CN115802383B - Mesh router pairing production method and system - Google Patents

Abstract

The invention discloses a mesh router pairing production method and a mesh router pairing production system, wherein the method comprises the following steps: s1: connecting any one of at least 2 mesh routers in a production mode to a switch, and generating a corresponding unique pairing key by each mesh router according to address information exchanged with other mesh routers through the switch; s2: at least 2 Mesh routers obtaining the same pairing key automatically perform Mesh configuration by taking the pairing key as a seed key of key negotiation under the state of not being in a production mode, so as to realize networking. According to the invention, any network port of the mesh router in the production mode is connected to the switch, the MAC address of the mesh router is learned through wired connection, so that the pairing key is generated, and in the factory environment, the pairing production of the mesh router can be efficiently finished in a pipeline mode. The invention does not need to wait for the mesh negotiation to finish. Compared with the traditional technology, the pairing method is also needed to be completed through the mesh protocol, and the production efficiency is greatly improved.

Description

Mesh router pairing production method and system

Technical Field

The invention relates to the technical field of wireless equipment production, in particular to a mesh router pairing production method and system.

Background

In the existing mesh router pairing production mode, three pairing methods are available: 1. the wireless mode carries out wireless backhaul networking through a mesh protocol to realize pairing; 2. the wired backhaul networking is carried out in a wired mode to realize pairing; 3. and (3) carrying out wired networking on the equipment, and realizing pairing in a mode of transmitting a pairing code through the upper computer.

In the above method, the pairing of any number of devices can be realized by the method 1, but the pairing is affected by complex environment in the intensive environment of a factory, the pairing is usually required to be realized through webpage configuration or key configuration, the production operation is troublesome, and the pairing cannot be realized in a pipelining manner efficiently due to complex environment interference. The mesh routers are paired in the mode 2, so that the environment interference can be avoided, but the wired networking mode is limited by the number of network ports and the networking structure of production equipment, the networking structure is often required to be changed in the production process, the quantity is limited, and the mesh routers are required to wait for the negotiation in the actual production process. The mesh router is paired in the mode 3, so that the environment interference can be disregarded, but the operation method and the implementation steps are complex, the upper computer is required to cooperate for operation, and the universality is not enough.

In summary, in the prior art, the mesh router is paired based on the mesh protocol in the pairing production, but the mesh protocol is not designed for this scenario. The mesh router is paired by using an upper computer, so that the steps are complex, special equipment is needed, and the universality is poor.

Disclosure of Invention

The invention aims to solve the problems of the defects and the shortcomings in the prior art, and provides a mesh router pairing production method and a mesh router pairing production system, which can solve the problem of how to efficiently complete mesh router pairing in a factory equipment-intensive environment.

In order to achieve the above purpose of the present invention, the following technical scheme is adopted:

a mesh router pairing production method comprises the following steps:

s1: connecting any one of at least 2 mesh routers in a production mode to a switch, and generating a corresponding unique pairing key by each mesh router according to address information exchanged with other mesh routers through the switch; the pairing keys of the mesh routers connected with the switch in the same batch are the same;

s2: at least 2 Mesh routers obtaining the same pairing key automatically perform Mesh configuration by taking the pairing key as a seed key of key negotiation under the state of not being in a production mode, so as to realize networking.

Preferably, each mesh router generates a corresponding unique pairing key according to address information exchanged with other mesh routers through the switch, specifically,

s101: each mesh router sends an ARP announcement message in a broadcasting mode through a switch, wherein the ARP announcement message comprises an IP address and an MAC address of the mesh router;

s102: after each mesh router receives ARP announce messages of other mesh routers, analyzing to obtain MAC addresses of other mesh routers, and simultaneously, arranging the MAC addresses of the mesh routers and the received MAC addresses of other mesh routers according to a certain sequence and storing the MAC addresses in a first file;

s103: when the number of the learned MAC addresses reaches the number preset by the file system, the mesh router calculates the md5 value of the first file, and then a unique pairing key is obtained.

Further, after the Mesh router is powered on and started, firstly judging a production zone bit, if the production zone bit is 1, indicating that the production mode is in, and executing step S1; if the production flag bit is 0, it indicates that the production mode is not in production mode, and step S2 is performed.

