CN111629422B

CN111629422B - Wireless equipment setting method and device and readable storage medium

Info

Publication number: CN111629422B
Application number: CN202010509261.1A
Authority: CN
Inventors: 高华辰; 曾庆初; 杨沙; 杨显湖
Original assignee: Yichen Shenzhen Technology Co ltd
Current assignee: Yichen Shenzhen Technology Co ltd
Priority date: 2020-06-07
Filing date: 2020-06-07
Publication date: 2021-04-02
Anticipated expiration: 2040-06-07
Also published as: CN111629422A

Abstract

The invention discloses a wireless device setting method, a wireless device setting device and a readable storage medium, which relate to the technical field of wireless networks, wherein the wireless device setting method comprises the following steps: sending a preset broadcast packet to a user datagram protocol port of each wireless device; when the test wireless equipment is judged not to receive the preset broadcast packet, sending a preset user datagram protocol message to a test user datagram protocol end of the test wireless equipment; repeatedly sending N times of preset broadcast packets to other wireless equipment; judging whether a preset broadcast packet responded by other wireless equipment is received; if yes, analyzing the preset broadcast packet, and determining the fat AP wireless equipment according to the count value of the verification counter and the count value of the local counter obtained through analysis; if not, the test wireless equipment is used as fat AP wireless equipment, and wireless equipment setting can be conveniently carried out.

Description

Wireless equipment setting method and device and readable storage medium

Technical Field

The invention relates to the technical field of wireless networks, in particular to a wireless device setting method, a wireless device setting device and a readable storage medium.

Background

The use of Wireless Access Points (APs) is very common, and for APs, the use of Wireless Access points can be divided into fat APs (i.e., AC controllers) integrating all related functions and thin APs (i.e., common AP Access devices) regulated by fat APs. In the prior art, the wireless device as a fat AP is fixed, and in the installation of the whole wireless system, the location of the fat AP must be confirmed first, and then the layout of the thin AP must be performed. In addition, if a fat AP in the wireless system fails, the entire wireless system will be disabled. Therefore, the existing wireless device setting method is very inconvenient.

In view of the above, it is necessary for those skilled in the art to provide a convenient wireless device setting scheme.

Disclosure of Invention

The invention aims to provide a wireless device setting method, a wireless device setting device, a computer device and a readable storage medium.

In a first aspect, an embodiment of the present invention provides a wireless device setting method, which is applied to a computer device, where the computer device is in communication connection with a plurality of wireless devices, and each wireless device includes a corresponding user datagram protocol port, where the method includes:

sending a preset broadcast packet to a user datagram protocol port of each wireless device;

when the test wireless equipment is judged not to receive the preset broadcast packet, sending a preset user datagram protocol message to a test user datagram protocol end of the test wireless equipment, wherein the test wireless equipment is any one of the plurality of wireless equipment;

repeatedly sending a preset broadcast packet to other wireless equipment for N times, wherein the other wireless equipment is wireless equipment except the test wireless equipment in the plurality of wireless equipment, N is a positive integer, the preset broadcast packet carries an outgoing counter, and the test wireless equipment is provided with a local counter;

judging whether a preset broadcast packet responded by the other wireless equipment is received;

if so, analyzing the preset broadcast packet, and determining fat AP wireless equipment according to the count value of a verification counter obtained by analysis and the count value of the local counter, wherein the verification counter is an outgoing counter carried in the preset broadcast packet of the verification wireless equipment responding to the other wireless equipment;

and if not, taking the test wireless equipment as fat AP wireless equipment.

Optionally, the method further comprises:

and when the test wireless equipment is judged to receive the preset broadcast packet, the test wireless equipment is used as thin AP wireless equipment.

