CN110233772A - A kind of view networked system test method and device - Google Patents

Abstract

Embodiments of the present invention provide a method and device for testing a video networking system, which are applied to video networking. The video networking system includes a video networking server and a video networking terminal connected by communication. The method includes: sending a connection request to the video networking server, establishing The communication connection with the Internet of Vision server, when the communication connection is successfully established, the meeting list is sent to the Internet of Vision server, and when the Internet of Vision server receives the meeting list, the video conference start instruction is sent to the Internet of Vision server, and the instruction for starting the video conference indicates that the Internet of Vision The server establishes a video conference according to the conference list, receives the third result information sent by the video network server indicating that the video conference is successfully established, and establishes a communication connection with the video network server to send a control command to the video network server, so that the video network system automatically and quickly Carrying out the business corresponding to the control command can quickly and accurately detect the stability of the Internet of Vision system and find the functional defects of the Internet of Vision system.

Description

A method and device for testing an Internet-of-Vision system

technical field

The invention relates to the technical field of the Internet of Vision, in particular to a method and device for testing an Internet of Vision system.

Background technique

The Internet of View is an important milestone in the development of the Internet, a more advanced form of the Internet, and a real-time network that can realize real-time transmission of high-definition video across the entire network.

However, in the prior art, after completing the construction of the entire Internet of Vision system, various tests on the Internet of Vision system can only be performed manually to test the stability of the Internet of Vision system and detect whether there are functional defects in the Internet of Vision system. . However, manual testing cannot automatically and quickly test the entire Internet of Vision system, and the testing efficiency is low.

Contents of the invention

In view of the above problems, embodiments of the present invention are proposed to provide a method and device for testing an Internet of Vision system that overcomes the above problems or at least partially solves the above problems.

In the first aspect of the embodiments of the present invention, a method for testing a video networking system is provided. The method is applied to a video networking system. The video networking system includes at least one video networking server, and the video networking server and at least one video networking terminal A communication connection, the method comprising:

Send a connection request to the Internet of Vision server, and the connection request is used to establish a communication connection with the Internet of Vision server;

receiving the first result information sent by the Internet of Vision server, the first result information indicating that the communication connection is successfully established, and sending at least one meeting list to the Internet of Vision server according to the first result information, the meeting The list instructs the Internet of Things server to send the second result information;

receiving second result information sent by the Internet of Vision server, the second result information indicating that the Internet of Vision server has received the at least one meeting list;

According to the second result information, send a video conference start instruction to the video networking server, the video conference start instruction instructs the video networking server to establish a video conference according to the conference list, and instructs the video networking server to send the first video conference 3 result information;

receiving third result information sent by the video networking server, where the third result information indicates that the video conference is established successfully.

In the second aspect of the embodiment of the present invention, there is provided a testing device for a networking system, the device is applied to networking, and the networking system includes at least one networking server, and the networking server and at least one networking terminal communication connection, said means comprising:

A sending module, configured to send a connection request to the Internet-of-Vision server, where the connection request is used to establish a communication connection with the Internet-of-Vision server;

The sending module is also configured to receive first result information sent by the Internet of Vision server, the first result information indicates that the communication connection is established successfully, and according to the first result information, send at least a conference list, the conference list instructs the video networking server to send the second result information;

A receiving module, configured to receive second result information sent by the Internet of Vision server, the second result information indicating that the Internet of Vision server has received the at least one meeting list;

The sending module is further configured to send an instruction to start a video conference to the Internet of View server according to the second result information, the instruction to start a video conference instructs the Internet of View server to establish a video conference according to the conference list, and instructs the Internet of View server to establish a video conference according to the conference list The Internet of View server sends third result information;

The receiving module is further configured to receive third result information sent by the video networking server, where the third result information indicates that the video conference is established successfully.

Embodiments of the present invention include the following advantages:

In the embodiment of the present invention, a connection request is sent to the Internet of Vision server, and a communication connection with the Internet of Vision server is established. When the communication connection is successfully established, at least one meeting list is sent to the Internet of Vision server. When the Internet of Vision server When receiving the conference list, send a video conference start instruction to the video networking server, the video conference start instruction instructs the video networking server to establish a video conference according to the conference list, and receive the first video conference sent by the video networking server Three result information, the third result information indicates that the video conference is established successfully. By establishing a communication connection with the Internet of Vision server and sending control instructions to the Internet of Vision server according to requirements, the Internet of Vision system can automatically and quickly perform the business corresponding to the control command, and detect the operating status of the Internet of Vision system, which can quickly and accurately detect the Internet of Vision system. stability, and found functional defects in the Internet of Things system.

Description of drawings

Fig. 1 is a schematic diagram of networking of a video network in the prior art;

FIG. 2 is a schematic diagram of a hardware structure of a node server in the prior art;

FIG. 3 is a schematic diagram of a hardware structure of an access switch in the prior art;

FIG. 4 is a schematic diagram of a hardware structure of an Ethernet protocol conversion gateway in the prior art;

Fig. 5 is a schematic structural diagram of a visual networking test system provided by an embodiment of the present invention;

FIG. 6 is a flow chart of the steps of a method for testing an Internet of Vision system provided by an embodiment of the present invention;

FIG. 7 is a signaling flow chart of a testing method for a networking system provided by an embodiment of the present invention;

FIG. 8 is a structural block diagram of a testing device for a networking system provided by an embodiment of the present invention.

Detailed ways

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

The Internet of Vision is an important milestone in the development of the network. It is a real-time network that can realize real-time transmission of high-definition video, and push many Internet applications to high-definition video, high-definition face-to-face.

The Internet of View adopts real-time high-definition video exchange technology, which can provide required services on one network platform, such as high-definition video conferencing, video surveillance, intelligent monitoring and analysis, emergency command, digital broadcast TV, time-lapse TV, online teaching, live broadcast , VOD on demand, TV mail, personalized recording (PVR), intranet (self-managed) channel, intelligent video broadcast control, information release and other dozens of video, voice, picture, text, communication, data and other services are all integrated in one System platform, realize high-definition quality video playback through TV or computer.

In order to enable those skilled in the art to better understand the embodiments of the present invention, the Internet of Things is introduced as follows:

Some of the technologies applied in the Internet of Things are as follows:

Network Technology

The network technology innovation of the Internet of View has improved the traditional Ethernet (Ethernet) to face the potentially huge video traffic on the network. Different from pure network packet switching (Packet Switching) or network circuit switching (Circuit Switching), video networking technology uses Packet Switching to meet Streaming requirements. The Internet of Vision technology has the flexibility, simplicity and low price of packet switching, and at the same time has the quality and security guarantee of circuit switching, realizing the seamless connection of switched virtual circuits and data formats throughout the network.

