is becoming popular, and has become a mainstream mode for constructing access networks by various operators. Thus, the number of optical network termination devices, such as optical network terminals, in an optical access network is growing substantially. In practical applications, system software upgrade is one of the common functions of optical network terminal equipment. The system software of the optical network terminal is upgraded, so that the requirements of different operators or different requirements of the same operator can be met, and the functions of the system software of the optical network terminal equipment can be continuously perfected, so that the system software is suitable for continuous development of the business and application of the operators.

In the related art, after an optical network terminal is registered in an optical line terminal, corresponding parameter configuration needs to be performed for the optical network terminal, for example, configuration of parameters such as VLAN, dial-up account number, WIFI and the like connected to a WAN, so that configuration parameters of the optical network terminal are reconfigured when the optical network terminal is registered each time, which results in resource waste of passive optical network equipment.

The foregoing is provided merely for the purpose of facilitating understanding of the technical solutions of the present invention and is not intended to represent an admission that the foregoing is prior art.

Disclosure of Invention

The invention mainly aims to provide a service configuration method, equipment and storage medium of passive optical network equipment, and aims to solve the technical problem of resource waste of the passive optical network equipment caused by parameter configuration during each registration of an optical network terminal.

In order to achieve the above object, the present invention provides a service configuration method of a passive optical network device, the service configuration method of the passive optical network device includes the following steps:

when the first optical network terminal is detected to finish registration, the optical line terminal determines whether a first configuration issuing state of the first optical network terminal exists in storage information corresponding to the configuration issuing state;

if the first configuration issuing state of the first optical network terminal exists in the stored information, the optical line terminal determines whether the first configuration issuing state is an issued state or not;

if the first configuration issuing state is the issued state, the optical line terminal determines whether the configuration parameters of the first optical network terminal need to be upgraded or not based on a configuration information table;

if the configuration parameters of the first optical network terminal need to be updated, the optical line terminal determines a management mode corresponding to the first optical network terminal based on the first configuration issuing state;

the optical line terminal determines a first target configuration file corresponding to the first optical network terminal based on a management mode, the configuration parameters and the configuration information table;

The optical line terminal issues the first target configuration file to the first optical network terminal, wherein the first optical network terminal performs corresponding parameter configuration operation based on the configuration file.

Further, the step of determining, by the optical line terminal, the first target configuration file corresponding to the first optical network terminal based on the management mode, the configuration parameter and the configuration information table includes:

the optical line terminal determines a configuration file to be screened corresponding to the management mode in the configuration information table;

and the optical line terminal determines a first target configuration file required for upgrading the first optical network terminal in the configuration file to be screened based on the configuration parameters.

Further, the optical line terminal issues the first target configuration file to the first optical network terminal, where the step of performing, by the first optical network terminal, a corresponding parameter configuration operation based on the configuration file includes:

the optical line terminal acquires the identification information of the first optical network terminal;

the optical line terminal encrypts the first target configuration file based on the identification information and the management mode to obtain an encrypted first target configuration file;

The optical line terminal transmits the encrypted first target configuration file to the first optical network terminal, wherein the first optical network terminal decrypts the received encrypted first target configuration file based on the identification information and the management mode to obtain the first target configuration file, and performs corresponding parameter configuration operation based on the first target configuration file.

Further, the step of encrypting the first target configuration file by the optical line terminal based on the identification information and the management mode to obtain the encrypted first target configuration file includes:

the optical line terminal determines a first hash value through a hash algorithm based on the identification information, and determines a second hash value through the hash algorithm based on the management mode;

the optical line terminal determines an encryption key based on the first hash value and the second hash value;

and the optical line terminal encrypts the first target configuration file based on the encryption key to obtain an encrypted first target configuration file.

Further, after the step of determining, by the optical line terminal, whether the first configuration sending state is the sent state, the service configuration method of the passive optical network device further includes:

If the first configuration issuing state is the undelivered state, the optical line terminal determines a second target configuration file corresponding to the first optical network terminal based on a management mode and the configuration information table;

the optical line terminal issues the second target configuration file to the first optical network terminal, wherein the second optical network terminal performs corresponding parameter configuration operation based on the configuration file.

Further, the optical line terminal issues the second target configuration file to the first optical network terminal, where the step of performing, by the second optical network terminal, a corresponding parameter configuration operation based on the configuration file includes:

the optical line terminal encrypts the second target configuration file based on the identification information and the management mode to obtain an encrypted second target configuration file;

and the optical line terminal transmits the encrypted second target configuration file to the first optical network terminal, wherein the first optical network terminal decrypts the received encrypted second target configuration file based on the identification information and the management mode to obtain a second target configuration file, and performs corresponding parameter configuration operation based on the second target configuration file.