Optionally, the determining the fat AP wireless device according to the size of the count value of the check counter and the count value of the local counter obtained through the analysis includes:

judging whether the count value of the check counter is larger than the count value of the local counter or not;

if yes, judging that the test wireless equipment is thin AP wireless equipment, and repeating the step of sending a preset broadcast packet to a user datagram protocol port of each wireless equipment until judging whether the preset broadcast packet responded by other wireless equipment is received or not until determining the fat AP wireless equipment;

if not, judging that the verification wireless equipment is thin AP wireless equipment, and repeating the step of sending a preset broadcast packet to a user datagram protocol port of each wireless equipment until judging whether the preset broadcast packet responded by other wireless equipment is received or not until determining the fat AP wireless equipment.

Optionally, the determining the fat AP wireless device according to the size of the count value of the check counter and the count value of the local counter obtained through the analysis further includes:

when the count value of the check counter and the count value of the local counter are equal in size, sending a sleep instruction to the check wireless device to enable the check wireless device to sleep;

when the checking wireless equipment finishes the dormant state, repeating the step of sending a preset broadcast packet to the user datagram protocol port of each wireless equipment to judge whether the preset broadcast packet responded by other wireless equipment is received or not until the count value of the checking counter is different from the count value of the local counter.

Optionally, the count value includes a count value and a regulation level weight;

the determining whether the count value of the check counter is greater than the count value of the local counter includes:

constructing the first network framework identifier corresponding to the test wireless device according to a level multiple threshold, wherein the regulation and control level ratio between any two adjacent regulation and control authorities in the first network framework identifier is the level multiple threshold;

establishing second network framework identifications corresponding to the other wireless devices according to a level multiple threshold, wherein the regulation and control level ratio between any two adjacent regulation and control authorities in the second network framework identifications is the level multiple threshold, and the first network framework identifications and the second network framework identifications respectively comprise a plurality of regulation and control authorities with different levels;

extracting authorization source information of any regulation and control authority of the test wireless equipment in the first network framework identification, and determining the regulation and control authority with the minimum level in the second network framework identification as a target regulation and control authority;

associating the authorization source information with the target regulation and control authority, obtaining authorization source identification characters in the target regulation and control authority, and generating a test control network between the test wireless equipment and the other wireless equipment according to the authorization source information and the authorization source identification characters;

obtaining authorized identity information in the target regulation and control authority based on the authorized source identification characters, mapping the authorized identity information to the regulation and control authority where the authorized source information is located according to a reverse test control network corresponding to the test control network, obtaining a target identity corresponding to the authorized identity information in the regulation and control authority where the authorized source information is located, and determining the target identity level of the target identity;

acquiring a regulation confidence coefficient of the authorized source information mapped to the target regulation authority;

according to the similarity between the target identity identification and undetermined identity information corresponding to the multiple hierarchical identifications of the regulation confidence degree, sequentially acquiring a target level corresponding to the target identity level from the second network frame identification until the regulation level of the regulation authority where the target level is located is consistent with the regulation level of the target identity level in the first network frame identification, stopping acquiring the target level in the next regulation authority, and determining a level mapping relation between the target identity level and the target level acquired last time;

determining the regulation and control level weight according to the level mapping relation;

and determining the size of the count value of the check counter and the size of the count value of the local counter according to the count value and the regulation and control level weight, and judging.

Optionally, after the determining of the fat AP wireless device, the fat AP wireless device configures a primary communication process, the thin AP wireless device configures a secondary communication process, and the primary communication process and the secondary communication process maintain synchronous configuration;

the method further comprises the following steps:

when the main communication process and the auxiliary communication process are abnormal, judging that the fat AP wireless equipment has a fault;

and repeating the step of sending a preset broadcast packet to the user datagram protocol port of each wireless device until judging whether the preset broadcast packet responded by the other wireless devices is received or not until determining the new fat AP wireless device.

Optionally, after the determining the fat AP wireless device, the method comprises:

configuring an identity counter of the fat AP wireless device, wherein the value of the identity counter is greater than the value of the outgoing counter.