Switching Technology

Video networking adopts the two advantages of Ethernet asynchronous and packet switching, eliminates the defects of Ethernet under the premise of full compatibility, has end-to-end seamless connection of the whole network, directly connects to user terminals, and directly carries IP data packets. User data does not require any format conversion within the entire network. Video networking is a more advanced form of Ethernet. It is a real-time switching platform, which can realize the real-time transmission of large-scale high-definition video in the whole network that cannot be realized by the Internet at present, and push many network video applications to high-definition and unification.

Server Technology

The server technology on the Internet of View and unified video platform is different from the server in the traditional sense. Its streaming media transmission is based on connection-oriented, and its data processing capability has nothing to do with traffic and communication time. A single network layer can contain information command and data transmission. For voice and video services, the complexity of video streaming and unified video platform streaming media processing is much simpler than data processing, and the efficiency is greatly improved by more than 100 times compared with traditional servers.

Storage Technology

The ultra-high-speed storage technology of the unified video platform adopts the most advanced real-time operating system in order to adapt to the super-large capacity and super-large-flow media content, and maps the program information in the server command to the specific hard disk space, and the media content no longer passes through the server. It is delivered directly to the user terminal in an instant, and the user generally waits for less than 0.2 seconds. The optimized sector distribution greatly reduces the mechanical movement of the hard disk head seeking. The resource consumption is only 20% of the IP Internet of the same level, but the concurrent traffic generated is 3 times larger than that of the traditional hard disk array, and the overall efficiency is increased by more than 10 times.

Network Security Technology

The structural design of the Internet of View completely eradicates the network security problems that plague the Internet through the individual licensing system for each service, complete isolation of equipment and user data, and generally does not require anti-virus programs and firewalls, preventing hackers and virus attacks , to provide users with a structured worry-free security network.

Service Innovation Technology

The unified video platform integrates business and transmission together, whether it is a single user, a private network user or the sum of a network, it is just an automatic connection. User terminals, set-top boxes or PCs are directly connected to the unified video platform to obtain rich and colorful multimedia video services in various forms. The unified video platform adopts the "recipe-style" table matching mode to replace the traditional complex application programming. It can realize complex applications with very little code and realize "unlimited" new business innovations.

The networking of the Internet of View is as follows:

Vision networking is a network structure with centralized control. The network can be a tree network, star network, ring network, etc., but on this basis, a centralized control node is required in the network to control the entire network.

As shown in Figure 1, the Internet of Things is divided into two parts: the access network and the metropolitan area network.

The equipment in the access network part can be mainly divided into three categories: node server, access switch, terminal (including various set-top boxes, encoding boards, storage, etc.). The node server is connected with the access switch, and the access switch can be connected with multiple terminals and can be connected with Ethernet.

Wherein, the node server is a node with centralized control function in the access network, which can control the access switches and terminals. The node server can be directly connected to the access switch, and can also be directly connected to the terminal.

Similarly, the devices in the MAN part can also be divided into three categories: MAN servers, node switches, and node servers. The metro server is connected to the node switch, and the node switch can be connected to multiple node servers.

Wherein, the node server is the node server of the access network part, that is, the node server belongs to both the access network part and the metropolitan area network part.

The metropolitan area server is a node with a centralized control function in the metropolitan area network, which can control node switches and node servers. The metro server can be directly connected to the node switch, or directly connected to the node server.

It can be seen that the entire Vision Network is a layered centralized control network structure, while the network controlled by the node server and the metro server can be in various structures such as tree, star, and ring.

Vividly speaking, the access network part can form a unified video platform (the part in the dotted circle), and multiple unified video platforms can form a video network; each unified video platform can be interconnected through the metropolitan area and the wide area video network.

Classification of Internet of Things devices

1.1 The devices in the Internet of View in the embodiment of the present invention can be mainly divided into three categories: servers, switches (including Ethernet gateways), terminals (including various set-top boxes, encoding boards, memory, etc.). As a whole, the Internet of Things can be divided into a metropolitan area network (or a national network, a global network, etc.) and an access network.

1.2 The equipment in the access network can be mainly divided into three categories: node servers, access switches (including Ethernet gateways), terminals (including various set-top boxes, encoding boards, storage, etc.).

The specific hardware structure of each access network device is:

Node server:

As shown in Figure 2, it mainly includes a network interface module 201, a switching engine module 202, a CPU module 203, and a disk array module 204;

Wherein, network interface module 201, the bag that CPU module 203, disk array module 204 come in all enters switching engine module 202; The guide information of packet stores this packet into the queue of corresponding packet buffer 206; If the queue of packet buffer 206 is close to full, then discards; Switching engine module 202 polls all packet buffer queues, and forwards if the following conditions are met: 1) The sending buffer of the port is not full; 2) The queue packet counter is greater than zero. Disk array module 204 mainly realizes the control to hard disk, comprises operations such as the initialization of hard disk, read and write; (including downlink protocol packet address table, uplink protocol packet address table, and data packet address table), and configuration of the disk array module 204 .

Access switch:

As shown in Figure 3, mainly comprise network interface module (downlink network interface module 301, uplink network interface module 302), switching engine module 303 and CPU module 304;

Wherein, the packet (upstream data) that the downstream network interface module 301 comes in enters the packet detection module 305; Whether the destination address (DA), source address (SA), data packet type and packet length of the packet detection module 305 detection packet meet the requirements, if Meet, then distribute corresponding flow identifier (stream-id), and enter switching engine module 303, otherwise discard; The packet (downstream data) that upstream network interface module 302 comes in enters switching engine module 303; The data packet that CPU module 304 comes in Enter switching engine module 303; Switching engine module 303 carries out the operation of looking into address table 306 to the bag that comes in, thereby obtains the guiding information of packet; If the bag that enters switching engine module 303 is that downlink network interface goes to uplink network interface, then combines Flow identifier (stream-id) stores this packet into the queue of corresponding packet cache 307; If the queue of this packet cache 307 is close to full, then discards; If the packet that enters switching engine module 303 is not downlink network interface, goes up If the data packet is sent to the network interface, the data packet is stored in the queue of the corresponding packet buffer 307 according to the direction information of the packet; if the queue of the packet buffer 307 is nearly full, it is discarded.

Switching engine module 303 polls all packet buffer queues, divides two kinds of situations in the embodiment of the present invention:

If the queue goes from the downlink network interface to the uplink network interface, the following conditions are met for forwarding: 1) the port sending buffer is not full; 2) the queue packet counter is greater than zero; 3) the token generated by the code rate control module is obtained ;

If the queue does not go from the downlink network interface to the uplink network interface, the following conditions are met for forwarding: 1) the sending buffer of the port is not full; 2) the packet counter of the queue is greater than zero.