Further, the service configuration method of the passive optical network device further includes:

when a logout instruction of a first optical network terminal is detected, the optical line terminal acquires a current second configuration issuing state of the first optical network terminal;

the optical line terminal updates the storage information based on the second configuration issuing state and the first equipment information of the first optical network terminal;

and the optical line terminal executes the logout operation of the first optical network terminal based on the logout instruction.

when the factory setting restoration operation of the first optical network terminal is detected, setting the configuration issuing state of the first optical network terminal as an undelivered state;

and deleting the associated storage information corresponding to the first optical network terminal from the storage information.

In addition, in order to achieve the above object, the present invention also provides a service configuration device of a passive optical network device, where the service configuration device of the passive optical network device includes: the method comprises the steps of a memory, a processor and a service configuration program of the passive optical network device, wherein the service configuration program of the passive optical network device is stored in the memory and can run on the processor, and the service configuration program of the passive optical network device is executed by the processor to realize the service configuration method of the passive optical network device.

In addition, in order to achieve the above object, the present invention further provides a computer readable storage medium, where a service configuration program of a passive optical network device is stored, where the service configuration program of the passive optical network device, when executed by a processor, implements the steps of the foregoing service configuration method of the passive optical network device.

When the first optical network terminal is detected to finish registration, the optical line terminal determines whether a first configuration issuing state of the first optical network terminal exists in storage information corresponding to the configuration issuing state; then if the first configuration issuing state of the first optical network terminal exists in the stored information, the optical line terminal determines whether the first configuration issuing state is an issued state or not; then if the first configuration issuing state is issued, the optical line terminal determines whether the configuration parameters of the first optical network terminal need to be upgraded or not based on a configuration information table; then if the configuration parameters of the first optical network terminal need to be upgraded, the optical line terminal determines a management mode corresponding to the first optical network terminal based on the first configuration issuing state; secondly, the optical line terminal determines a first target configuration file corresponding to the first optical network terminal based on a management mode, the configuration parameters and the configuration information table; and finally, the optical line terminal issues the first target configuration file to the first optical network terminal, wherein the first optical network terminal performs corresponding parameter configuration operation based on the configuration file, so that the optical network terminal issuing configuration file which is in an issued state and needs to be upgraded can be subjected to parameter configuration, the problem of resource waste of the passive optical network device caused by the configuration parameters which are renewed when the optical network terminal is registered can be effectively avoided, the resource utilization rate of the passive optical network device is improved, and the default configuration in the optical network terminal can be updated.

Drawings

Fig. 1 is a schematic structural diagram of a service configuration device of a passive optical network device in a hardware operation environment according to an embodiment of the present invention;

fig. 2 is a flow chart of a first embodiment of a service configuration method of a passive optical network device according to the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1, fig. 1 is a schematic structural diagram of a service configuration apparatus of a passive optical network device in a hardware operation environment according to an embodiment of the present invention.

The service configuration device of the passive optical network device in the embodiment of the invention can be a mobile terminal device with a display function, such as a smart phone, a tablet personal computer, an electronic book reader, an MP3 (Moving Picture Experts Group Audio Layer III, dynamic image expert compression standard audio layer 3) player, an MP4 (Moving Picture Experts Group Audio Layer IV, dynamic image expert compression standard audio layer 4) player, a portable computer and the like.

As shown in fig. 1, the service configuration device of the passive optical network device may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein the communication bus 1002 is used to enable connected communication between these components. The user interface 1003 may include a Display, an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may further include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a stable memory (non-volatile memory), such as a disk memory. The memory 1005 may also optionally be a storage device separate from the processor 1001 described above.

Optionally, the service configuration device of the passive optical network device may further include a camera, an RF (Radio Frequency) circuit, a sensor, an audio circuit, a WiFi module, and so on. Among other sensors, such as light sensors, motion sensors, and other sensors. Specifically, the light sensor may include an ambient light sensor and a proximity sensor, where the ambient light sensor may adjust the brightness of the display screen according to the brightness of ambient light, and the proximity sensor may turn off the display screen and/or the backlight when the service configuration device of the passive optical network device is moved to the ear. As one of the motion sensors, the gravity acceleration sensor can detect the acceleration in all directions (generally three axes), and can detect the gravity and the direction when the device is stationary, and the device can be used for identifying the gesture of the device (such as horizontal and vertical screen switching, related games, magnetometer gesture calibration), vibration identification related functions (such as pedometer and knocking), and the like; of course, the service configuration device of the passive optical network device may also be configured with other sensors such as a gyroscope, a barometer, a hygrometer, a thermometer, an infrared sensor, and the like, which are not described herein again.