In a second aspect, an embodiment of the present invention provides a wireless device setting apparatus, which is applied to a computer device, where the computer device is in communication connection with a plurality of wireless devices, and each wireless device includes a corresponding user datagram protocol port, and the apparatus includes:

a sending module, configured to send a preset broadcast packet to a user datagram protocol port of each wireless device; when the test wireless equipment is judged not to receive the preset broadcast packet, sending a preset user datagram protocol message to a test user datagram protocol end of the test wireless equipment, wherein the test wireless equipment is any one of the plurality of wireless equipment; repeatedly sending a preset broadcast packet to other wireless equipment for N times, wherein the other wireless equipment is wireless equipment except the test wireless equipment in the plurality of wireless equipment, N is a positive integer, the preset broadcast packet carries an outgoing counter, and the test wireless equipment is provided with a local counter;

the judging module is used for judging whether a preset broadcast packet responded by the other wireless equipment is received or not; if so, analyzing the preset broadcast packet, and determining fat AP wireless equipment according to the count value of a verification counter obtained by analysis and the count value of the local counter, wherein the verification counter is an outgoing counter carried in the preset broadcast packet of the verification wireless equipment responding to the other wireless equipment; and if not, taking the test wireless equipment as fat AP wireless equipment.

In a third aspect, an embodiment of the present invention provides a computer device, where the computer device includes a processor and a non-volatile memory storing computer instructions, and when the computer instructions are executed by the processor, the computer device executes the wireless device setting method according to the first aspect.

In a fourth aspect, an embodiment of the present invention provides a readable storage medium, where the readable storage medium includes a computer program, and the computer program controls, when running, a computer device in which the readable storage medium is located to execute the wireless device setting method in the first aspect.

Compared with the prior art, the beneficial effects provided by the invention comprise: by adopting the wireless equipment setting method, the wireless equipment setting device, the computer equipment and the readable storage medium provided by the embodiment of the invention, a preset broadcast packet is sent to a user datagram protocol port of each wireless equipment; when the test wireless equipment is judged not to receive the preset broadcast packet, sending a preset user datagram protocol message to a test user datagram protocol end of the test wireless equipment, wherein the test wireless equipment is any one of the plurality of wireless equipment; repeatedly sending a preset broadcast packet to other wireless equipment for N times, wherein the other wireless equipment is the wireless equipment except the test wireless equipment in the plurality of wireless equipment, N is a positive integer, the preset broadcast packet carries an outgoing counter, and the test wireless equipment is provided with a local counter; judging whether a preset broadcast packet responded by the other wireless equipment is received; if so, analyzing the preset broadcast packet, and determining fat AP wireless equipment according to the count value of a verification counter obtained by analysis and the count value of the local counter, wherein the verification counter is an outgoing counter carried in the preset broadcast packet of the verification wireless equipment responding to the other wireless equipment; if not, the test wireless equipment is used as fat AP wireless equipment, and the setting of the wireless equipment can be conveniently completed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below. It is appreciated that the following drawings depict only certain embodiments of the invention and are therefore not to be considered limiting of its scope. For a person skilled in the art, it is possible to derive other relevant figures from these figures without inventive effort.

Fig. 1 is an interaction diagram of a wireless device setup system according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a method for setting up a wireless device according to an embodiment of the present invention;

fig. 3 is a schematic block diagram of a wireless device setting apparatus according to an embodiment of the present invention;

fig. 4 is a schematic block diagram of a computer device structure according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

The following detailed description of embodiments of the invention refers to the accompanying drawings.

Fig. 1 is an interaction diagram of a wireless device setting system according to an embodiment of the present invention. The wireless device setup system may include a computer device 100 and a plurality of wireless devices 200 communicatively coupled to the computer device 100. The wireless device placement system shown in fig. 1 is only one possible example, and in other possible examples, the wireless device placement system may include only a portion of the components shown in fig. 1 or may include other components.

In the embodiment of the present invention, the computer device 100 and the wireless device 200 in the wireless device setting system may cooperate with the wireless device setting method described in the following method embodiment, and the following detailed description of the method embodiment may be referred to for the specific steps executed by the computer device 100 and the wireless device 200.

