CN117425100A - Intelligent PON gateway plug-in testing management system and method - Google Patents

Abstract

The invention discloses a testing management system and method for intelligent PON gateway plug-in components, which relate to the technical field of communication and comprise the following steps: the intelligent PON gateway comprises a test platform and an intelligent PON gateway, wherein the test platform is in communication connection with the intelligent PON gateway and comprises hardware equipment and software equipment, and a test plug-in is installed on the intelligent PON gateway; the test platform specifically comprises: and (3) a cutting module: the method comprises the steps of cutting out hardware equipment and constructing the hardware equipment into a hardware system, and then cutting out software equipment and constructing the software system; the system building module is used for building the cut hardware equipment, the cut software equipment and the intelligent PON gateway into an overall system and configuring corresponding authentication information; and the test management module is used for authenticating and managing the intelligent PON gateway and testing and verifying the functions of the intelligent PON gateway and the test plug-in. The invention can cut the functions and the occupied space of the system to meet different use scenes and performance requirements, thereby controlling the development and test cost.

Description

Intelligent PON gateway plug-in testing management system and method

Technical Field

The invention relates to the technical field of communication, in particular to an intelligent PON gateway plug-in test management system and method.

Background

With the development of technology, more and more users need a more convenient method for managing home gateways, in order to meet the user demands, operators propose the concept of intelligent gateways, the customer management demands are met by integrating plug-in systems in the gateways, but plug-in functions of low cost and high efficiency test plug-ins among different operators are different, the problem to be solved by the suppliers is solved urgently, a set of complete plug-in test platform needs to be built from front ends (servers, optical Line Terminal (OLT) and other devices) to clients (optical gateways and other devices) by a large amount of equipment in the prior art, the complete intelligent gateway plug-in operation environment is simulated, the test environment is complex, the whole test environment is influenced only if a problem occurs in an intermediate link, and the input cost for building test environment equipment is huge. Therefore, the intelligent PON gateway testing and managing method and system are provided, and the problems that in the prior art, the testing environment is complex, the testing cost is high, and the system is difficult to cut once constructed are solved.

Disclosure of Invention

The invention aims to provide a test management method and system for intelligent PON gateway plug-in components, which are used for solving the problems that in the prior art, the test environment is complex, the test cost is high and the system is difficult to cut once constructed.

The invention solves the problems by the following technical proposal:

an intelligent PON gateway plug-in test management system comprising: the intelligent PON gateway comprises a test platform and an intelligent PON gateway, wherein the test platform is in communication connection with the intelligent PON gateway, the test platform comprises hardware equipment and software equipment, and a test plug-in is installed on the intelligent PON gateway; wherein, the test platform specifically includes:

the cutting module is used for cutting the hardware equipment and constructing a hardware system, and then cutting the software equipment and constructing a software system;

the system building module is used for building the hardware system, the software system and the intelligent PON gateway into an integral system and configuring corresponding authentication information;

and the test management module is used for authenticating and managing the intelligent PON gateway and testing and verifying the functions of the intelligent PON gateway and the test plug-in. .

The principle of the invention: according to the invention, different hardware devices are selected to construct a hardware system, then corresponding software devices are selected to deploy the software devices according to the hardware system, a corresponding whole system is constructed, the functions and the sizes of the whole system are adjusted, specific use scenes and performance requirements are met, further development and testing costs are controlled, and then the intelligent PON gateway is authenticated and managed through a testing management module, and the functions of the intelligent PON gateway and a testing plug-in are tested and verified.

Further, clipping the hardware device and the software device includes: and selecting different hardware devices to construct a hardware system according to the requirements, evaluating the software requirements according to the hardware system, and selecting corresponding software devices to construct a corresponding software system, so that the functions and the sizes of the whole system are adjusted.

Further, the hardware device includes a server device, the software device includes a core system disposed on the server device, and the test management module includes:

the first information receiving module is used for receiving the connection request of the intelligent PON gateway through a first interface and verifying the authentication information and the connection state of the test plug-in; wherein the first interface is an interface between the test plug-in and a server device;

the first information sending module is used for sending a first operation instruction to the intelligent PON gateway through the first interface, wherein the first operation instruction comprises installation, starting, unloading and function testing of the test plug-in;

and the first information acquisition module is used for acquiring a result obtained by the intelligent PON gateway based on the first operation instruction through the first interface.

