CN114945192B - Easymesh network rapid networking method and system - Google Patents

Abstract

The invention discloses a quick networking method and a system of an easy mesh network, wherein the method comprises the following steps: s10: periodically sending the Beacon data packet by unpaired Agent routes, and periodically scanning the Beacon data packet sent by the peripheral Controller routes; s20: if the Controller route scans and gathers the Beacon data packet sent by the surrounding Agent route, analyzing the Beacon data packet, judging whether the Beacon data packet is correct, and the correct Beacon data packet indicates that the Beacon data packet is sent by an unpaired Agent route, and allowing the Agent route to access an easy mesh network; s30: if the Agent route scans and gathers the Beacon data packet sent by the surrounding Controller route, analyzing the Beacon data packet, judging whether the Beacon data packet is correct, if so, setting the state of the Agent route itself Beacon data packet as paired, and accessing into an easy mesh network. The method solves the problems that in the prior art, networking time is short, users cannot complete networking in time, and user experience is poor.

Description

Easymesh network rapid networking method and system

Technical Field

The invention relates to the technical field of networking, in particular to a quick networking method and system for an easy mesh network.

Background

Easy mesh is a basic standard for inter-AP interconnection established by the Wi-Fi alliance, which defines a protocol for inter-AP interconnection control. One Controller route is arranged in the easy mesh network to manage the whole network, and all the APs of the Agent route are connected with the Controller route (including indirect connection) to form a tree-shaped network topology, so that an intelligent Wi-Fi network which is easy to set and manage and extensible is provided for all places in a home environment and an office.

WPS networking, in the conventional manner, when a user newly builds a wireless network, it is necessary to manually set a network name (SSID) and a security key at an access point, and then verify the key at the user terminal to prevent "speedy guests" from running in. Wi-Fi Protected Setup can help the user to automatically set a network name (SSID) and configure the WPA2 security key with the highest level, a function key called a WPS button is often designed on the body of the wireless product with the function, the user only needs to lightly press the button or input a PIN code, wireless encryption setting can be completed through two-three simple operations, and meanwhile, a secure connection is established between the user side and the router.

At present, the common easy mesh networking mode is WPS networking, and Agent routing and Controller routing are required to be operated simultaneously during networking through the WPS networking, and the networking time is maintained for only a few minutes when the WPS is started each time. If the user is unfamiliar with the operation, networking failure is caused, and poor experience is given to the user.

Disclosure of Invention

In view of the above-mentioned shortcomings in the prior art, the present invention aims to: a quick networking method and a quick networking system for an easy mesh network are provided, so that the problem that networking fails due to unskilled operation of a user in short networking time is solved.

An easy mesh network rapid networking method comprises the following steps:

s10: periodically sending a Beacon data packet by an unpaired Agent route, and periodically scanning the Beacon data packet sent by a peripheral Controller route, wherein private IE information is defined in the Beacon data packet sent by the Agent route and the Beacon data packet sent by the Controller route;

s20: if the Controller route scans and gathers the Beacon data packet sent by the surrounding Agent route, analyze the Beacon data packet, judge whether the Beacon data packet is correct, the correct Beacon data packet indicates that the Beacon data packet is sent by an unpaired Agent route, allow the Agent route to access an easy mesh network, if the Agent route is successfully accessed to the easy mesh network, immediately update the Beacon data packet, if the Agent route is not successfully accessed to the easy mesh network, keep the Agent route access state or judge whether the private IE field in the Beacon data packet needs to be deleted;

s30: if the Agent route scans and gathers the Beacon data packet sent by the surrounding Controller route, analyzing the Beacon data packet, judging whether the Beacon data packet is correct, if so, setting the state of the Agent route itself Beacon data packet as paired, and accessing into an easy mesh network.

Further, the unpaired Agent route in S10 completes the MAC address and the serial number after factory setting.

Further, the private IE information includes: unpaired state, MAC address, sequence number and authentication flag, the private IE information is encrypted and added to the Beacon packet itself by using the fixed RSA private key.