The code rate control module 308 is configured by the CPU module 304 to generate tokens for all packet buffer queues going from the downlink network interface to the uplink network interface within a programmable interval to control the uplink forwarding code rate.

The CPU module 304 is mainly responsible for protocol processing with the node server, configuration of the address table 306 , and configuration of the code rate control module 308 .

Ethernet protocol conversion gateway :

As shown in Figure 4, it mainly includes network interface modules (downlink network interface module 401, uplink network interface module 402), switching engine module 403, CPU module 404, packet detection module 405, code rate control module 408, address table 406, packet Buffer 407 and MAC addition module 409 , MAC deletion module 410 .

Wherein, the data packet coming in from the downlink network interface module 401 enters the packet detection module 405; the packet detection module 405 detects the Ethernet MAC DA, Ethernet MAC SA, Ethernet length or frame type, visual networking destination address DA, visual networking Source address SA, depending on whether the network data packet type and packet length meet the requirements, if so, assign the corresponding stream identifier (stream-id); then, subtract MAC DA, MAC SA, length or frame type by the MAC deletion module 410 (2byte), and enter the corresponding receiving buffer, otherwise discard;

The downlink network interface module 401 detects the sending buffer of the port, if there is a packet, the Ethernet MAC DA of the corresponding terminal is known according to the visual network destination address DA of the packet, and the Ethernet MAC DA of the terminal, the MACSA of the Ethernet protocol conversion gateway, and the MACSA of the Ethernet protocol conversion gateway are added. Ethernet length or frame type, and send.

The functions of other modules in the Ethernet protocol conversion gateway are similar to those of the access switch.

terminal:

It mainly includes a network interface module, a business processing module and a CPU module; for example, a set-top box mainly includes a network interface module, an video and audio codec engine module, and a CPU module; an encoding board mainly includes a network interface module, an video and audio encoding engine module, and a CPU module; It mainly includes network interface module, CPU module and disk array module.

1.3 The equipment of the metropolitan area network can be mainly divided into two categories: node server, node switch, and metropolitan area server. Among them, the node switch mainly includes a network interface module, a switching engine module and a CPU module; the metro server mainly includes a network interface module, a switching engine module and a CPU module.

2. Definition of Internet of Things data package

2.1 Definition of access network data packet

The data packet of the access network mainly includes the following parts: destination address (DA), source address (SA), reserved bytes, payload (PDU), and CRC.

As shown in the table below, the data packets of the access network mainly include the following parts:

DA SA Reserved Payload CRC

in:

The destination address (DA) consists of 8 bytes (byte), the first byte indicates the type of data packet (such as various protocol packets, multicast data packets, unicast data packets, etc.), there are up to 256 possibilities, The second byte to the sixth byte is the address of the metropolitan area network, and the seventh and eighth bytes are the address of the access network;

The source address (SA) is also composed of 8 bytes (byte), and the definition is the same as that of the destination address (DA);

Reserved bytes consist of 2 bytes;

The payload part has different lengths according to different datagram types. If it is a variety of protocol packets, it is 64 bytes. If it is a single multicast data packet, it is 32+1024=1056 bytes. Of course, it is not limited to Above 2 types;

CRC consists of 4 bytes, and its calculation method follows the standard Ethernet CRC algorithm.

2.2 MAN packet definition

The topology of the metropolitan area network is a graph. There may be two or even more than two types of connections between two devices, that is, there may be more than 2 connections between node switches and node servers, node switches and node switches, and node switches and node servers. kind of connection. However, the MAN address of the MAN device is unique. In order to accurately describe the connection relationship between MAN devices, a parameter: label is introduced in the embodiment of the present invention to uniquely describe a MAN device.

The definition of labels in this manual is similar to the definition of labels in MPLS (Multi-Protocol Label Switch, Multi-Protocol Label Switching). Assuming that there are two connections between device A and device B, then the data packets from device A to device B have 2 labels, the packet from device B to device A also has 2 labels. The label is divided into an incoming label and an outgoing label. Assuming that the label (incoming label) of the data packet entering device A is 0x0000, the label (outgoing label) of the data packet when it leaves device A may become 0x0001. The network access process of the metropolitan area network is a network access process under centralized control, which means that the address allocation and label allocation of the metropolitan area network are all dominated by the metropolitan area server, and the node switches and node servers are all passively executed. Different from MPLS label allocation, MPLS label allocation is the result of mutual negotiation between switches and servers.

As shown in the table below, the data packet of the MAN mainly includes the following parts:

DA SA Reserved Label Payload CRC

That is, destination address (DA), source address (SA), reserved byte (Reserved), label, payload (PDU), and CRC. Among them, the format of the label can refer to the following definition: the label is 32bit, of which the high 16bit is reserved, and only the low 16bit is used, and its position is between the reserved byte of the data packet and the payload.

Referring to FIG. 5, FIG. 5 is a schematic structural diagram of a video networking test system provided by an embodiment of the present invention. As shown in FIG. 5, the video networking testing system includes a test terminal, a video networking server 1, a video networking server 2, a video Networking server 3, networking terminal 1, networking terminal 2, networking terminal 3, networking terminal 4, networking terminal 5, networking terminal 6, networking terminal 7, networking terminal 8 and networking terminal 9.

Wherein, the test terminal may be any user terminal that can be connected to the Internet, such as a mobile phone, a computer, a tablet computer and other user terminals. The test terminal is used to connect to the Internet of Vision server and send control instructions to the Internet of Vision server. Referring to FIG. The entire visual networking system is controlled by the test terminal for testing. The Internet of Vision server 1 , the Internet of Vision server 2 and the Internet of Vision server 3 can be any Internet of Vision servers applied in the Internet of Vision system. The Internet-of-Vision terminal 1, the Internet-of-Vision terminal 2, the Internet-of-Vision terminal 3, the Internet-of-Vision terminal 4, the Internet-of-Vision terminal 5, the Internet-of-Vision terminal 6, the Internet-of-Vision terminal 7, the Internet-of-Vision terminal 8 and the Internet-of-Vision terminal 9 can be applied to video- Any user terminal in the network that can conduct video conferencing. In this embodiment, no limitation is imposed on the test terminal, the Internet of View server, and the Internet of View terminal.

The test terminal is respectively connected to the Internet of View server 1, the Internet of View server 2 and the Internet of View server 3 through the Internet. The video networking server 1, the video networking server 2 and the video networking server 3 are connected through the video networking to establish a video conference between different video networking servers. The Internet of Vision server 1 is communicatively connected with the Internet of Vision terminal 1 , the Internet of Vision terminal 2 , and the Internet of Vision terminal 3 through the Internet of Vision. The Internet-of-Vision server 2 is connected to the Internet-of-Vision terminal 4, the Internet-of-Vision terminal 5 and the Internet-of-Vision terminal 6 via the Internet of Vision. The Internet of Vision server 3 is communicatively connected with the Internet of Vision terminal 7 , the Internet of Vision terminal 8 and the Internet of Vision terminal 9 through the Internet of Vision. The test terminal sends instructions to the Internet of Things server 1, the Internet of Things server 2 and the Internet of Things server 3, and controls the Internet of Things server 1, the Internet of Things server 2 and the Internet of Things server 3 to perform corresponding operations for system testing.