It will be appreciated by those skilled in the art that the terminal structure shown in fig. 1 does not constitute a limitation of the service configuration device of the passive optical network device, and may include more or less components than those illustrated, or may combine certain components, or may be a different arrangement of components.

As shown in fig. 1, an operating system, a network communication module, a user interface module, and a service configuration program of a passive optical network device may be included in a memory 1005 as one type of computer storage medium.

In the service configuration device of the passive optical network device shown in fig. 1, the network interface 1004 is mainly used for connecting to a background server and performing data communication with the background server; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be used to invoke a service configuration program of the passive optical network device stored in the memory 1005.

In this embodiment, a service configuration device of a passive optical network device includes: the system comprises a memory 1005, a processor 1001 and a service configuration program of the passive optical network device stored in the memory 1005 and capable of running on the processor 1001, wherein when the processor 1001 calls the service configuration program of the passive optical network device stored in the memory 1005, the following steps of the service configuration method of the passive optical network device in each embodiment are executed.

The invention also provides a service configuration method of the passive optical network device, referring to fig. 2, fig. 2 is a schematic flow chart of a first embodiment of the service configuration method of the passive optical network device.

In this embodiment, the service configuration method of the passive optical network device includes:

step S101, when the first optical network terminal is detected to finish registration, the optical line terminal determines whether a first configuration issuing state of the first optical network terminal exists in storage information corresponding to the configuration issuing state;

in this embodiment, the passive optical network includes a gigabit passive optical network, an ethernet-based passive optical network, a 10G-PON, or a wavelength division multiplexing passive optical network. The passive optical network device comprises an optical line terminal and a plurality of optical network terminals, and the optical line terminal is in communication connection with each optical network terminal. When each optical network terminal is logged out of the optical line terminal, the optical line terminal stores the current configuration issuing state and equipment information of the logged-out optical network terminal in a storage information in a storage module of the optical line terminal or a database in communication connection with the optical line terminal in a correlated manner, and meanwhile, when the optical network terminal is logged out, the optical network terminal stores the current configuration file or configuration parameters corresponding to the configuration file.

In this embodiment, when it is detected that the first optical network terminal completes registration, the optical line terminal determines whether a first configuration issuing state of the first optical network terminal exists in storage information corresponding to the configuration issuing state, specifically, the optical line terminal may first acquire second equipment information (for example, a unique identifier of the first optical network terminal) of the first optical network terminal, and then search the storage information based on the second equipment information to determine whether the configuration issuing state corresponding to the second equipment information exists in the storage information, where the configuration issuing state corresponding to the second equipment information is the first configuration issuing state of the first optical network terminal; or when the first optical network terminal is detected to finish registration, counting the registration times of the first optical network terminal, if the registration times are more than 1, determining that the first optical network terminal is registered and logged out of the optical line terminal before the current moment, and at the moment, the first configuration issuing state of the first optical network terminal is necessarily present in the stored information, so that whether the registration times of the first optical network terminal are more than 1 can be directly determined.

Step S102, if the first configuration issuing state of the first optical network terminal exists in the stored information, the optical line terminal determines whether the first configuration issuing state is an issued state;

in this embodiment, if the first configuration issuing state of the first optical network terminal exists in the stored information, the optical line terminal obtains the first configuration issuing state, and determines whether the first configuration issuing state is an issued state, where the first configuration issuing state includes an issued state and an undelivered state, and the issued state refers to that the first optical network terminal has been registered and logged out in the optical line terminal, and when the first optical network terminal logs out last time, the optical line terminal has issued a configuration file or a configuration parameter to the first optical network terminal.

When the first optical network terminal performs the factory-restoration setting operation, the optical line terminal updates the first configuration issuing state in the storage information to an undelivered state, or when a manager updates the configuration file of the first optical network terminal, the optical line terminal receives a configuration file to be updated corresponding to the first optical network terminal, updates the configuration file of the first optical network terminal based on the configuration file to be updated, and updates the first configuration issuing state in the storage information to the undelivered state, wherein if the configuration file exists with the configuration file server, the configuration file server sends a state modification instruction to the optical line terminal when detecting the updating operation of the configuration file of the first optical network terminal, and the optical line terminal modifies the first configuration issuing state in the storage information to the undelivered state based on the state modification instruction.