Further, the software equipment is cut through a cutting configuration tool preset in the test platform, and the core system is developed by adopting Nodejs and is used for providing TCP, MQTT, HTTP, webSocket communication services.

Further, the hardware device further comprises a head-end device, and the head-end device is in communication connection with the server device and the intelligent PON gateway and is used for transmitting data faster and improving the safety and stability of transmission.

Further, the hardware device further comprises a client device, the software device further comprises a database preset on the server device and a plug-in client deployed on the client device, and the server device is in communication connection with the client device; the test management module further comprises:

the second information receiving module is used for receiving a connection request and a second operation instruction of the client device through a second interface and verifying authentication information of the plug-in client and the second operation instruction; the second interface is an interface between the plug-in client and the server equipment, and the second operation instruction further comprises a test task creation and test environment configuration on the basis of the first operation instruction;

the judging module is used for judging an execution object of the second operation instruction;

the information processing module is used for executing the second operation instruction or sending the second operation instruction to the intelligent PON gateway through the first interface;

the second information acquisition module is used for acquiring a result obtained by the intelligent PON gateway based on the second operation instruction through a first interface;

the second information sending module is used for sending the result to the client device through a second interface and sending the result to the database at the same time;

and the storage module is used for collecting data through the database and analyzing the result.

Further, communication is performed among the intelligent PON gateway, the server device and the client device based on TCP, MQTT, HTTP and WebSocket protocols, the first interface is an MQTT interface, and the second interface is a Web interface.

The invention also provides an intelligent PON gateway plug-in test management method, which comprises the following steps:

s100, cutting out a hardware device and constructing the hardware device as a hardware system, and then cutting out a software device and constructing the software device as a software system;

s101, constructing the hardware system, the software system and the intelligent PON gateway into an integral system, and configuring corresponding authentication information;

s102, authenticating and managing the intelligent PON gateway, and testing and verifying functions of the intelligent PON gateway and the testing plug-in.

Further, the testing verifies functions of the intelligent PON gateway and a test plug-in comprising: performing a function test to verify whether the functions of the intelligent PON gateway and the test plug-in work according to expectations; performing performance test to evaluate the performance and stability of the intelligent PON gateway under the high-load condition; and performing security tests to ensure that security protection measures of the intelligent PON gateway are effective so as to prevent unauthorized access or attack.

Compared with the prior art, the invention has the following advantages:

(1) The function and the occupied space of the whole system can be adjusted by modifying the setting through a cutting configuration tool preset in the core system; after cutting, the whole system only needs a server device and an intelligent PON gateway to provide a developer for offline debugging, and the function of a test plug-in unit is very low in cost.

(2) The core system can be deployed on a local server or a cloud server, and the core system is connected with the database to persistence data to form a set of complete plug-in management system which simulates a complete intelligent PON gateway plug-in running environment and can provide remote management for client equipment, and the software equipment can be deployed as a permanent system platform under the condition of need, so that the system has commercial value.

Drawings

FIG. 1 is a system block diagram of the present invention;

FIG. 2 is a flow chart of the present invention;

FIG. 3 is a system block diagram of a test management module according to a second embodiment of the present invention;

FIG. 4 is a system block diagram of a test management module according to a fourth embodiment of the present invention;

FIG. 5 is a flow chart of a fifth embodiment of the present invention;

FIG. 6 is a flow chart of hardware device clipping according to the present invention;

fig. 7 is a flow chart of software device clipping according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention, and that the embodiments of the invention are not limited thereto. All other embodiments, based on the examples herein, which are within the scope of the invention as defined by the claims, will be within the scope of the invention as defined by the claims.

In the following description, the terms "first", "second", "third", and the like are used merely to distinguish similar objects and do not represent a particular ordering of the objects, it being understood that the "first", "second", "third", and the like may be interchanged with a particular order or sequence, as permitted, to enable embodiments of the application described herein to be practiced otherwise than as illustrated 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 present application.