Referring to FIG. 6, FIG. 6 is a flow chart of the steps of a method for testing the Internet of Vision system provided by the embodiment of the present invention. The method is applied to the Internet of Vision. Detect the stability of the Internet of Vision system and find out the functional defects of the Internet of Vision system. The method for testing the Internet of Vision system provided in this embodiment can be executed by the Internet of Vision system testing device, and the testing device for the Internet of Vision system can be deployed on the test terminal. The method for testing the Internet of Vision system may specifically include the following steps:

S601. Send a connection request to the Internet of Vision server, where the connection request is used to establish a communication connection with the Internet of Vision server.

In this embodiment, one or more networking servers may be set in the networking system, and one or more networking terminals are mounted under each networking server. A plurality of Internet of Vision servers are connected through Internet of Vision communication, and each Internet of Vision server and its attached Internet of Vision terminals are connected through Internet of Vision communication, and a Network of Vision system is composed of a plurality of Internet of Vision servers and Internet of Vision terminals.

In actual use, the test terminal communicates with the Internet of Things server through the Internet. Specifically, the test terminal can send a connection request to the Internet of Vision server that needs to be tested, for example, the connection request can be sent to at least one Internet of Vision server, and the connection request can include an account number and password to log in at least one Internet of Vision server.

For example, when establishing a video conference to test the operation status of the Internet of Vision server 1 and all the Internet of Vision terminals mounted thereon, during the test, the Internet of Vision server that needs to establish a communication connection is the Internet of Vision server 1, and the test terminal can only communicate with the Internet of Vision The networking server 1 sends a connection request for establishing a communication connection between the networking server 1 and the test terminal.

Or, for example, when establishing a plurality of video conferences to test the communication connection status between the Internet-based server 1, the Internet-based server 2 and the Internet-based server 3, the Internet-based server that needs to establish a communication connection is the Internet-based server 1, the Internet-based server 2 and Vision Server 3, the test terminal can send connection requests to Vision Server 1, Vision Server 2 and Vision Server 3 at the same time, or send a connection request to Vision Server 1 first, and then send a connection to Vision Server 2 Request, and finally send a connection request to the Internet of Vision server 3 for establishing a communication connection between the test terminal and the Internet of Vision server 1, a communication connection between the test terminal and the Internet of Vision server 2, and a communication connection between the test terminal and the Internet of Vision server 3. The embodiment of the present invention does not limit the order in which the test terminal sends the connection request to the Internet of View server.

After receiving the connection request sent by the test terminal, the Internet-based server can verify the identity of the test terminal according to the account number and password included in the connection request. When the identity verification of the test terminal passes, the communication connection with the test terminal is established and the identification communication is sent. The first result information of successful connection establishment is sent to the test terminal. Wherein, a pre-set account number and password for testing are stored in the Internet of View server, and when the account number and password included in the connection request received by the Internet of View server are consistent with the saved account number and password for testing in advance, an account and password for testing are established. A communication connection with the test terminal that sent the connection request. In this embodiment, the test terminal and the video networking server may also establish a communication connection in other ways, and the present invention does not limit the establishment process and method of the communication connection.

S602. Receive the first result information sent by the Internet of Vision server. The first result information indicates that the communication connection is established successfully. According to the first result information, send at least one conference list to the Internet of Vision server. The meeting list instructs the Internet of Vision server to send the second result information. .

In this embodiment, when the test terminal receives the first result information sent by the video network server to identify the successful establishment of the communication connection, it sends at least one conference list to the video conference server that needs to establish a video conference during the test process, and receives the conference list. The video networking server may establish a video conference corresponding to each conference list according to the received at least one conference list.

In actual use, the conference list may include a conference identifier and at least one Internet of Vision terminal identifier. The video network server establishes a video conference corresponding to the conference ID through the conference ID, and each conference ID corresponds to a unique video conference. Each Internet of Vision terminal identifier is used to uniquely identify the Internet of Vision terminal mounted under the Internet of Vision server, that is, each Internet of Vision terminal identifier corresponds to a unique Internet of Vision terminal.

Specifically, there may be one or more Internet of Vision servers used in each test process, and one or more Internet of Vision terminals mounted under each Internet of Vision server. There may be one or more video conferences established during each test, and one or more video networking servers and video networking terminals included in each video conference. When a video conference needs to be established, the test terminal can send a conference list corresponding to the video conference to a video networking server included in the video conference, or a plurality of video networking servers included in the video conference. When multiple video conferences need to be established, the test terminal can send each conference list corresponding to each video conference to one or more video networking servers included in each video conference.

For example, in combination with the example introduction of testing the operation status of the Internet of Vision server 1 and all the Internet of Vision terminals mounted therein in step S601, it is only necessary to establish a video conference including the Internet of Vision terminal 1, the Internet of Vision terminals 2 and the Internet of Vision terminals 3 . When the test terminal receives the first result information sent by the Internet of Vision server 1 , the first result information indicates that the communication connection between the test terminal and the Internet of Vision server 1 is established successfully. At this time, the test terminal sends a conference list to the Internet of Vision server 1, which contains the unique conference identifier and the Internet of Vision of the Internet of Vision terminals 1, 2 and 3 of the Internet of Vision servers mounted on the Internet of Vision server 1. Terminal ID.

Or, for example, in conjunction with the example introduction of testing the communication connection status between the Internet of Vision server 1, the Internet of Vision server 2 and the Internet of Vision server 3 in the step of S601, two video conferences in total of the first video conference and the second video conference can be established . When the test terminal receives the first result information sent by the Internet of Vision server 1, the Internet of Vision server 2 and the Internet of Vision server 3 respectively, the first result information indicates that the communication connection between the test terminal and the Internet of Vision server 1 is successfully established, and the test terminal and the Internet of Vision server 1 are connected successfully. The communication connection between the networking servers 2 is successfully established, and the communication connection between the test terminal and the visual networking server 3 is successfully established. Among them, the first meeting list corresponding to the first video conference includes the Internet-based video terminal 1, the Internet-based video terminal 4, and the Internet-based video terminal 7, and the second meeting list corresponding to the second video conference includes the Internet-based video terminal 2, the Internet-based video terminal 5, and the Internet-based video terminal 7. Networking terminal 8. Wherein the first video conference and the second video conference can select multiple or one video networking terminals, and can be multiple video networking terminals under the same video networking server, or different video networking terminals under different video networking servers. Internet-based terminal. At this time, the test terminal sends the first conference list for establishing the first video conference and the second conference list for establishing the second video conference to the video network server 1, the video network server 2 and the video network server 3 respectively, wherein the first conference list Including the first meeting logo, and the video networking terminal identification of the video networking terminal 1, the video networking terminal 4 and the video networking terminal 7; the second meeting list includes the second meeting logo, and the video networking terminal 2, the video networking terminal 5 and the video networking terminal 7 The Internet of Things terminal identifier of the terminal 8.