Step S103, if the first configuration issuing state is issued, the optical line terminal determines whether the configuration parameters of the first optical network terminal need to be upgraded or not based on a configuration information table;

in this embodiment, when the first configuration issuing state is an issued state, that is, the first optical network terminal has been registered and logged out in the optical line terminal, and when the first optical network terminal has logged out last time, the optical line terminal has issued a configuration file or a configuration parameter to the first optical network terminal, then the optical line terminal determines, based on the configuration information table, whether the configuration parameter of the first optical network terminal needs to be upgraded, specifically, the optical line terminal may first obtain parameter information of the configuration parameter of the first optical network terminal, then query a configuration file corresponding to the first optical network terminal in the configuration information table, determine whether an upgrade configuration file corresponding to the configuration parameter of the first optical network terminal exists in the configuration file corresponding to the first optical network terminal, and if so, determine that the configuration parameter of the first optical network terminal needs to be upgraded.

Step S104, if the configuration parameters of the first optical network terminal need to be upgraded, the optical line terminal determines a management mode corresponding to the first optical network terminal based on the first configuration issuing state;

In this embodiment, if the configuration parameters of the first optical network terminal need to be updated, the optical line terminal determines, based on the first configuration issuing state, a management mode corresponding to the first optical network terminal, specifically, the optical line terminal determines, based on the first configuration issuing state, a service type supported by the first optical network terminal, and determines, according to the supported service type, a management mode capable of being configured by various service types, where the management modes include an optical network unit management control interface OMCI mode and an omci+tr069 mode.

Step S105, the optical line terminal determines a first target configuration file corresponding to the first optical network terminal based on a management manner, the configuration parameters and the configuration information table;

in this embodiment, after the management manner is obtained, the optical line terminal determines, based on the management manner, the configuration parameters and the configuration information table, a first target configuration file corresponding to the first optical network terminal, specifically, the optical line terminal queries a configuration file to be screened corresponding to the management manner in the configuration information table, and then determines, based on the configuration parameters, a first target configuration file required for upgrading the first optical network terminal in the configuration file to be screened.

The first target configuration file further comprises an upgrade file corresponding to a default configuration of the first optical network terminal.

Step S106, the optical line terminal issues the first target configuration file to the first optical network terminal, where the first optical network terminal performs a corresponding parameter configuration operation based on the configuration file.

In this embodiment, after the first target configuration file is obtained, the optical line terminal issues the first target configuration file to the first optical network terminal, and after the first target configuration file is received, the first optical network terminal performs a corresponding parameter configuration operation based on the first target configuration file.

According to the service configuration method of the passive optical network device, when the first optical network terminal is detected to finish registration, the optical line terminal determines whether a first configuration issuing state of the first optical network terminal exists in storage information corresponding to the configuration issuing state; then if the first configuration issuing state of the first optical network terminal exists in the stored information, the optical line terminal determines whether the first configuration issuing state is an issued state or not; then if the first configuration issuing state is issued, the optical line terminal determines whether the configuration parameters of the first optical network terminal need to be upgraded or not based on a configuration information table; then if the configuration parameters of the first optical network terminal need to be upgraded, the optical line terminal determines a management mode corresponding to the first optical network terminal based on the first configuration issuing state; secondly, the optical line terminal determines a first target configuration file corresponding to the first optical network terminal based on a management mode, the configuration parameters and the configuration information table; and finally, the optical line terminal issues the first target configuration file to the first optical network terminal, wherein the first optical network terminal performs corresponding parameter configuration operation based on the configuration file, so that the optical network terminal issuing configuration file which is in an issued state and needs to be upgraded can be subjected to parameter configuration, the problem of resource waste of the passive optical network device caused by the configuration parameters which are renewed when the optical network terminal is registered can be effectively avoided, the resource utilization rate of the passive optical network device is improved, and the default configuration in the optical network terminal can be updated.

Based on the first embodiment, a second embodiment of the service configuration method of the passive optical network device of the present invention is provided, in this embodiment, step S105 includes:

step S201, the optical line terminal determines a configuration file to be screened corresponding to the management mode in the configuration information table;

step S202, the optical line terminal determines, based on the configuration parameters, a first target configuration file required for upgrading the first optical network terminal in the configuration file to be screened.

In this embodiment, after the management manner is obtained, the optical line terminal determines, in the configuration information table, a configuration file to be screened corresponding to the management manner, specifically, screens, in the configuration file corresponding to the configuration information table, a configuration file matched with the management manner as the configuration file to be screened.

And then, the optical line terminal determines a first target configuration file required by the upgrade of the first optical network terminal in the configuration file to be screened based on the configuration parameters, and specifically, the optical line terminal queries the configuration file matched with the configuration parameters of the first optical network terminal in the configuration file to be screened as the first target configuration file.