Further, the Mesh router sets the system lamp to flash and the net gaplamp to be completely turned off in the production mode.

Further, the mesh router stores the obtained pairing key in a system partition, and exits the production mode through restoring the factory mode, and the production mark position 0 of the mesh router.

Further, S2, after the mesh router not in the production mode is powered on, the pairing key stored in the system partition is read to carry out mesh related configuration, the private mesh SSID of a manufacturer is found by scanning the SSID nearby in a pairing mode according to the SSID and SSID password, and the pairing key is used as a seed key for key negotiation through PSK authentication, so that networking is realized.

Further, the mesh router exiting the production mode sets the system lamp and the portal lamp to be always on.

A system of mesh router pairing production method comprises at least 2 mesh routers and a switch;

in the production stage, any one of at least 2 mesh routers in a production mode is connected to a switch, and each mesh router generates a corresponding unique pairing key according to address information exchanged with other mesh routers through the switch;

and the Mesh router for obtaining the pairing key automatically performs Mesh configuration by taking the pairing key as a seed key of key negotiation under the state of not being in a production mode, so as to realize networking.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the mesh router pairing production method when executing the computer program.

A computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the mesh router pairing production method.

The beneficial effects of the invention are as follows:

according to the invention, any network port of the mesh router in the production mode is connected to the switch, the MAC address of the mesh router is learned through wired connection, so that the pairing key is generated, and in the factory environment, the pairing production of the mesh router can be efficiently finished in a pipeline mode.

In actual production, the mesh routers to be paired are only required to be connected into the same switch through the network cable, and the next production step can be carried out after the paired keys are generated, so that the mesh negotiation is not required to be completed. Compared with the traditional technology, the pairing method is also needed to be completed through the mesh protocol, and the production efficiency is greatly improved.

Meanwhile, the invention is not limited by the number of the network ports of different mesh routers, each mesh router only needs to use one network port to access the switch, and compared with a wired mesh networking mode, any number of mesh routers can be paired without considering a networking structure.

According to the invention, an upper computer is not needed, and only the mesh routers to be paired are connected into the same exchanger, so that the operation is simple, and the router pairing time in the production process can be effectively reduced.

Drawings

Fig. 1 is a flow chart of steps of a mesh router pairing production method according to the present invention.

Fig. 2 is a diagram showing connection between a mesh router and a switch according to an embodiment of the present invention.

FIG. 3 is a flowchart of the specific steps of the present invention for generating a pairing key.

Fig. 4 is a flowchart of the step of power-on judgment of the mesh router.

Fig. 5 is a connection diagram of another embodiment of the mesh router and the switch of the present invention.

FIG. 6 is a schematic diagram of the production flag bit 1 of the present invention.

Fig. 7 is a schematic diagram of the present invention for setting a prescribed number of mesh routers.

Fig. 8 is a schematic diagram of the MAC list and its md5 values stored in the file/tmp/mac_list.

FIG. 9 is a schematic diagram of pairing keys saved in a system partition.

Fig. 10 is a schematic diagram of modifying the SSID password of a mesh connection to a pairing key.

Detailed Description

The invention is described in detail below with reference to the drawings and the detailed description.

Example 1

As shown in fig. 1, a mesh router pairing production method includes the following steps:

s1: connecting any one of at least 2 mesh routers in a production mode to a switch, and generating a corresponding unique pairing key by each mesh router according to address information exchanged with other mesh routers through the switch; the pairing keys of the mesh routers connected with the switch in the same batch are the same;

s2: at least 2 Mesh routers obtaining the same pairing key automatically perform Mesh configuration by taking the pairing key as a seed key of key negotiation under the state of not being in a production mode, so as to realize networking.

In this embodiment, two mesh routers are taken as an example, as shown in fig. 2, and named as mesh router A, mesh router B; the mesh router A generates a corresponding unique pairing key according to address information exchanged with the mesh router B through the exchanger; the same-structure mesh router B generates a corresponding unique pairing key according to the address information exchanged with the mesh router A through the switch. Wherein the mesh router B is identical to the pairing key in the mesh router a.