Further, the method for judging whether the Beacon data packet is correct comprises the following steps:

s100: analyzing the Beacon data packet, and judging whether the data packet contains private IE information or not;

s200: if the private IE information is contained, the IE information is decrypted, and if the authentication standard in the decryption result is correct, the Beacon data packet is correct;

s300: if the private IE information is not contained or the authentication mark field is wrong, the data packet is wrong, and the result is ignored.

Further, in the step S20, the manner of allowing the unpaired Agent to access the EasyMesh network in a routing manner is as follows: encrypting the SSID and PASSWORD of the Easymesh network and the MAC address and serial number of the Agent route by an RSA public key and updating the encrypted SSID and PASSWORD and the MAC address and serial number into a Beacon data packet of the Controller route.

Further, before executing step S30, an Agent route MAC address and a sequence number that need to access the EasyMesh network are added to the Controller route.

Further, the method of accessing the Agent route in S30 to the EasyMesh network is as follows: and configuring SSID and PASSWORD in the analysis result to an easy mesh network of the SSWORD.

Further, before implementing step S20 or step S30, the Controller performs an Agent routing admission operation.

In a second aspect, the present invention also provides an easy mesh network rapid networking system, including a main route and a sub route, where the main route and the sub route are defined with private IE information, and the invention is characterized in that:

the preparation module is used for periodically sending the Beacon data packet and scanning surrounding Beacon data packets by the sub-router;

the analysis module is used for analyzing the Beacon data packet of the main route and the sub route;

the judging module is used for judging whether the Beacon data packet of the main route and the sub route is correct or not;

the control module is used for updating the Beacon data packet immediately when the sub-route is successfully accessed to the easy mesh network, and maintaining the network access state of the sub-route or judging whether the private IE field in the Beacon data packet needs to be deleted or not when the sub-route is not successfully accessed to the easy mesh network;

and the access module is used for allowing the sub-route to access the easy mesh network.

Further, the main route is a Controller route, and the sub route is an Agent route.

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

according to the method for quickly networking the easy mesh network, provided by the invention, a user operates the Beacon data packet sent by the Agent route around the Controller route scan to acquire the state of the Agent route, the unpaired Agent route is accessed into the easy mesh network, the user can also operate the Beacon data packet sent by the Controller route around the unpaired Agent route scan to acquire the state of the Controller route, the Beacon data packet state of the Agent route is set to be paired, and the Beacon data packet is accessed into the easy mesh network, so that WPS networking can be quickly completed in both modes, networking efficiency is improved, and user experience is improved.

Drawings

Fig. 1 is a block diagram of an easy mesh network fast networking method in the present invention;

fig. 2 is a flowchart of an easy mesh network fast networking method in the present invention;

fig. 3 is a flowchart for judging whether a Beacon packet is correct in an easy mesh network fast networking method according to the present invention;

fig. 4 is a flowchart of an easy mesh network rapid networking system in the present invention.

Detailed Description

Embodiments of the technical scheme of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present invention, and thus are merely examples, which should not be construed as limiting the scope of the present invention.

Fig. 1 shows a block diagram of an easy mesh network fast networking method, and fig. 2 shows a flow chart of an easy mesh network fast networking method. A quick networking method of an easy mesh network comprises the steps of S10-S30;

s10: the unpaired Agent route periodically transmits the Beacon data packet, and periodically scans the Beacon data packet sent by the peripheral Controller route, and the Beacon data packet sent by the Agent route and the Controller route are defined with private IE information;

s20: if the Controller route scans and gathers the Beacon data packet sent by the surrounding Agent route, analyze the Beacon data packet, judge whether the Beacon data packet is correct, the correct Beacon data packet indicates that the Agent route is sent by unpaired Agent route, allow the Agent route to access the easy mesh network, if the Agent route is successfully accessed to the easy mesh network, update the Beacon data packet immediately, if the Agent route is not successfully accessed to the easy mesh network, the user can keep the Agent route access state or choose to judge whether the private IE field in the Beacon data packet needs to be deleted;

s30: if the Agent route scans and gathers the Beacon data packet sent by the surrounding Controller route, analyzing the Beacon data packet, judging whether the Beacon data packet is correct, if so, setting the state of the Agent route itself Beacon data packet as matched, and accessing into an easy mesh network.