According to the service configuration method of the passive optical network device, the configuration files to be screened corresponding to the management mode are determined in the configuration information table through the optical line terminal; and then the optical line terminal determines a first target configuration file required by the upgrade of the first optical network terminal in the configuration file to be screened based on the configuration parameters, so that the optical line terminal can accurately obtain the first target configuration file required by the upgrade of the first optical network terminal, and the resource utilization rate of the passive optical network equipment is further improved.

Based on the first embodiment, a third embodiment of the service configuration method of the passive optical network device of the present invention is provided, in this embodiment, step S106 includes:

step S301, the optical line terminal obtains identification information of the first optical network terminal;

step S302, the optical line terminal encrypts the first target configuration file based on the identification information and the management mode, to obtain an encrypted first target configuration file;

step S303, the optical line terminal issues an encrypted first target configuration file to the first optical network terminal, where the first optical network terminal performs a decryption operation on the received encrypted first target configuration file based on the identification information and the management mode, obtains a first target configuration file, and performs a corresponding parameter configuration operation based on the first target configuration file.

In this embodiment, when the first target configuration file is obtained, the optical line terminal obtains the identification information of the first optical network terminal, where the identification information is a unique identification of the first optical network terminal, and may specifically be device information of the first optical network terminal or the like.

Then, the optical line terminal encrypts the first target configuration file based on the identification information and the management mode to obtain an encrypted first target configuration file; specifically, in one possible implementation, step S302 includes:

step S3021, the optical line terminal determines a first hash value through a hash algorithm based on the identification information, and determines a second hash value through a hash algorithm based on the management mode;

step S3022, the optical line terminal determining an encryption key based on the first hash value and the second hash value;

in step S3023, the optical line terminal encrypts the first target configuration file based on the encryption key to obtain an encrypted first target configuration file.

In this embodiment, the optical line terminal determines the first hash value through a hash algorithm based on the identification information, and determines the second hash value through a hash algorithm based on the management mode, specifically, the optical line terminal inputs the identification information into the hash algorithm (for example, after the identification information is converted into corresponding numerical data, the hash algorithm is input) to obtain the first hash value, and meanwhile, the optical line terminal inputs the management mode into the hash algorithm (for example, after the management mode is converted into corresponding numerical data, the hash algorithm is input) to obtain the second hash value.

Then, the optical line terminal determines an encryption key based on the first hash value and the second hash value; for example, taking the sum or the average of the first hash value and the second hash value as an encryption key, or obtaining the average between the first hash value and the second hash value, inquiring in a preset key based on the average inquiry, and obtaining a key corresponding to the average, namely the encryption key.

And then, the optical line terminal encrypts the first target configuration file based on the encryption key to obtain the encrypted first target configuration file so as to realize the encryption of the first target configuration file and improve the security of the first target configuration file.

After the encrypted first target configuration file is obtained, the optical line terminal issues the encrypted first target configuration file to the first optical network terminal, wherein the first optical network terminal decrypts the received encrypted first target configuration file based on the identification information and the management mode to obtain the first target configuration file, and specifically, the first optical network terminal reversely decrypts the encrypted first target configuration file according to the encryption mode of the optical line terminal.

According to the service configuration method of the passive optical network device, the identification information of the first optical network terminal is obtained through the optical line terminal; the optical line terminal encrypts the first target configuration file based on the identification information and the management mode to obtain an encrypted first target configuration file; and then the optical line terminal issues the encrypted first target configuration file to the first optical network terminal, wherein the first optical network terminal decrypts the received encrypted first target configuration file based on the identification information and the management mode to obtain the first target configuration file, performs corresponding parameter configuration operation based on the first target configuration file, and improves the security of the first target configuration file by encrypting the configuration file.

Based on the first embodiment, a fourth embodiment of the service configuration method of the passive optical network device according to the present invention is provided, in this embodiment, after step S102, the service configuration method of the passive optical network device further includes:

step S401, determining, by the optical line terminal, a second target configuration file corresponding to the first optical network terminal based on a management manner and the configuration information table;

Step S402, the optical line terminal issues the second target configuration file to the first optical network terminal, where the second optical network terminal performs a corresponding parameter configuration operation based on the configuration file.

In this embodiment, if the first configuration issuing state is an undelivered state, the optical line terminal determines, based on a management manner and the configuration information table, a second target configuration file corresponding to the first optical network terminal, specifically, the configuration information table includes configuration files of each optical network terminal, the optical line terminal may query the second target configuration file corresponding to the first optical network terminal according to the configuration information table, or the configuration information table includes storage address information of the configuration files of each optical network terminal, and the optical line terminal may query the storage address information corresponding to the first optical network terminal according to the configuration information table, and obtain the second target configuration file through the storage address information.