Step S1, after the pairing key is obtained, the mesh router B and the mesh router A are powered off, the connection with the switch is removed, packaging and shipping are carried out, and mesh configuration networking is not needed at this time.

And S2, after the mesh router B and the mesh router A reach the hands of the user, after the mesh router B and the mesh router A are electrified, the pairing key is used as a seed key of key negotiation to automatically carry out mesh configuration, so that networking is realized. The pairing keys obtained by the mesh router B, mesh router A are the same, so that different batches of mesh routers can be distinguished.

According to the embodiment, any network port of the mesh router in the production mode is connected to the switch, the MAC address of the mesh router is learned through wired connection, the pairing key is further generated, and in a factory environment, the pairing production of the mesh router can be efficiently finished in a pipeline mode through the method and the device.

In actual production, the mesh routers to be paired are only required to be connected into the same switch through the network cable, and the next production step can be carried out after the paired keys are generated, so that the mesh negotiation is not required to be completed. Compared with the traditional technology, the pairing method is also needed to be completed through the mesh protocol, and the production efficiency is greatly improved.

Meanwhile, the embodiment is not limited by the number of the network ports of different mesh routers, each mesh router only needs to use one network port to access the switch, and compared with a wired mesh networking mode, any number of mesh routers can be paired without considering a networking structure.

According to the embodiment, an upper computer is not needed, only the mesh routers to be paired are connected to the same exchanger, the operation is simple, and the router pairing time in the production process can be effectively reduced.

In a specific embodiment, as shown in fig. 3, each mesh router generates a corresponding unique pairing key according to address information exchanged with other mesh routers through the switch, specifically,

s101: each mesh router sends an ARP announcement message in a broadcasting mode through a switch, wherein the ARP announcement message comprises an IP address and an MAC address of the mesh router;

s102: after each mesh router receives ARP announce messages of other mesh routers, analyzing to obtain MAC addresses of other mesh routers, and simultaneously, arranging the MAC addresses of the mesh routers and the received MAC addresses of other mesh routers according to a certain sequence and storing the MAC addresses in a first file; the first file in this embodiment is a file/tmp/mac_list.

S103: when the number of the learned MAC addresses reaches the number preset by the file system, the mesh router calculates the md5 value of the first file, and then a unique pairing key is obtained.

In a specific embodiment, as shown in fig. 4, after the Mesh router is powered on, the Mesh router first determines a production flag bit, if the production flag bit is 1, the Mesh router is in a production mode, and step S1 is executed at this time; if the production flag bit is 0, it indicates that the production mode is not in production mode, and step S2 is performed.

In a specific embodiment, in order to facilitate a user or a worker to observe the state of the Mesh router, the Mesh router in the production mode sets the system lamp to flash and the network port lamp to be completely turned off.

In a specific embodiment, the mesh router stores the obtained pairing key in a system partition, and exits the mesh router from the production mode by restoring the factory mode, and the production mark position 0 of the mesh router.

In a specific embodiment, S2, after the mesh router not in the production mode is powered on, reads the pairing key stored in the system partition to perform mesh related configuration, uses the pairing mode according to the SSID and the SSID password to find the private mesh SSID of the manufacturer by scanning the nearby SSID, uses the pairing key as a seed key for key negotiation through PSK authentication, and further realizes networking.

In a specific embodiment, in order to facilitate a user or a worker to observe the state of the Mesh router, the Mesh router exiting the production mode sets a system lamp and a portal lamp to be always on.

Example 2

In this embodiment, 5 mesh routers are paired as a group, and the mesh routers generate a structure diagram of a pairing key (as shown in fig. 5) in the production process of a factory, and each mesh router is subscripted with a corresponding MAC address. A flowchart of the operation of the mesh router is shown in fig. 3.