In order to solve the technical problem in the foregoing background, fig. 2 is a wireless device setting method according to an embodiment of the present invention, which can be executed by the computer device 100 in fig. 1, and the wireless device setting method is described in detail below.

Step 201, a preset broadcast packet is sent to the user datagram protocol port of each wireless device 200.

Step 202, when it is determined that the test wireless device does not receive the preset broadcast packet, a preset user datagram protocol packet is sent to the test user datagram protocol terminal of the test wireless device 200.

Wherein the test wireless device is any one of the plurality of wireless devices 200.

And step 203, repeatedly sending the preset broadcast packet for N times to other wireless devices.

The other wireless devices are the wireless devices 200 except the testing wireless device in the plurality of wireless devices 200, N is a positive integer, the preset broadcast packet carries an outgoing counter, and the testing wireless device is configured with a local counter.

Step 204, determine whether a preset broadcast packet responded by other wireless devices is received.

If yes, go to step 205.

Step 205, parsing the preset broadcast packet, and determining the fat AP wireless device according to the size of the count value of the check counter and the count value of the local counter obtained through parsing.

The check counter is an outgoing counter carried in a preset broadcast packet of the check wireless device, which is given a response in the wireless device.

If not, go to step 206.

Step 206, the test wireless device is treated as a fat AP wireless device.

Before the wireless device setting method is executed, a step of initializing network parameters may be performed, a process detect _ ac _ AP _ process (fat AP switching process) may be started, after the thread is started, a preset broadcast packet (for example, a broadcast packet in a specified format, which may be included in the preset broadcast packet) may be sent to a User Datagram Protocol port (UDP) of each wireless device 200 in a network where the wireless device setting system is located, if none of the wireless devices 200 can correctly receive the preset broadcast packet, it may be considered that no fat AP exists on the network at this time, a preset User Datagram Protocol packet (UDP packet) may be sent to a test User Datagram Protocol port of a test wireless device, and the whole network is notified, and the test wireless device is any one of the wireless devices 200.

In the embodiment of the present invention, to avoid the problem of receiving and sending the preset broadcast packet due to network instability, we continue to repeat the receiving and sending process 10 times (N = 10), that is, it can be understood that a counter is set, counting can be started from 0 and counted up to 10, and the preset broadcast packet needs to be accompanied by an outgoing counter, so as to solve the problem that when a plurality of wireless devices 200 need to determine a fat AP at the same time, as an optimization level determination basis, if the data is larger, the data is proved to be sent earlier, and the fat AP is preferentially determined), specifically, if the preset broadcast packet is not received for 10 times, the wireless device under test is directly determined to be a fat AP. If the preset broadcast packet is received within 10 times, after the preset broadcast packet is received, the count value of the check counter of the preset broadcast packet is analyzed and compared with the count value of a local counter (namely, a counter configured by the test wireless equipment), and the fat AP wireless equipment and the thin AP wireless equipment are determined according to the comparison result.

Through the steps, when whether the fat AP exists in the network is not clear, all the wireless devices 200 can be traversed in a mode of comparing the count values of the counters until the fat AP is determined from all the wireless devices 200, and the setting of the wireless devices can be completed conveniently.

On the basis of the foregoing, referring to fig. 1 again, after step 201, the wireless device setting method further includes:

and when a preset broadcast packet of the test wireless equipment is received, the test wireless equipment is used as the thin AP wireless equipment.

It should be noted that, if the preset broadcast packet of the tested wireless device is received when the preset broadcast packet is sent from the beginning to the user datagram protocol port of each wireless device 200 in the network in which the wireless device setting system is located, it is proved that a fat AP already exists in the network, the tested wireless device can be directly determined as a thin AP, and the tested wireless device exits from the process detect _ ac _ AP _ process, so that convenience is provided when the fat AP is determined subsequently.

On this basis, as an alternative embodiment, the foregoing step 205 may be implemented by the following steps.

Sub-step 205-1, determining if the size of the count value of the check counter is greater than the size of the count value of the local counter.

If so, then sub-step 205-2 is performed.