S603. Receive second result information sent by the Internet of Vision server, where the second result information indicates that the Internet of Vision server has received at least one meeting list.

In this embodiment, after the video network server receives the conference list for establishing a video conference, it returns the second result information to the test terminal, and notifies the test terminal that it can send the video conference start instruction to the video network server according to the second result information to start establishing a video conference corresponding to the received conference list, so as to test the Internet of Vision system.

For example, in conjunction with the example introduction of testing the operation status of the Internet of Vision server 1 and all the Internet of Vision terminals mounted therein in steps S601 to S602, after the Internet of Vision server 1 receives the conference list, it sends the second result information to the test terminal. The second result information indicates that the video network server 1 has received the meeting list, and the second result information may include a meeting identifier. Since the meeting identifier corresponding to the meeting list is stored in the test terminal, the test terminal stores the meeting identifier and the meeting identifier included in the second result information locally. If the match is successful, then the test terminal determines that the Internet of Vision server 1 has received the meeting list corresponding to the meeting identification, and can start testing the operating conditions of the Internet of Vision server 1 and all Internet of Vision terminals mounted thereon.

Or, in conjunction with S601 to S602 steps to test the communication connection status between the Internet of Vision server 1, the Internet of Vision server 2 and the Internet of Vision server 3, when setting up the first video conference and the second video conference, the Internet of Vision server 1. After receiving the first meeting list, send the second result information containing the first meeting identifier to the test terminal to notify the test terminal that the video server 1 has received the first conference list; similarly, the video server 1 receives the first conference list; After the second meeting list, send the second result information including the second meeting identifier to the test terminal, and notify the test terminal that the Internet server 1 has received the second meeting list. Wherein, the video network server 1 can send the second result information containing the first conference ID and the second result information containing the second conference ID at the same time, or can first send the second result information containing the first conference ID, and then send the second result information containing the first conference ID. The second result information of the second meeting identifier, which is not limited in the present invention. The process of sending the second result information by the Internet of Vision server 2 and the Internet of Vision server 3 is similar to that of the Internet of Vision server 1 , and will not be repeated here.

It should be noted that the second result information sent by the Internet of Vision server may include the identification of the Internet of Vision server and the meeting identification contained in the conference list received by it. The test terminal determines the Internet of Vision server that sends the second result information according to the Internet of Vision server identifier contained in the received second result information, and determines the conference list received by the Internet of Vision server according to the meeting identifier.

S604. According to the second result information, send a video conference start instruction to the Internet of Vision server, and the video conference start instruction instructs the Internet of Vision server to establish a video conference according to the conference list, and instructs the Internet of Vision server to send third result information.

In this embodiment, after the test terminal receives the second result information sent by the Internet of Vision server, it can determine the meeting list received by the Internet of Vision server according to the meeting identifier contained in the second result information, and can control the Internet of Vision server to establish a connection with the second 2. The video conference corresponding to the conference ID included in the result information. At this point, the test terminal sends a video conference start command including the meeting identifier to the corresponding video networking server, instructing the corresponding video networking server to establish a video conference corresponding to the conference ID included in the starting video conference command. After receiving the conference start instruction, the video network server determines a conference list according to the conference identifier, and establishes a corresponding video conference according to the determined conference list.

For example, in conjunction with the example introduction of testing the operation status of the Internet of Vision server 1 and all the Internet of Vision terminals mounted therein in steps S601 to S603, the test terminal sends a start video conference instruction after receiving the second result information containing the meeting identifier , corresponding to the start video conference instruction includes a conference identifier. After receiving the start video conference instruction containing the meeting ID, the video networking server 1 determines the conference list corresponding to the conference ID, and establishes a video conference corresponding to the conference ID, and sends the video networking terminal included in the conference list 1. The video network terminal 2 and the video network terminal 3 access the video conference.

Or, for example, in conjunction with the example introduction of testing the communication connection status between the Internet of Vision server 1, the Internet of Vision server 2 and the Internet of Vision server 3 in steps S601 to S603, when the test terminal determines that the Internet of Vision server 1 has received the first conference list After the second conference list, the test terminal sends the first start video conference instruction corresponding to the first conference list and the second start video conference instruction corresponding to the second conference list to the Internet of View server 1, wherein the first start video conference instruction The first conference ID is included, and the second start video conference instruction includes the second conference ID. Similarly, when the test terminal determines that the video network server 2 has received the first conference list and the second conference list, the test terminal sends the first video conference start command and the second video conference start command to the video network server 2. When the test terminal determines that After the Internet of Vision server 3 receives the first meeting list and the second meeting list, the test terminal sends the first video conference start instruction and the second video conference start instruction to the Internet of View server 3 . After the video network server 1 receives the first start video conference instruction, it determines the first meeting list according to the first meeting identifier contained in the first start video conference instruction, and establishes the first meeting identifier corresponding to the first meeting list according to the first meeting list. A video conference, and respectively connect the video network terminal 1, the video network terminal 4 and the video network terminal 7 into the first video conference. Similarly, after the video network server 2 receives the first start video conference instruction, the video network terminal 1, the video network terminal 4 and the video network terminal 7 are connected to the first video conference, and the video network server 3 receives the first video conference start instruction Afterwards, the Internet-of-Vision terminal 1, the Internet-of-Vision terminal 4, and the Internet-of-Vision terminal 7 are connected to the first video conference. Similarly, after receiving the second start video conference instruction respectively, the video network server 1, the video network server 2 and the video network server 3 determine the second conference list according to the second meeting identifier contained in the second video conference start instruction, and according to The second conference list establishes a second video conference corresponding to the second conference ID, and respectively connects the video-networking terminal 2 , the video-networking terminal 5 and the video-networking terminal 8 into the second video conference.

S605. Receive third result information sent by the video network server, where the third result information indicates that the video conference is established successfully.

In this embodiment, after establishing the video conference according to the start video conference instruction, the video network server returns the third result information to the test terminal, notifying the test terminal that the video conference is established successfully. Specifically, each third result information includes a conference identifier, and the test terminal can determine a successfully established video conference according to the conference identifier included in the third result information.