In this embodiment, a user operates a Beacon packet sent by an Agent route around the Controller route scan to obtain an Agent route state, accesses an unpaired Agent route into an easylmesh network, and may further operate a Beacon packet sent by an unpaired Agent route around the Controller route scan to obtain a Controller route state, set the Agent route self Beacon packet state to be paired, and access the easylmesh network, so that WPS networking can be completed quickly in both modes, networking efficiency is improved, and user experience is improved.

The unpaired Agent route in S10 leaves the factory set to complete the MAC address and sequence number.

In S10, the Beacon packet sent by the Agent route and the Controller route is defined with private IE information, where the private IE information includes: unpaired state, MAC address, sequence number and authentication flag, private IE information is encrypted and added to the Beacon packet itself by using the fixed RSA private key.

The unpaired Agent route uses a fixed RSA private key to encrypt the Agent route MAC address, the Agent route serial number, the Agent authentication mark and the unpaired mark, and updates the encrypted Agent route MAC address, the Agent route serial number, the Agent authentication mark and the unpaired mark into the Beacon data packet of the unpaired Agent route.

Before executing S20 and S30, the user logs in the Controller routing interface, and executes an Agent-allowed routing access operation.

In S20, the user clicks a scan button in the Controller routing interface, scans and gathers the Beacon packets sent by the Agent routes around, and determines whether the Beacon packets are correct.

As shown in FIG. 3, a flowchart for judging whether a Beacon data packet is correct in an easy mesh network rapid networking method, the method for judging whether the Beacon data packet is correct comprises the following steps S100-S200:

s100: analyzing the Beacon data packet, and judging whether the data packet contains private IE information or not;

s200: if the private IE information is contained, the IE information is decrypted, and if the authentication standard in the decryption result is correct, the Beacon data packet is correct;

s300: if the private IE information is not contained or the authentication mark field is wrong, the data packet is wrong, and the result is ignored.

If the Beacon data packet routed by the Agent is correct, the situation that unpaired Agent nodes exist around is indicated, and a network access permission button is added in a webpage for the nodes.

Once the user clicks the button, the Controller route initializes the private IE information of the Beacon packet of the Agent route, the IE information uses the MAC address and serial number of the Agent route as authentication marks and contains SSID and PASSWORD of the easylmesh network, and finally encrypts and updates the Beacon packet of the Controller route by the RSA public key.

Before executing step S30, an Agent route MAC address and a serial number that need to access the EasyMesh network are added to the Controller route.

In S30, the Agent route actively scans the Beacon packet sent by the surrounding Controller route, decrypts the Beacon packet by using the Agent' S private key, and determines whether the Beacon packet is correct.

If the Beacon data packet is correct, the SSID and PASSWORD in the analysis result are configured to the easy mesh network of the user, the private IE state in the Beacon data packet of the Agent is set to be paired, network parameters are configured, and the user is accessed to the easy mesh network.

After the Controller route starts to allow the Agent route to access the network, a timer is triggered, and if the allowed Agent route is accessed in the timer, the user is prompted on the page that the device is accessed, the Beacon packet is updated immediately, and the private IE field is deleted. If the Agent route is not successfully accessed to the network within the specified time range, prompting the user that the Agent route is not accessed on the page, prompting the user whether to continuously keep the state of allowing the Agent route to access to the network, and determining or canceling by clicking the user to judge whether to delete the private IE field in the Beacon data packet.