Substep 205-2, determining the tested wireless device to be a thin AP wireless device, and repeating the steps of sending a preset broadcast packet to a user datagram protocol port of each wireless device to determine whether a preset broadcast packet responded by other wireless devices is received, until a fat AP wireless device is determined;

if not, then sub-step 205-3 is performed.

And a substep 205-3 of determining that the verified wireless device is a thin AP wireless device, and repeating the step of transmitting a preset broadcast packet to the user datagram protocol port of each wireless device to determine whether the preset broadcast packet responded by other wireless devices is received until a fat AP wireless device is determined.

Specifically, if the count value of the local counter is smaller than the count value of the check counter, it is directly determined that the test wireless device is a thin AP. If the count value of the local counter is greater than the count value of the check counter, the wireless device 200 responds to the opposite side to respond to the broadcast packet, informs that the count value of the local counter of the opposite side is greater than the count value of the check counter, and judges the opposite side to be the thin AP, and then continues to transmit and receive the broadcast packet until the opposite side is confirmed to be the fat or thin AP.

In addition to the above-mentioned specific implementation of step 205, the embodiment of the present invention provides another specific implementation of step 205, and reference may be made to the following steps.

And step 205-4, when the count value of the check counter and the count value of the local counter are equal in size, sending a sleep instruction to the check wireless device so as to enable the check wireless device to sleep.

Step 205-5, when the verification wireless device finishes the sleep state, repeating the step of sending the preset broadcast packet to the user datagram protocol port of each wireless device 200 to determine whether the preset broadcast packet responded by other wireless devices is received, until the count value of the verification counter is different from the count value of the local counter.

It should be understood that there may be cases where the count value of the check counter and the count value of the local counter are equal in size, and to avoid collision, the check wireless device may sleep for 1 to 10 seconds (randomly) by sending a sleep command, and then determine by sending a broadcast packet until there is no equal collision between the count values of the check counter and the local counter (because there is random time for each collision wireless device 200 to sleep, the probability of collision again may be greatly reduced).

Through the steps, the setting of the wireless device can be carried out when the count value of the check counter is equal to the count value of the local counter.

On the basis of the foregoing, the count value includes a count value and a regulation level weight. The above sub-step 205-1 can be realized by the following specific embodiments.

(1) And constructing a first network framework identifier corresponding to the test wireless equipment according to the grade multiple threshold value.

And the regulation and control level ratio between any two adjacent regulation and control authorities in the first network framework identifier is a level multiple threshold.

(2) And constructing second network frame identifications corresponding to other wireless devices according to the grade multiple threshold value.

The regulation and control level ratio between any two adjacent regulation and control authorities in the second network framework identification is a level multiple threshold, and the first network framework identification and the second network framework identification respectively comprise a plurality of regulation and control authorities with different levels.

(3) And extracting authorization source information of any regulation and control authority of the test wireless equipment in the first network framework identifier, and determining the regulation and control authority with the minimum level in the second network framework identifier as a target regulation and control authority.

(4) And associating the authorization source information with the target regulation and control authority, obtaining authorization source identification characters in the target regulation and control authority, and generating a test control network between the test wireless equipment and other wireless equipment according to the authorization source information and the authorization source identification characters.

(5) And acquiring authorized identity information in the target regulation and control authority based on the authorized source identification characters, mapping the authorized identity information to the regulation and control authority of the authorized source information according to the reverse test control network corresponding to the test control network, acquiring a target identity corresponding to the authorized identity information in the regulation and control authority of the authorized source information, and determining the target identity level of the target identity.

(6) And acquiring a regulation confidence degree of the authorized source information mapped to the target regulation authority.

(7) And according to the similarity between the target identity identification and undetermined identity information corresponding to a plurality of hierarchical identifications of the regulation confidence degree, sequentially acquiring a target level corresponding to the target identity level from the second network frame identification, stopping acquiring the target level in the next regulation authority until the regulation and control level of the regulation and control authority where the target level is located is consistent with the regulation and control level of the target identity level in the first network frame identification, and determining the level mapping relation between the target identity level and the target level acquired last time.