In this embodiment, when the configuration file is obtained, the optical line terminal issues a second target configuration file to the first optical network terminal, and after receiving the second target configuration file, the first optical network terminal performs a corresponding parameter configuration operation based on the second target configuration file.

Further, in one possible implementation, step S402 includes:

step S4021, the optical line terminal acquires the identification information of the first optical network terminal;

step S4022, the optical line terminal encrypts the second target configuration file based on the identification information and the management mode, to obtain an encrypted second target configuration file;

step S4023, the optical line terminal issues an encrypted second target configuration file to the first optical network terminal, where the first optical network terminal performs a decryption operation on the received encrypted second target configuration file based on the identification information and the management mode, obtains a second target configuration file, and performs a corresponding parameter configuration operation based on the second target configuration file.

In this embodiment, when the second target configuration file is obtained, the optical line terminal obtains the identification information of the second optical network terminal, where the identification information is a unique identification of the first optical network terminal, and may specifically be device information of the first optical network terminal or the like.

Then, the optical line terminal encrypts the second target configuration file based on the identification information and the management mode to obtain an encrypted second target configuration file; specifically, the optical line terminal determines a first hash value through a hash algorithm based on the identification information, and determines a second hash value through the hash algorithm based on the management mode; the optical line terminal determines an encryption key based on the first hash value and the second hash value; and the optical line terminal encrypts the second target configuration file based on the encryption key to obtain an encrypted second target configuration file. In this embodiment, the optical line terminal determines the first hash value through a hash algorithm based on the identification information, and determines the second hash value through a hash algorithm based on the management mode, specifically, the optical line terminal inputs the identification information into the hash algorithm (for example, after the identification information is converted into corresponding numerical data, the hash algorithm is input) to obtain the first hash value, and meanwhile, the optical line terminal inputs the management mode into the hash algorithm (for example, after the management mode is converted into corresponding numerical data, the hash algorithm is input) to obtain the second hash value. The optical line terminal determines an encryption key based on the first hash value and the second hash value; for example, taking the sum or the average of the first hash value and the second hash value as an encryption key, or obtaining the average between the first hash value and the second hash value, inquiring in a preset key based on the average inquiry, and obtaining a key corresponding to the average, namely the encryption key. And then, the optical line terminal encrypts the second target configuration file based on the encryption key to obtain the encrypted second target configuration file so as to realize the encryption of the second target configuration file and improve the security of the second target configuration file.

After the encrypted second target configuration file is obtained, the optical line terminal issues the encrypted second target configuration file to the first optical network terminal, wherein the first optical network terminal decrypts the received encrypted second target configuration file based on the identification information and the management mode to obtain the second target configuration file, and specifically, the first optical network terminal reversely decrypts the encrypted second target configuration file according to the encryption mode of the optical line terminal.

Further, in one possible implementation manner, the service configuration method of the passive optical network device further includes:

step S403, when detecting a logout instruction of a first optical network terminal, the optical line terminal obtains a current second configuration issuing state of the first optical network terminal;

step S404, the optical line terminal updates the storage information based on the second configuration issuing status and the first device information of the first optical network terminal;

step S405, the optical line terminal executes a logout operation of the first optical network terminal based on the logout instruction.

In this embodiment, when a logout instruction of the first optical network terminal is detected, for example, when a logout request of the first optical network terminal is received, the optical line terminal obtains a current second configuration issuing state of the first optical network terminal, where the second configuration issuing state is the current configuration issuing state of the first optical network terminal.

And then, the optical line terminal updates the storage information based on the second configuration issuing state and the first device information of the first optical network terminal, for example, if the configuration issuing state of the first optical network terminal is stored in the storage information, the configuration issuing state of the first optical network terminal in the storage information is replaced by the second configuration issuing state, and if the configuration issuing state of the first optical network terminal is not stored in the storage information, the first device information and the second configuration issuing state of the first optical network terminal are added in the storage information, so that the associated storage of the first device information and the second configuration issuing state is realized. And finally, the optical line terminal executes the logout operation of the first optical network terminal based on the logout instruction so as to logout the first optical network terminal in the optical line terminal.

The stored information is updated according to the second configuration issuing state, so that the configuration issuing state of the first optical network terminal is stored in time when the first optical network terminal is logged out, whether the first optical network terminal is reconfigured or not is determined according to the stored configuration issuing state when the first optical network terminal is subsequently re-registered, the problem of resource waste of the passive optical network device caused by reconfiguration parameters when the optical network terminal is registered can be effectively avoided, and the resource utilization rate of the passive optical network device is further improved.