Example 1:

referring to fig. 1, an intelligent PON gateway plug-in test management system includes: the intelligent PON gateway comprises a test platform and an intelligent PON gateway, wherein the test platform is in communication connection with the intelligent PON gateway, the test platform comprises hardware equipment and software equipment, and a test plug-in is installed on the intelligent PON gateway; wherein, the test platform specifically includes:

and (3) a cutting module: the hardware device is used for cutting out and constructing a hardware system, and then the software device is cut out and constructed into a software system;

the clipping of the hardware device and the software device includes: different hardware devices are selected according to the needs to construct a hardware system, then the software needs are evaluated according to the hardware system, and corresponding software devices are selected to construct a corresponding software system, so that the functions and the sizes of the whole system are adjusted

The system building module is used for building the hardware system, the software system and the intelligent PON gateway into an integral system and configuring corresponding authentication information;

and the test management module is used for authenticating and managing the intelligent PON gateway and testing and verifying the functions of the intelligent PON gateway and the test plug-in.

The principle of the invention: according to the intelligent PON gateway testing method, different hardware devices are selected to construct a hardware system, corresponding software devices are selected to be deployed according to the hardware system, a corresponding overall system is constructed, the functions and the sizes of the overall system are adjusted through a cutting configuration tool preset on the software devices, specific use scenes and performance requirements are met, development and testing cost is controlled, the intelligent PON gateway is authenticated and managed through a testing management module, and functions of the intelligent PON gateway and a testing plug-in are tested and verified.

The intelligent PON gateway may be, as a device under test, various types of devices that operate the intelligent PON gateway, including: optical cats, cable cats, routers, etc.; the test plug-in can also be provided by an operator, domain name resolution or IP redirection of the analysis of the plug-in of the operator is changed to a test platform by modifying the configuration file of the hosts or dnsmasq and the like, so that the problem of different plug-ins between different plug-in operators is solved, the test of the plug-ins of the operator is met, meanwhile, functional plug-ins except for basic management plug-ins can be selectively installed, and different functions are realized on tested equipment by installing the different plug-ins.

Example 2:

on the basis of embodiment 1, referring to fig. 3, fig. 6 and fig. 7, the hardware device includes a server device, the software device includes a core system deployed on the server device, and the test management module includes:

the first information receiving module is used for receiving the connection request of the intelligent PON gateway through a first interface and verifying the authentication information and the connection state of the test plug-in; wherein the first interface is an interface between the test plug-in and a server device;

the first information sending module is used for sending a first operation instruction to the intelligent PON gateway through the first interface, wherein the first operation instruction comprises installation, starting, unloading and function testing of the test plug-in; the method comprises the steps of carrying out a first treatment on the surface of the

And the first information acquisition module is used for acquiring a result obtained by the intelligent PON gateway based on the first operation instruction through the first interface.

And cutting the software equipment through a cutting configuration tool preset in the test platform, wherein the core system is developed by adopting Nodejs and is used for providing TCP, MQTT, HTTP, webSocket communication service.

The user can directly configure and cut on the interface of the cutting configuration tool by integrating the cutting configuration tool into the test platform, additional server access or other complex operations are not needed, the overall user experience is improved, the user can cut the complete software equipment functions and the occupied space according to the own requirements and realize customized system configuration, in addition, the compatibility of the tool and the software equipment can be better ensured by deploying the cutting configuration tool into the test platform, deeper integration and interaction are provided, meanwhile, the test platform can provide necessary security and authority management control, the user can cut according to the authority of the user, and potential safety risks are avoided; the core system has good portability, can be rapidly deployed on different operating system platforms, including Windows, linux, macOS, android and the like, and is cross-platform, so that codes can be written only once and then run and deployed on different operating systems; in addition, the asynchronous non-blocking IO model of node. Js makes it very suitable for handling high-concurrency network applications such as Web servers, RESTful APIs, real-time communication, etc., and this feature makes it excellent in building scalable distributed systems;

in this embodiment, a developer may construct a local development test environment with extremely low cost, debug and develop the function of the test plug-in locally, where the server device is a development computer, the developer directly connects the intelligent PON gateway with the development computer through a network cable, runs software equipment on the development computer, and after the intelligent PON gateway is started, the test plug-in will establish connection with the software equipment on the development computer; it should be noted that, the software device provides a set of simple command line management interface, a developer can use a command line preset by the software device to communicate with the test plug-in, perform all operations of the test platform, be convenient for a UI-free user to use, and also can use a WebUI through modifying configuration, wherein the WebUI is set by pre-development, and the WebUI performs data communication based on the WebSocket to realize real-time data transmission, and under the condition of using the WebUI, the developer can use the WebUI to perform operations more conveniently; if the verification connection fails, a network packet capturing tool (such as a Wireshark) can be used for capturing packets of the communication, and whether the network communication has abnormal messages or delay or the like is checked.