Step D1: the default production flag bit of the mesh router is 1 when the mesh router is produced, as shown in fig. 6. Each mesh router obtains its own MAC address through a previous production phase. D2, judging whether the mesh router is in a production mode through a production zone bit after the mesh router is powered on normally, if the production zone bit is 1, indicating that the mesh router is in the production mode, and executing the step; if the production flag bit is 0, the mesh router is not in the production mode, and the step D3 is executed;

step D2: all the mesh routers are connected in the structure shown in fig. 4, and when the mesh routers are powered on and normally operate, the system lamp flashes and the network port lamp is completely turned off. After the mesh router is powered on and normally operates, an ARP announcement message is sent in a broadcast mode, wherein the ARP announcement message comprises an IP address and an MAC address of the mesh router. The other mesh routers process when receiving the ARP announcement message, and can analyze the MAC address of the mesh router sending the ARP announcement message. Taking the mesh router 1 as an example, after the mesh router 1 receives and processes the ARP announce messages of the other 4 mesh routers, the mesh router 1 obtains the MAC addresses of all the mesh routers, when the number of the MAC learned by the mesh router reaches the preset number of file systems (the preset number of the mesh router is determined when the version of the produced file systems is generated, as shown in fig. 7, the number of the mesh router is 5), and the obtained MAC addresses of all the mesh routers and the MAC addresses of the mesh routers are arranged in ascending order (or can be arranged in descending order) and stored in the file

In/tmp/mac_list (as shown in FIG. 8). The mesh routers 1, 2, 3, and 4 all perform the same steps as the mesh router 1 at the same time.

And then each mesh router calculates the md5 value of the file/tmp/mac_list in the respective file system to obtain the pairing key of the mesh router to be paired, and the pairing key is stored in the system partition (shown in fig. 9). The pairing key is unique, and the pairing keys among the mesh routers 1, 2, 3, 4 and 5 are the same.

After the paired key of the paired mesh router is obtained, the system lamp and the network port lamp are always on, the factory mode is restored at the moment, the mesh router is withdrawn from the production mode through restoring the factory mode, and the production mark position is 0.

D2: when the mesh routers 1, 2, 3, 4 and 5 reach the hands of the user, after the mesh routers are powered on and started normally, the production mode nodes are read, and if the mesh routers are not in the production mode, the pairing keys stored in the system partition are read to carry out the relevant configuration of the mesh. For example, the SSID is configured as a pairing key by pairing according to the SSID and the SSID password, so that a normal networking flow can be entered, as shown in fig. 10. The mesh router finds the private mesh SSID of the manufacturer by scanning the SSID nearby, and uses the pairing key as a seed key for key negotiation through PSK authentication, thereby realizing networking.

By using the method of the embodiment, after receiving the mesh router, the user only needs to place the corresponding mesh router at the corresponding position and then electrify. The mesh routers do not need to be paired by using operation modes such as physical keys, webpage keys and the like, the operation steps of users are simple, and the mesh routers can be powered on.

In an actual production environment, the operation steps of the embodiment are simple, so that the production efficiency can be effectively improved, and the cost of production equipment can be reduced.

Example 3

A system of mesh router pairing production method comprises at least 2 mesh routers and a switch;

in the production stage, any one of at least 2 mesh routers in a production mode is connected to a switch, and each mesh router generates a corresponding unique pairing key according to address information exchanged with other mesh routers through the switch; the pairing keys of the mesh routers connected with the switch in the same batch are the same;

at least 2 Mesh routers obtaining the same pairing key automatically perform Mesh configuration by taking the pairing key as a seed key of key negotiation under the state of not being in a production mode, so as to realize networking.

Example 4

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the mesh router pairing production method as described in embodiment 1 or embodiment 2 when the computer program is executed.

Where the memory and the processor are connected by a bus, the bus may comprise any number of interconnected buses and bridges, the buses connecting the various circuits of the one or more processors and the memory together. The bus may also connect various other circuits such as peripherals, voltage regulators, and power management circuits, which are well known in the art, and therefore, will not be described any further herein. The bus interface provides an interface between the bus and the transceiver. The transceiver may be one element or may be a plurality of elements, such as a plurality of receivers and transmitters, providing a means for communicating with various other apparatus over a transmission medium. The data processed by the processor is transmitted over the wireless medium via the antenna, which further receives the data and transmits the data to the processor.

Example 5

A computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the mesh router pairing production method as described in embodiment 1 or embodiment 2.