Further, after step S402, the service configuration method of the passive optical network device further includes:

step S406, when the second target configuration file is issued, the optical line terminal sets the configuration issue state of the first optical network terminal to an issued state, and updates the storage information based on the issued state and the device information of the first optical network terminal.

In this embodiment, when the second target configuration file is issued, the optical line terminal sets the configuration issue state of the first optical network terminal to the issued state, and updates the storage information based on the issued state and the device information of the first optical network terminal, specifically, when the configuration completion information of the first optical network terminal is received, the second target configuration file is determined to be issued, and the current configuration issue state of the first optical network terminal is modified and stored in time, so as to ensure that the storage information is updated in time, accurately judge whether the first optical network terminal needs to perform parameter configuration when the first optical network terminal registers again, and improve the accuracy of parameter configuration of the first optical network terminal.

It should be noted that, if the configuration file is stored in the configuration file server, the optical line terminal determines a configuration file acquisition parameter corresponding to the first optical network terminal based on the configuration information table, the optical line terminal issues the configuration file acquisition parameter to the first optical network terminal, the first optical network terminal sends a configuration file acquisition request to the configuration file server based on the received configuration file acquisition parameter, the configuration file server feeds back the configuration file corresponding to the configuration file acquisition request to the first optical network terminal, and then the first optical network terminal performs a corresponding parameter configuration operation based on the configuration file.

However, in other embodiments, if the first configuration sending state is the sent state, the optical line terminal does not send the configuration file to the first optical network terminal any more, and at this time, the first optical network terminal may perform corresponding parameter configuration based on the stored configuration file, and the first optical network terminal performs service processing operation, or the current parameter configuration of the first optical network terminal is configured before cancellation, and at this time, the first optical network terminal may directly perform service processing operation. For example, when the duration after the registration of the first optical network terminal reaches the preset duration, if the configuration file sent by the optical line terminal is not received, the first optical network terminal performs corresponding parameter configuration based on the configuration file stored in the previous logout.

Further, in yet another implementation, step S101 includes:

step S201, when the first optical network terminal is detected to finish registration, the optical line terminal acquires second equipment information of the first optical network terminal;

step S202, determining whether a first configuration issuing status of the first optical network terminal exists in the stored information based on the second device information.

In this embodiment, when it is detected that the first optical network terminal completes registration, the optical line terminal may first obtain second device information (for example, a unique identifier of the first optical network terminal) of the first optical network terminal, and search the storage information based on the second device information, so as to determine whether a configuration issuing state corresponding to the second device information exists in the storage information, where the configuration issuing state corresponding to the second device information is the first configuration issuing state of the first optical network terminal. The configuration issuing state of the first optical network terminal can be accurately determined according to the second equipment information, whether the first optical network terminal needs to be reconfigured or not is further accurately determined, the problem of resource waste of the passive optical network equipment caused by reconfiguration parameters during optical network terminal registration can be effectively avoided, and the resource utilization rate of the passive optical network equipment is further improved.

Further, in still another implementation manner, after step S101, the service configuration method of the passive optical network device further includes:

step S301, if the stored information does not have the first configuration issuing state of the first optical network terminal, the optical line terminal determines a second target configuration file corresponding to the first optical network terminal based on a configuration information table;

Step S302, the optical line terminal issues a second target configuration file to the first optical network terminal.

In this embodiment, if the first configuration issuing state of the first optical network terminal does not exist in the storage information, it is determined that the first optical network terminal is currently registered to the optical line terminal for the first time, and parameter configuration needs to be performed on the first optical network terminal, at this time, the optical line terminal determines, based on a configuration information table, a second target configuration file corresponding to the first optical network terminal, specifically, the configuration information table includes configuration files of each optical network terminal, the optical line terminal may query the configuration files corresponding to the first optical network terminal according to the configuration information table, or the configuration information table includes storage address information of the configuration files of each optical network terminal, and the optical line terminal may query the storage address information corresponding to the first optical network terminal according to the configuration information table, and obtain the configuration files through the storage address information.

In this embodiment, when the second target configuration file is obtained, the optical line terminal issues the second target configuration file to the first optical network terminal, and after receiving the second target configuration file, the first optical network terminal performs a corresponding parameter configuration operation based on the second target configuration file. The second target configuration file corresponding to the first optical network terminal can be issued when the first configuration issuing state does not exist, so that the parameter configuration of the first optical network terminal is realized, and the accuracy of the parameter configuration of the first optical network terminal is further improved.