For example, in conjunction with the example introduction of testing the operating conditions of the Internet of Vision server 1 and all the Internet of Vision terminals mounted therein in steps S601 to S604, when the Internet of Vision server 1 is establishing a video conference, and the Internet of Vision terminal 1 and the Internet of Vision terminals After 2 and the Internet-of-Vision terminal 3 access the video conference, the third result information indicating that the video conference is successfully established is sent to the test terminal, wherein the third result information includes the conference identifier. The video network server 1 determines that the video conference corresponding to the conference ID is established successfully according to the third result information including the conference ID.

Or, for example, in conjunction with S601 to S604 steps to test the communication connection status between the Internet of Things server 1, the Internet of Things server 2 and the Internet of Things server 3, when it is necessary to establish the first video conference and the second video conference, After the first video conference is established successfully, one of the Internet of Vision server 1, the Internet of Vision server 2, and the Internet of Vision server 3 may send the third result information containing the first meeting identifier to the test terminal, or the Internet of Vision may send the third result information to the test terminal. The server 1, the video network server 2 and the video network server 3 simultaneously send the third result information including the first meeting ID to the test terminal, and the test terminal determines that the first video conference is established successfully according to the third result information including the first conference ID. After the second video conference is successfully established, one of the Internet of Vision server 1, the Internet of Vision server 2 and the Internet of Vision server 3 may send the third result information containing the second meeting identifier to the test terminal, or the Internet of Vision may send the third result information to the test terminal. The server 1, the video network server 2 and the video network server 3 simultaneously send the third result information including the second meeting ID to the test terminal, and the test terminal determines that the second video conference is established successfully according to the third result information including the second conference ID.

The test method provided by this embodiment sends a connection request to the video network server, establishes a communication connection with the video network server, and when the communication connection is successfully established, sends at least one meeting list to the video network server, and when the video network server receives the conference When listing, send a start video conference instruction to the video network server, and start the video conference command to instruct the video network server to establish a video conference according to the meeting list, and receive the third result information sent by the video network server, and the third result information indicates that the video conference is established successfully. By establishing a communication connection with the Internet of Vision server and sending control instructions to the Internet of Vision server according to requirements, the Internet of Vision system can automatically and quickly carry out the business corresponding to the control command, and detect the operating status of the Internet of Vision system, which can quickly and accurately detect the network of Vision system. Stability, finding functional defects in the Internet of Vision system.

Referring to Fig. 7, Fig. 7 is a signaling flow chart of a method for testing the Internet of Vision system provided by the embodiment of the present invention. In order to test the stability of the Internet of Vision system and discover the functional defects of the Internet of Vision system. The method for testing the Internet of Vision system provided in this embodiment can be executed by the Internet of Vision system testing device, and the testing device for the Internet of Vision system can be deployed on the test terminal. The testing method of the Internet of Vision system may specifically include the following steps:

S701. Send a connection request to the Internet of Vision server, where the connection request is used to establish a communication connection with the Internet of Vision server.

S702. Receive first result information sent by the video networking server, where the first result information indicates that the communication connection is established successfully.

S703. According to the first result information, send at least one meeting list to the Internet of Vision server, and the meeting list instructs the Internet of Vision server to send the second result information.

S704. Receive second result information sent by the Internet of Vision server, where the second result information indicates that the Internet of Vision server has received at least one meeting list.

S705. According to the second result information, send an instruction to start the video conference to the Internet of Vision server, and the instruction to start the video conference instructs the Internet of Vision server to establish a video conference according to the conference list, and instructs the Internet of Vision server to send third result information.

S706. Receive third result information sent by the video network server, where the third result information indicates that the video conference is established successfully.

S707. Receive fourth result information sent by the Internet of Vision server, where the fourth result information indicates the status of the Internet of Vision terminals included in the video conference.

In this embodiment, after the video conference is established by the video network server, it records the state of the video network terminal connected to the video conference, and sends the state of the video network terminal connected to the video conference to the test terminal, and the test terminal can The state of the Internet-of-Vision terminals connected in the conference further determines the running status of each Internet-of-Vision terminal in the Internet-of-Vision system.

S708. Send a control command to the video networking server, and the control command instructs the video networking server to control the video conference.

In this embodiment, after the video conference is established, the test terminal can send a control command to the established video conference, and the video network server can control the operation of the video conference according to the control command after receiving the control command. The corresponding control instruction may also include a meeting identifier, and the Internet-of-Video server determines the video conference according to the meeting identifier included in the control instruction, and controls the determined video conference.

For example, in conjunction with the example introduction of testing the operation status of the Internet of Vision server 1 and all the Internet of Vision terminals mounted therein in steps S601 to S605, when the video conference is established, the test terminal sends a control command containing the conference logo to the Internet of Vision server 1. The video network server 1 determines the video conference according to the conference ID, and controls the video conference corresponding to the conference ID according to the control instruction.

Or, for example, in conjunction with S601 to S605 steps to test the communication connection status between the Internet of Things server 1, the Internet of Things server 2 and the Internet of Things server 3, after the first video conference and the second video conference are successfully established, The test terminal may send a control instruction to the Internet of Things server, and the control instruction may include a first control instruction and a second control instruction. For example, send the first control instruction including the first conference ID to the Internet of Vision server 1 , and send the second control instruction including the second conference ID to the Internet of Vision server 1 . The video networking server 1 determines to control the first video conference according to the first conference identifier, and the video networking server 1 determines to control the second video conference according to the second conference ID. Wherein, the first video conference and the second video conference are relatively independent, the first control command and the second control command can be different or the same, and the test terminal can control the first video conference and the second video conference at the same time, or control the first video conference separately. Video conference and second video conference.

Optionally, the control instruction may include at least one of an instruction to set a chairman, to set a speaker, to add a conference member, to end a conference, and to delete a conference member. The control instruction may also include other instructions, which is not limited in the present invention.

It should be noted that, after receiving the control instruction, the Internet-of-Video server executes corresponding operations according to the functions of the control instruction. For example, when the control command received by the Internet of Vision server 1 is the instruction to set the chairman, the Internet of Vision server 1 determines the Internet of Vision terminal with the identity of the chairman of the conference from the Internet of Vision terminals connected to the video conference, and gives the Internet of Vision terminal with the identity of the chairman of the meeting as the chairman of the meeting. permissions, and at the same time send the audio and video of the conference chairman to other video-connected terminals participating in the video conference. When the received control instruction is an instruction to set the speaking party, the video networking server 1 determines the speaking party from the video networking terminals connected to the video conference, and sends the speaker's audio and video to other video networking terminals participating in the video conference. When the received control instruction is an instruction to add conference members or delete a conference member, control the video conference to add a new video-connected terminal or delete a video-connected terminal connected to the video conference. When the received control instruction is an instruction to end the conference, the Internet-based video server 1 determines the video conference that needs to end according to the conference ID included in the instruction to end the conference, and ends the video conference.