Minimum system mode:

hardware requirements: intelligent PON gateway and development computer

Software requirements: test plug-in running on intelligent PON gateway, core System, webUI (optional, but recommended Enable)

In the mode, a developer can construct a local development test environment with extremely low cost, debug and develop locally, the developer directly connects an intelligent PON gateway with a development computer through a network cable, a core system is operated on the development computer, after the intelligent PON gateway is started, a test plug-in unit is connected with the core system allowed on the development computer, the developer can communicate with the plug-in unit by using a command line, and the developer can operate more conveniently by using a WebUI under the condition of starting the WebUI.

Example 3:

on the basis of embodiment 2, referring to fig. 6, the hardware device further includes a headend device, where the headend device is communicatively connected to the server device and the intelligent PON gateway, and is configured to transmit data faster, and improve security and stability of transmission.

In this embodiment, the server device is a local server, and the WebUI includes a development mode and a management mode, where the development mode is used to provide core functions required for development, for example: communication with an intelligent gateway, communication result display, plug-in issuing installation function, system log display function and the like, wherein the management mode is used for providing comprehensive management functions, such as: device management, plug-in management, system setting and other functions; in this embodiment, a first architecture and a second architecture may be formed as required, and the functional modules of the first architecture are the same as those of embodiment 2, and WebUI will also use a development mode, and develop according to different preset communication instructions, but can test the working state in the headend environment in comparison with the minimum mode; the headend environment is the test environment when the system is accessed to headend equipment, and the headend equipment comprises optical fibers, coaxial cables, RJ45 network cables and the like; the WebUI in the second architecture will enter a management mode, in which a database is required for recording information of each connected device, as in embodiment 4, to accelerate WebUI and client access, and in which the use operation of the user can be simulated using the client device with the plug-in client installed in the local area network.

Example 4:

on the basis of embodiment 3, referring to fig. 4, fig. 6 and fig. 7, the hardware device further includes a client device, the software device further includes a database preset on the server device and a plug-in client deployed on the client device, and the server device is communicatively connected with the client device; the test management module further comprises:

the second information receiving module is used for receiving a connection request and a second operation instruction of the client device through a second interface and verifying authentication information of the plug-in client and the second operation instruction; the second interface is an interface between the plug-in client and the server equipment, and the second operation instruction further comprises a test task creation and test environment configuration on the basis of the first operation instruction; the method comprises the steps of carrying out a first treatment on the surface of the

The judging module is used for judging an execution object of the second operation instruction;

the information processing module is used for executing the second operation instruction or sending the second operation instruction to the intelligent PON gateway through the first interface;

the second information acquisition module is used for acquiring a result obtained by the intelligent PON gateway based on the second operation instruction through a first interface;

the second information sending module is used for sending the result to the client device through a second interface and sending the result to the database at the same time;

and the storage module is used for collecting data through the database and analyzing the result.

It should be noted that in this embodiment, the most complete and most complex operation environment of the intelligent PON gateway plug-in unit may be simulated, where the server device is a local server or a cloud server, by deploying a software device on the cloud server to access the internet and simultaneously enabling the intelligent PON gateway to access the internet, a test plug-in unit installed on the intelligent PON gateway is connected to the cloud server, and the test platform may be managed through WebUI, and at the same time, a user actual use operation may be simulated by using a client device installed with a plug-in client, and by using the plug-in client to communicate with the software device, an operation is performed on a specified device, so as to implement a local test or an online test function; the client device comprises a mobile phone, a tablet, a computer and the like, and the plug-in client comprises a webpage version, an applet, an App and the like.

Local test system mode:

hardware requirements: intelligent PON gateway, headend equipment, server equipment, client equipment (optional).