That is, it will be understood by those skilled in the art that all or part of the steps in implementing the methods of the embodiments described above may be implemented by a program stored in a storage medium, where the program includes several instructions for causing a device (which may be a single-chip microcomputer, a chip or the like) or a processor (processor) to perform all or part of the steps in the methods of the embodiments described herein. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-only memory (ROM), a random access memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

It is to be understood that the above examples of the present invention are provided by way of illustration only and not by way of limitation of the embodiments of the present invention. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims (9)

1. A mesh router pairing production method is characterized by comprising the following steps of: the method comprises the following steps:

s1: connecting any one of at least 2 mesh routers in a production mode to a switch, and generating a corresponding unique pairing key by each mesh router according to address information exchanged with other mesh routers through the switch; the pairing keys of the mesh routers connected with the switch in the same batch are the same;

s2: at least 2 Mesh routers obtaining the same pairing key automatically perform Mesh configuration by taking the pairing key as a seed key of key negotiation under the state of not being in a production mode, so as to realize networking;

each mesh router generates a corresponding unique pairing key according to address information exchanged with other mesh routers through a switch, and specifically,

s101: each mesh router sends an ARP announcement message in a broadcasting mode through a switch, wherein the ARP announcement message comprises an IP address and an MAC address of the mesh router;

s102: after each mesh router receives ARP announce messages of other mesh routers, analyzing to obtain MAC addresses of other mesh routers, and simultaneously, arranging the MAC addresses of the mesh routers and the received MAC addresses of other mesh routers according to a certain sequence and storing the MAC addresses in a first file;

s103: when the number of the learned MAC addresses reaches the number preset by the file system, the mesh router calculates the md5 value of the first file, and then a unique pairing key is obtained.

2. The mesh router pairing production method according to claim 1, wherein: after the Mesh router is powered on and started, firstly judging a production zone bit, if the production zone bit is 1, indicating that the Mesh router is in a production mode, and executing step S1 at the moment; if the production flag bit is 0, it indicates that the production mode is not in production mode, and step S2 is performed.

3. The mesh router pairing production method according to claim 1, wherein: in the production mode, the Mesh router sets the system lamp to flash and the net gaplamp to be completely turned off.

4. The mesh router pairing production method according to claim 1, wherein: the mesh router stores the obtained pairing key in a system partition, and exits the production mode through restoring the factory mode, and the production mark position 0 of the mesh router.

5. The mesh router pairing production method according to claim 4, wherein: s2, after the mesh router which is not in the production mode state is powered on, the pairing key stored in the system partition is read to carry out mesh related configuration, a pairing mode according to an SSID and an SSID password is used, a private mesh SSID of a manufacturer is found through scanning the SSID nearby, the pairing key is used as a seed key of key negotiation through PSK authentication, and networking is further achieved.

6. The mesh router pairing production method according to claim 4, wherein: the mesh router exiting the production mode sets the system lamp and the network port lamp to be always on.

7. A system based on the mesh router pairing production method as defined in any one of claims 1 to 6, which is characterized in that: the method comprises at least 2 mesh routers and switches;

in the production stage, any one of at least 2 mesh routers in a production mode is connected to a switch, and each mesh router generates a corresponding unique pairing key according to address information exchanged with other mesh routers through the switch;

the Mesh router of the pairing key is obtained, and the pairing key is used as a seed key of key negotiation to automatically perform Mesh configuration under the state of not being in a production mode, so that networking is realized;

each mesh router generates a corresponding unique pairing key according to address information exchanged with other mesh routers through a switch, and specifically,

s101: each mesh router sends an ARP announcement message in a broadcasting mode through a switch, wherein the ARP announcement message comprises an IP address and an MAC address of the mesh router;

s102: after each mesh router receives ARP announce messages of other mesh routers, analyzing to obtain MAC addresses of other mesh routers, and simultaneously, arranging the MAC addresses of the mesh routers and the received MAC addresses of other mesh routers according to a certain sequence and storing the MAC addresses in a first file;

s103: when the number of the learned MAC addresses reaches the number preset by the file system, the mesh router calculates the md5 value of the first file, and then a unique pairing key is obtained.

8. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the mesh router pairing production method according to any one of claims 1 to 6 when executing the computer program.

9. A computer-readable storage medium having stored thereon a computer program, characterized by: the computer program, when executed by a processor, implements the steps of the mesh router pairing production method as defined in any one of claims 1 to 6.

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