S709. Receive fifth result information sent by the video networking server, where the fifth result information indicates a result of the video networking server controlling the video conference according to the control instruction.

In this embodiment, after the video network server controls the video conference according to the control instruction, it sends the execution result of the control instruction to the test terminal. For example, after executing the instruction of setting the chairman, the Internet of Vision server may send the result of successfully executing the instruction of setting the chairman or failing to execute the instruction of setting the chairman to the test terminal. After executing the instruction of setting the speaking party, the server of the Internet of View may send the result of executing the instruction of setting the speaking party successfully or failing to execute the instruction of setting the speaking party to the test terminal. After the video network server executes the command of adding conference members or deleting conference members, it can send the result of executing the command of adding conference members or deleting conference members successfully or failing to execute the command of adding conference members or deleting conference members to the test terminal. After executing the instruction to end the video conference, the video server may send the result of success or failure of the instruction to end the video conference to the test terminal.

In this embodiment, after the video conference is established by the Internet-of-Vision server, the test terminal sends a control instruction to the Internet-of-Vision server, and receives an execution result returned by the Internet-of-Vision server. It can further detect whether various functions of the visual networking system (such as setting the chairman function, setting the speaker function, etc.) are normal.

Optionally, before sending the control instruction to the Internet of Vision server, it may also include: if at least two instructions of setting the chairman instruction, setting the speaker instruction, adding conference member instructions, and deleting conference member instructions are selected as the instructions sent to the Internet of Vision server control instructions, then determine the order in which at least two selected instructions are sent to the Internet of Vision server, and then send the selected instructions to the Internet of Vision server in the determined order.

In this embodiment, when multiple control instructions are selected to be sent, multiple control instructions can be sent to the Internet of Vision server at the same time, and the Internet of Vision server performs different operations according to the received multiple control instructions. It is also possible to set the sending order of the control commands, and set the time interval between sending the control commands, so that the video network server executes multiple control commands according to the set sequence and time interval.

In this embodiment, setting the sending order and time of multiple control commands can enable the video networking server to control the video conference according to the sequence and time interval of the control commands, and can accurately simulate the operating status of the video networking system to improve the accuracy of the test. .

It should be noted that, for the method embodiment, for the sake of simple description, it is expressed as a series of action combinations, but those skilled in the art should know that the embodiment of the present invention is not limited by the described action sequence, because According to the embodiment of the present invention, certain steps may be performed in other orders or simultaneously. Secondly, those skilled in the art should also know that the embodiments described in the specification belong to preferred embodiments, and the actions involved are not necessarily required by the embodiments of the present invention.

Referring to Fig. 8, Fig. 8 is a structural block diagram of a test device for a visual networking system provided by an embodiment of the present invention. The device is applied to the visual networking. Detect the stability of the Internet of Vision system and find out the functional defects of the Internet of Vision system. The testing device for the Internet of Vision system provided in this embodiment can be deployed on a testing terminal. The IoT system testing device is usually implemented in hardware and/or software. The networking system testing device 800 includes the following modules: a sending module 801 and a receiving module 802 .

The sending module 801 is configured to send a connection request to the Internet of Vision server, and the connection request is used to establish a communication connection with the Internet of Vision server.

The sending module 801 is also used to receive the first result information sent by the Internet of Vision server. The first result information indicates that the communication connection is successfully established. According to the first result information, at least one meeting list is sent to the Internet of Vision server. The meeting list indicates that the Internet of Vision server sends Second result information.

The receiving module 802 is configured to receive second result information sent by the Internet of Vision server, and the second result information indicates that the Internet of Vision server has received at least one meeting list.

The sending module 801 is also used to send a video conference start instruction to the Internet of Vision server according to the second result information, the video conference start instruction instructs the Internet of Vision server to establish a video conference according to the conference list, and instructs the Internet of Vision server to send the third result information.

The receiving module 802 is also configured to receive third result information sent by the Internet of Vision server, the third result information indicating that the video conference is established successfully.

The test device provided in this embodiment sends a connection request to the Internet of Vision server, and establishes a communication connection with the Internet of Vision server. When the communication connection is successfully established, it sends at least one meeting list to the Internet of Vision server. When listing, send a start video conference instruction to the video network server, and start the video conference command to instruct the video network server to establish a video conference according to the meeting list, and receive the third result information sent by the video network server, and the third result information indicates that the video conference is established successfully. By establishing a communication connection with the Internet of Vision server and sending control instructions to the Internet of Vision server according to requirements, the Internet of Vision system can automatically and quickly carry out the business corresponding to the control command, and detect the operating status of the Internet of Vision system, which can quickly and accurately detect the network of Vision system. Stability, finding functional defects in the Internet of Vision system.

Optionally, the receiving module 802 is further configured to receive fourth result information sent by the Internet of Vision server after receiving the third result information sent by the Internet of Vision server, the fourth result information indicating the status of the Internet of Vision terminals included in the video conference.

Optionally, the sending module 801 is further configured to send a control instruction to the Internet of Vision server after receiving the fourth result information sent by the Internet of Vision server, and the control instruction instructs the Internet of Vision server to control the video conference.

The receiving module 802 is also configured to receive fifth result information sent by the Internet of Vision server, the fifth result information indicating the result of the Internet of Vision server controlling the video conference according to the control instruction.

Optionally, the control instruction includes at least one of an instruction of setting a chairman, an instruction of setting a speaker, an instruction of adding a conference member, an instruction of ending a conference, and an instruction of deleting a conference member.

Optionally, the Internet of Vision system testing device 800 may also include:

The selection module is used to send at least two instructions in the instruction of setting the chairman, setting the speaker instruction, adding conference members and deleting the conference members as the control instructions sent to the Internet of Vision server before sending the control instruction to the Internet of Vision server, Then determine the order in which the selected at least two instructions are sent to the Internet of Vision server or send the at least two selected instructions to the Internet of Vision server at the same time.

As for the device embodiment, since it is basically similar to the method embodiment, the description is relatively simple, and for related parts, please refer to the part of the description of the method embodiment.

Each embodiment in this specification is described in a progressive manner, each embodiment focuses on the difference from other embodiments, and the same and similar parts of each embodiment can be referred to each other.

Those skilled in the art should understand that the embodiments of the present invention may be provided as methods, devices, or computer program products. Accordingly, embodiments of the invention may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, embodiments of the invention may take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage, CD-ROM, optical storage, etc.) having computer-usable program code embodied therein.