Software requirements: test plug-ins, core systems, webuis (optional, but recommended enablement), databases, plug-in clients running on intelligent PON gateways

The local test system mode can flexibly form different architectures according to different optional components. Under the simplified architecture, the WebUI will use the development mode as well, and the working state in the headend environment can be better tested than in the minimum mode. Under the complete framework, the WebUI enters a management mode, and more perfect functions of equipment management, plug-in library management, system setting and the like are provided. And the client device with the plug-in client installed can be used to simulate the user's operation in the local area network.

On-line test system mode:

hardware requirements: intelligent PON gateway, headend equipment, cloud server and mobile intelligent terminal

Software requirements: the intelligent PON system comprises a test plug-in running on an intelligent PON gateway, a core system, a WebUI, a database and a plug-in client.

In this mode the most complete and complex simulated intelligent gateway plug-in operating environment is possible (figure six). The testing platform is deployed on the cloud server to access the Internet, meanwhile, the intelligent PON gateway is accessed to the Internet, the plug-in units installed on the intelligent PON gateway are connected to the cloud server, the testing platform can be managed through the WebUI, meanwhile, the mobile intelligent terminal provided with the plug-in unit client can be used for simulating user operation, and the performance of the plug-in units in the actual network environment can be better tested in the mode.

Example 5:

on the basis of embodiment 4, referring to fig. 5, communication is performed between the intelligent PON gateway, the server device and the client device based on TCP, MQTT, HTTP and WebSocket protocols, the first interface is an MQTT interface, and the second interface is a Web interface. Further, the first operation instruction is sent through a command line management interface or WebUI preset on the software equipment; and sending the second operation instruction through the WebUI. Further, the first operation instruction comprises installation, starting, unloading and functional testing of the test plug-in, and the second operation instruction further comprises creation of a test task and configuration of a test environment on the basis of the first operation instruction.

It should be noted that, the MQTT protocol is a lightweight messaging protocol based on a publish/subscribe mode, and is generally used for communication between devices of the internet of things, and provides an efficient, reliable and flexible message transmission mechanism, and tests or manages the test plug-in a manner of sending an MQTT message through the MQTT interface based on the MQTT protocol; the Web interface communicates through the HTTP protocol, through which data exchange with the Web server, downloading test plug-ins, etc. can be realized.

Example 6:

the invention also provides a testing and managing method for the intelligent PON gateway plug-in, which is shown by combining with the figure 2, and is characterized by comprising the following steps:

s100, cutting out a hardware device and constructing the hardware device as a hardware system, and then cutting out a software device and constructing the software device as a software system;

s101, constructing the hardware system, the software system and the intelligent PON gateway into an integral system, and configuring corresponding authentication information;

s102, authenticating and managing the intelligent PON gateway, and testing and verifying functions of the intelligent PON gateway and the testing plug-in.

Further, the testing verifies functions of the intelligent PON gateway and a test plug-in comprising: performing a function test to verify whether the functions of the intelligent PON gateway and the test plug-in work according to expectations; performing performance test to evaluate the performance and stability of the intelligent PON gateway under the high-load condition; and performing security tests to ensure that security protection measures of the intelligent PON gateway are effective so as to prevent unauthorized access or attack.

General test procedure:

according to the above several system modes, any one of the equipment authentication information is built, if the equipment authentication information is not configured, any equipment can be connected to the test platform, the intelligent PON gateway equipment is connected to the test platform, whether the intelligent PON gateway plug-in can initiate connection to the core system can be verified (if the connection failure is caused by the problem of network communication through packet grabbing analysis, the reason is further checked), and whether the identity authentication function of the test plug-in is effective or not;

after the intelligent PON gateway passes the authentication and is online in the system, plug-in installation, starting and unloading tests can be carried out on the equipment, and whether the plug-in can correctly execute the operation or not is detected;

after the intelligent PON gateway is ensured to be on line, function test can be carried out on the installed or preset plug-in, an instruction is given to the plug-in a mode of simulating and sending the MQTT message, a return result of the plug-in is displayed, whether the plug-in works normally is detected, and a plug-in developer is helped to check the problem.

Although the invention has been described herein with reference to the above-described illustrative embodiments thereof, the above-described embodiments are merely preferred embodiments of the present invention, and the embodiments of the present invention are not limited by the above-described embodiments, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the scope and spirit of the principles of this disclosure.