According to the service configuration method of the passive optical network device, if the first configuration issuing state is the undelivered state, the optical line terminal determines a second target configuration file corresponding to the first optical network terminal based on a management mode and the configuration information table; and then the optical line terminal issues the second target configuration file to the first optical network terminal, wherein the second optical network terminal performs corresponding parameter configuration operation based on the configuration file, so that the optical network terminal in an undelivered state can perform parameter configuration on the configuration file issued, the re-issuing of the configuration file of the registered optical network terminal is avoided, the problem of resource waste of the passive optical network device caused by the re-configuration parameter during the registration of the optical network terminal can be effectively avoided, and the resource utilization rate of the passive optical network device is improved.

Based on the foregoing embodiments, a fifth embodiment of a service configuration method of a passive optical network device according to the present invention is provided, where in the present embodiment, the service configuration method of a passive optical network device further includes:

step S501, when a factory setting restoration operation of the first optical network terminal is detected, setting a configuration issuing state of the first optical network terminal to an undelivered state;

Step S502, deleting the associated storage information corresponding to the first optical network terminal from the storage information.

In this embodiment, when the factory-restoration setting operation of the first optical network terminal is detected, the parameter configuration of the current first optical network terminal fails due to the factory-restoration setting operation of the first optical network terminal, so that the optical line terminal sets the configuration issuing state of the first optical network terminal to an undelivered state, and deletes associated storage information corresponding to the first optical network terminal in the storage information, that is, deletes the device information and the configuration issuing state of the first optical network terminal in the storage information, so that when the first optical network terminal registers in the optical line terminal again, the optical line terminal issues a configuration file for the first optical network terminal again.

It should be noted that, if the optical line terminal has updated the registration number of times of the first optical network terminal before, the optical line terminal sets the registration number of times as an initial value at this time.

According to the service configuration method of the passive optical network device, when the factory setting restoration operation of the first optical network terminal is detected, the configuration issuing state of the first optical network terminal is set to be an undelivered state; and deleting the associated storage information corresponding to the first optical network terminal from the storage information, and modifying the configuration issuing state and the storage information of the first optical network terminal to ensure that the optical line terminal issues the configuration file for the first optical network terminal again when the first optical network terminal registers the optical line terminal again, thereby improving the accuracy and the efficiency of parameter configuration of the first optical network terminal.

In addition, the embodiment of the invention also provides a computer readable storage medium, wherein the computer readable storage medium stores a service configuration program of the passive optical network device, and the service configuration program of the passive optical network device realizes the steps of the service configuration method of the passive optical network device when being executed by a processor.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) as described above, comprising instructions for causing a terminal device (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present invention.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims

1. The service configuration method of the passive optical network device is characterized by comprising the following steps of:

2. The service configuration method of a passive optical network device according to claim 1, wherein the step of determining, by the optical line terminal, the first target configuration file corresponding to the first optical network terminal based on the management mode, the configuration parameter, and the configuration information table includes:

3. The service configuration method of a passive optical network device according to claim 1, wherein the optical line terminal issues the first target configuration file to the first optical network terminal, and wherein the step of the first optical network terminal performing the corresponding parameter configuration operation based on the configuration file includes:

4. The service configuration method of the passive optical network device according to claim 3, wherein the step of encrypting the first target configuration file by the optical line terminal based on the identification information and the management mode to obtain the encrypted first target configuration file includes:

5. The method for configuring a service of a passive optical network device according to claim 1, wherein after the step of determining whether the first configuration delivery state is a delivered state by the optical line terminal, the method for configuring a service of a passive optical network device further comprises:

6. The method for configuring a service of a passive optical network device according to claim 5, wherein the optical line terminal issues the second target configuration file to the first optical network terminal, and wherein the step of performing the corresponding parameter configuration operation by the second optical network terminal based on the configuration file includes:

7. The service configuration method of a passive optical network device according to claim 1, wherein the service configuration method of a passive optical network device further comprises:

8. The traffic configuration method of a passive optical network device according to any one of claims 1 to 7, wherein the traffic configuration method of a passive optical network device further comprises:

9. A service configuration device of a passive optical network device, wherein the service configuration device of the passive optical network device comprises: memory, a processor and a service configuration program of a passive optical network device stored on the memory and operable on the processor, which when executed by the processor, implements the steps of the service configuration method of a passive optical network device according to any one of claims 1 to 8.

10. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a service configuration program of a passive optical network device, which when executed by a processor, implements the steps of the service configuration method of a passive optical network device according to any of claims 1 to 8.