Embodiments of the present invention are described with reference to flowcharts and/or block diagrams of methods, terminal devices (systems), and computer program products according to embodiments of the present invention. It should be understood that each procedure and/or block in the flowchart and/or block diagram, and a combination of procedures and/or blocks in the flowchart and/or block diagram can be realized by computer program instructions. These computer program instructions may be provided to a general purpose computer, special purpose computer, embedded processor or processor of other programmable data processing terminal equipment to produce a machine such that instructions executed by the computer or processor of other programmable data processing terminal equipment Produce means for realizing the functions specified in one or more procedures of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions may also be stored in a computer-readable memory capable of directing a computer or other programmable data processing terminal to operate in a specific manner, such that the instructions stored in the computer-readable memory produce an article of manufacture comprising instruction means, the The instruction means implements the functions specified in one or more procedures of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions can also be loaded into a computer or other programmable data processing terminal equipment, so that a series of operational steps are performed on the computer or other programmable terminal equipment to produce computer-implemented processing, thereby The instructions executed above provide steps for implementing the functions specified in one or more procedures of the flowchart and/or one or more blocks of the block diagram.

Having described preferred embodiments of embodiments of the present invention, additional changes and modifications to these embodiments can be made by those skilled in the art once the basic inventive concept is appreciated. Therefore, the appended claims are intended to be construed to cover the preferred embodiment and all changes and modifications which fall within the scope of the embodiments of the present invention.

Finally, it should also be noted that in this text, relational terms such as first and second etc. are only used to distinguish one entity or operation from another, and do not necessarily require or imply that these entities or operations, any such actual relationship or order exists. Furthermore, the term "comprises", "comprises" or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method, article, or terminal equipment comprising a set of elements includes not only those elements, but also includes elements not expressly listed. other elements identified, or also include elements inherent in such a process, method, article, or terminal equipment. Without further limitations, an element defined by the phrase "comprising a ..." does not exclude the presence of additional identical elements in the process, method, article or terminal device comprising said element.

A method for obtaining a public network address and a device for obtaining a public network address provided by the present invention have been introduced in detail above. In this paper, specific examples are used to illustrate the principle and implementation of the present invention. The description of the above embodiments It is only used to help understand the method of the present invention and its core idea; at the same time, for those of ordinary skill in the art, according to the idea of the present invention, there will be changes in the specific implementation and scope of application. In summary, The contents of this description should not be construed as limiting the present invention.

Claims (10)

1. a kind of view networked system test method, which is characterized in that the method is applied to view networking, the view networked system packet At least one view networked server is included, the view networked server is communicated to connect at least one view networked terminals, the method Include:

Connection request is sent to the view networked server, the connection request is used to establish logical with the view networked server Letter connection；

The first result information that the view networked server is sent is received, the first result information instruction communication connection is built It stands successfully, according to first result information, sends at least one list of conference, the meeting column depending on networked server to described Table indicates that the view networked server sends the second result information；

The second result information that the view networked server is sent is received, second result information indicates the view the Internet services Device receives at least one described list of conference；

According to second result information, is sent to the view networked server and start video conference instruction, the beginning video Meeting instruction instruction is described to establish video conference according to the list of conference depending on networked server, and indicates the view the Internet services Device sends third result information；

The third result information that the view networked server is sent is received, the third result information indicates that the video conference is built It stands successfully.

2. the method according to claim 1, wherein in the third for receiving the view networked server and sending After result information, further includes:

The 4th result information that the view networked server is sent is received, the 4th result information indicates in the video conference Including view networked terminals state.

3. according to the method described in claim 2, it is characterized in that, in the 4th for receiving the view networked server and sending After result information, further includes:

Control instruction is sent to the view networked server, the control instruction indicates the view networked server to the video Meeting is controlled；

The 5th result information that the view networked server is sent is received, the 5th result information indicates the view the Internet services The result that device controls the video conference according to the control instruction.

4. according to the method described in claim 3, it is characterized by: the control instruction includes that setting chairman instructs, setting is sent out Yan Fang is instructed, the instruction of increase conference member, is terminated at least one of meeting instructs and deletion conference member instructs.

5. according to the method described in claim 4, it is characterized in that, it is described to the view networked server send control instruction it Before, further includes:

If selecting that setting chairman instruction, the setting speaking party instruct, the increase conference member instructs and described deleting Except at least two instructions in conference member instruction are as the control instruction sent to the view networked server, it is determined that Described at least two of selection instruct serially or simultaneously to be sent out to the view networked server to what the view networked server was sent Described at least two selected that send to be elected instruct.

6. a kind of view networked system test device, which is characterized in that described device is applied to view networking, the view networked system packet At least one view networked server is included, the view networked server is communicated to connect at least one view networked terminals, described device Include:

Sending module, for sending connection request to the view networked server, the connection request is for establishing and the view The communication connection of networked server；

The sending module is also used to receive the first result information that the view networked server is sent, first result information It indicates that the communication connection is successfully established, according to first result information, sends at least one depending on networked server to described List of conference, the list of conference indicate that the view networked server sends the second result information；

Receiving module, the second result information sent for receiving the view networked server, the second result information instruction It is described to receive at least one described list of conference depending on networked server；

The sending module is also used to send to the view networked server according to second result information and start video conference Instruction, the beginning video conference instruction instruction is described to establish video conference according to the list of conference depending on networked server, and Indicate that the view networked server sends third result information；

The receiving module is also used to receive the third result information that the view networked server is sent, the third result information Indicate that the video conference is successfully established.

7. device according to claim 6, which is characterized in that further include:

The receiving module is also used to after the third result information for receiving the view networked server transmission, receives institute The 4th result information that view networked server is sent is stated, the 4th result information indicates that the view for including in the video conference joins The state of network termination.

8. device according to claim 7, which is characterized in that further include:

The sending module is also used to after the 4th result information for receiving the view networked server transmission, Xiang Suoshu Control instruction is sent depending on networked server, the control instruction instruction is described to control the video conference depending on networked server System；

The receiving module is also used to receive the 5th result information that the view networked server is sent, the 5th result information Indicate the result controlled according to the control instruction the video conference depending on networked server.

9. device according to claim 8, it is characterised in that: the control instruction includes that setting chairman instructs, setting is sent out Yan Fang is instructed, the instruction of increase conference member, is terminated at least one of meeting instructs and deletion conference member instructs.

10. device according to claim 9, which is characterized in that further include:

Selecting module, before being used to send control instruction to the view networked server, if the selection setting chairman instruction, institute State setting speaking party instruction, at least two instructions increased in conference member instruction and the deletion conference member instruction As the control instruction sent to the view networked server, it is determined that described at least two of selection instruct to the view Networked server send serially or simultaneously to it is described view networked server send selection it is described at least two instruct.