Claims (9)

1. An intelligent PON gateway plug-in test management system, comprising: the intelligent PON gateway comprises a test platform and an intelligent PON gateway, wherein the test platform is in communication connection with the intelligent PON gateway, the test platform comprises hardware equipment and software equipment, and a test plug-in is installed on the intelligent PON gateway; wherein, the test platform specifically includes:

and (3) a cutting module: the hardware device is used for cutting out and constructing a hardware system, and then the software device is cut out and constructed into a software system;

the system building module is used for building the hardware system, the software system and the intelligent PON gateway into an integral system and configuring corresponding authentication information;

and the test management module is used for authenticating and managing the intelligent PON gateway and testing and verifying the functions of the intelligent PON gateway and the test plug-in.

2. The intelligent PON gateway plug-in test management system according to claim 1, wherein tailoring the hardware and software devices comprises: and selecting different hardware devices to construct a hardware system according to the requirements, evaluating the software requirements according to the hardware system, and selecting corresponding software devices to construct a corresponding software system, so that the functions and the sizes of the whole system are adjusted.

3. The intelligent PON gateway plug-in test management system according to claim 1, wherein the hardware device comprises a server device, the software device comprises a core system disposed on the server device, the test management module comprising:

the first information receiving module is used for receiving the connection request of the intelligent PON gateway through a first interface and verifying the authentication information and the connection state of the test plug-in; wherein the first interface is an interface between the test plug-in and a server device;

the first information sending module is used for sending a first operation instruction to the intelligent PON gateway through the first interface, wherein the first operation instruction comprises installation, starting, unloading and function testing of the test plug-in;

and the first information acquisition module is used for acquiring a result obtained by the intelligent PON gateway based on the first operation instruction through the first interface.

4. A smart PON gateway plug-in test management system according to claim 3, wherein the software device is trimmed by a trim configuration tool preset in the test platform, and the core system is developed using a nodebs for providing TCP, MQTT, HTTP, webSocket communication services.

5. The intelligent PON gateway plug-in test management system of claim 4, wherein the hardware apparatus further comprises a headend apparatus communicatively coupled to a server apparatus and an intelligent PON gateway.

6. The intelligent PON gateway plug-in test management system according to claim 5, wherein the hardware device further comprises a client device, the software device further comprising a database preset on the server device and a plug-in client deployed on the client device, the server device being communicatively connected to the client device; the test management module further comprises:

the second information receiving module is used for receiving a connection request and a second operation instruction of the client device through a second interface and verifying authentication information of the plug-in client and the second operation instruction; the second interface is an interface between the plug-in client and the server equipment, and the second operation instruction further comprises a test task creation and test environment configuration on the basis of the first operation instruction;

the judging module is used for judging an execution object of the second operation instruction;

the information processing module is used for executing the second operation instruction or sending the second operation instruction to the intelligent PON gateway through the first interface;

the second information acquisition module is used for acquiring a result obtained by the intelligent PON gateway based on the second operation instruction through a first interface;

the second information sending module is used for sending the result to the client device through a second interface and sending the result to the database at the same time;

and the storage module is used for collecting data through the database and analyzing the result.

7. The intelligent PON gateway plug-in test management system according to claim 6, wherein communications are performed between the intelligent PON gateway, the server device and the client device based on TCP, MQTT, HTTP and WebSocket protocols, the first interface is an MQTT interface, and the second interface is a Web interface.

8. The intelligent PON gateway plug-in testing management method is characterized by comprising the following steps of:

s100, cutting out a hardware device and constructing the hardware device as a hardware system, and then cutting out a software device and constructing the software device as a software system;

s101, constructing the hardware system, the software system and the intelligent PON gateway into an integral system, and configuring corresponding authentication information;

s102, authenticating and managing the intelligent PON gateway, and testing and verifying functions of the intelligent PON gateway and the testing plug-in.

9. The intelligent PON gateway card test management method according to claim 8, wherein the testing verifies functions of the intelligent PON gateway and a test card comprises: performing a function test to verify whether the functions of the intelligent PON gateway and the test plug-in work according to expectations; performing performance test to evaluate the performance and stability of the intelligent PON gateway under the high-load condition; and performing security tests to ensure that security protection measures of the intelligent PON gateway are effective so as to prevent unauthorized access or attack.