(8) And determining the regulation and control level weight according to the level mapping relation.

(9) And determining the size of the count value of the check counter and the size of the count value of the local counter according to the count value and the regulation and control grade weight, and judging.

Through the steps, a scheme for determining the size of the count value based on the count value and the regulation and control level weight can be obtained, and the size of the count value of the verification counter and the size of the count value of the local counter can be accurately distinguished.

On the basis of the above, after step 205, the fat AP wireless device configures the primary communication process, the thin AP wireless device configures the secondary communication process, and the primary communication process and the secondary communication process maintain synchronous configuration. The embodiment of the invention also provides a specific implementation mode when the fat AP has a fault.

And when the main communication process and the auxiliary communication process are abnormal, judging that the fat AP wireless equipment has a fault.

The step of sending the preset broadcast packet to the udp port of each wireless device 200 to determine whether the preset broadcast packet responded by another wireless device is received is repeated until a new fat AP wireless device is determined.

It should be understood that, in the network, there are communication processes between the Fat and Thin APs to keep communication all the time, the Fat AP is a main communication process (Fat _ AP _ process), the Thin AP is a sub-communication process (Thin _ AP _ process), one Fat AP communicates with a plurality of Thin APs (each Thin AP communicates with a thread), when the Fat AP is set with wireless information and the like, configuration synchronization is performed through the communication processes between the Fat AP and the Thin APs, and the heartbeat is maintained at ordinary times. And if the thin AP finds that the heartbeat of the fat AP is not passed, initiating the broadcast packet receiving and sending process for judging the fat AP, and judging a fat AP again.

Specifically, for the determined Fat AP wireless device, a Fat _ AP _ process may be started, a network socket may be initialized, and a specified TCP port (a TCP Protocol communication service providing port) may be monitored for communication connections from all other thin AP wireless devices. During normal operation of the Fat AP wireless device, the heartbeat connection is maintained between the primary communication process of the Fat AP wireless device and the secondary communication process of the Thin AP wireless device, i.e., the Fat AP process notifies the Thin AP wireless device that the Thin AP process synchronizes the configuration when any configuration in the Fat AP wireless device is modified. For the Thin AP wireless device, the method _ AP _ process is started, the network socket is initialized, the communication connection with the determined Fat AP wireless device is initiated at the specified TCP port, and the heartbeat and the configuration synchronous message from the Fat _ AP _ process are received.

Based on the above, when the heartbeat between the thin AP wireless device and the fat AP wireless device is not passed or the communication process connection is not successful, the aforementioned wireless device setting method may be restarted to determine a new fat AP wireless device.

Through the steps, the situation that the whole network cannot be used any more due to the fact that one fat AP fails in the network can be guaranteed.

For the above sub-step 205-5, section (4), the following embodiments are provided.

And mapping the authorized source information to the target regulation and control authority, and obtaining authorized source identification characters in the target regulation and control authority.

And acquiring preset associated information in the regulation and control authority of the authorized source information.

And mapping the preset associated information to a target regulation and control authority, and obtaining the associated network node in the target regulation and control authority.

And generating a test control network between the test wireless equipment and other wireless equipment according to the incidence relation between the authorization source information and the preset incidence information, the authorization source identification characters and the incidence network nodes.

For the above sub-step 205-5, section (7), the following embodiments are provided.

And determining the highest authority level of the target identity level in the target regulation and control authority as the target level according to the similarity between the target identity and the undetermined identity information corresponding to the plurality of hierarchical identifications on the regulation and control confidence.