Based on the same inventive concept, the embodiment of the invention also provides an easy mesh network rapid networking system, as shown in fig. 4, comprising:

the preparation module is used for periodically sending the Beacon data packet and scanning surrounding Beacon data packets by the sub-router;

the analysis module is used for analyzing the Beacon data packet of the main route and the sub route;

the judging module is used for judging whether the Beacon data packet of the main route and the sub route is correct or not;

the control module is used for updating the Beacon data packet immediately when the sub-route is successfully accessed to the easy mesh network, and maintaining the network access state of the sub-route or judging whether the private IE field in the Beacon data packet needs to be deleted or not when the sub-route is not successfully accessed to the easy mesh network;

and the access module is used for allowing the sub-route to access the easy mesh network.

The main route is a Controller route, and the sub-route is an Agent route.

In summary, the easy mesh network rapid networking method and system solve the problem that networking fails due to unskilled operation of a user in short networking time, can rapidly complete WPS networking in two ways, improves networking efficiency, and improves user experience.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, and the present invention is intended to be covered in the scope of the present invention.

Claims (8)

1. The easy mesh network rapid networking method is characterized by comprising the following steps of:

s10: periodically sending a Beacon data packet by an unpaired Agent route, and periodically scanning the Beacon data packet sent by a peripheral Controller route, wherein private IE information is defined in the Beacon data packet sent by the Agent route and the Beacon data packet sent by the Controller route;

s20: if the Controller route scans and gathers the Beacon data packet sent by the surrounding Agent route, analyze the Beacon data packet, judge whether the Beacon data packet is correct, the correct Beacon data packet indicates that the Beacon data packet is sent by an unpaired Agent route, allow the Agent route to access an easy mesh network and trigger a timer, if the Agent route is successfully accessed to the easy mesh network within the time specified by the timer, update the Beacon data packet immediately, if the Agent route is not successfully accessed to the easy mesh network within the time specified by the timer, keep the network access state of the Agent route or judge whether the private IE field in the Beacon data packet needs to be deleted;

s30: if the Agent route scans and gathers the Beacon data packet sent by the surrounding Controller route, analyzing the Beacon data packet, judging whether the Beacon data packet is correct, if so, setting the state of the Agent route itself Beacon data packet as paired, and accessing into an easy mesh network.

2. The easy mesh network rapid networking method according to claim 1, wherein the unpaired Agent routing in S10 leaves the factory to complete the MAC address and serial number.

3. The easy mesh network fast networking method of claim 2, wherein the private IE information comprises: unpaired state, MAC address, sequence number and authentication flag, the private IE information is encrypted and added to the Beacon packet itself by using the fixed RSA private key.

4. The method for fast networking an easy mesh network according to claim 1, wherein the method step of determining whether the Beacon packet is correct comprises:

s100: analyzing the Beacon data packet, and judging whether the data packet contains private IE information or not;

s200: if the private IE information is contained, the IE information is decrypted, and if the authentication standard in the decryption result is correct, the Beacon data packet is correct;

s300: if the private IE information is not contained or the authentication mark field is wrong, the data packet is wrong, and the result is ignored.

5. The easy mesh network rapid networking method according to claim 3, wherein the allowing the unpaired Agent to access the easy mesh network in the S20 is: encrypting the SSID and PASSWORD of the Easymesh network and the MAC address and serial number of the Agent route by an RSA public key and updating the encrypted SSID and PASSWORD and the MAC address and serial number into a Beacon data packet of the Controller route.

6. The easy mesh network rapid networking method according to claim 1, wherein an Agent route MAC address and a serial number required to access the easy mesh network are added to the Controller route before executing step S30.

7. The method for fast networking an easy mesh network according to claim 1, wherein the mode of accessing the Agent route to the easy mesh network in S30 is as follows: and configuring SSID and PASSWORD in the analysis result to an easy mesh network of the SSWORD.

8. The method for fast networking an easy mesh network according to any one of claims 1 to 7, wherein the Controller routing performs an Agent routing access enabling operation prior to implementing step S20 or step S30.