Specifically, a plurality of hierarchical identifiers corresponding to the target identity classes in the target regulation authority can be determined based on the regulation confidence, and undetermined identity information based on each hierarchical identifier is generated by processing the plurality of hierarchical identifiers, wherein the size of the undetermined identity information is the same as that of the target identity identifier; respectively acquiring the similarity between each piece of pending identity information and the target identity identifier comprises: and respectively acquiring the similarity between each piece of identity information to be determined and the target identity according to the matching logic in each piece of identity information to be determined and the matching logic in the target identity. Respectively acquiring the similarity between each piece of identity information to be determined and a target identity identifier, and determining an optimal hierarchical identifier and a suboptimal hierarchical identifier in a plurality of hierarchical identifiers according to the similarity; and if the optimal grading identification and the suboptimal grading identification meet the target condition, determining the optimal grading identification as the highest authority level of the target identity level in the target regulation and control authority and taking the highest authority level as the target level.

And if the level of the target regulation and control authority is greater than the level of the target identity level in the first network framework identifier, matching the target level and the regulation and control confidence level to the next regulation and control authority of the target regulation and control authority, determining the highest authority level in the next regulation and control authority and determining the next regulation and control authority as the target regulation and control authority based on the matched target level and the matched regulation and control confidence level, and determining the highest authority level in the next regulation and control authority as the target level.

And if the regulation and control level of the target regulation and control authority in the second network frame identification is consistent with the regulation and control level of the target identity level in the first network frame identification, acquiring the identity verification code in the target identity identification by taking the target identity level as the target identity level, taking the target level determined at the last time as a reference level object, and acquiring a reference mapping rule based on the reference level object in the regulation and control authority where the reference level object is located.

And determining a position adjusting parameter of the reference mapping rule according to the matching logic in the reference mapping rule and the matching logic in the identity verification code, and adjusting the position of the reference mapping rule according to the position adjusting parameter.

And when the module corresponding to the position adjustment parameter meets the convergence condition, determining the basis of the reference mapping rule after the position adjustment as the adjusted highest authority level, and establishing a level mapping relation between the target identity level and the adjusted highest authority level.

On the above basis, after step 205, in order to ensure normal use of the fat AP, configuration may be performed by the following steps.

And configuring an identity counter of the fat AP wireless device, wherein the value of the identity counter is greater than that of the outgoing counter.

For example, if the wireless device determines to be a fat AP, the detect _ ac _ AP _ process waits for receiving the broadcast packet, and each time receives the broadcast packet with the counter of 11, it tells that the other party has a fat AP in the network, and after starting, sends a broadcast packet to determine that the maximum value of the count value of the fat and thin APs is 10 (N = 10), and after receiving the count value of 11, the other wireless devices regard the response sent by the fat AP, directly set themselves as the thin AP, and exit the detect _ ac _ AP _ process.

In addition, in order to conveniently enter the fat AP for setting, DNS interception is performed on each wireless device 200, and a specified domain name (URL) is resolved into a setting gateway IP of the fat AP, so that the fat AP can be directly controlled through the domain name without depending on which AP is managed. Moreover, in order to better distinguish which wireless device 200 is determined as a fat AP, a user may use a two-color lamp to determine (red and blue), a fat AP lights the blue lamp, and a thin AP lights the red lamp (the lamps are very simple to control, for example, using hardware GPIO control).

The embodiment of the present invention provides a wireless device setting apparatus 110, which is applied to a computer device 100, wherein the computer device 100 is in communication connection with a plurality of wireless devices 200, each wireless device 200 includes a corresponding user datagram protocol port, and the apparatus includes:

a sending module 1101, configured to send a preset broadcast packet to a user datagram protocol port of each wireless device 200; when the test wireless device is judged not to receive the preset broadcast packet, sending a preset user datagram protocol message to a test user datagram protocol end of the test wireless device, wherein the test wireless device is any one wireless device 200 in the plurality of wireless devices 200; repeatedly sending preset broadcast packets for N times to other wireless devices, wherein the other wireless devices are the wireless devices 200 except the test wireless device in the plurality of wireless devices 200, N is a positive integer, the preset broadcast packets carry outgoing counters, and the test wireless device is provided with a local counter;

a determining module 1102, configured to determine whether a preset broadcast packet responded by another wireless device is received; if so, analyzing the preset broadcast packet, and determining the fat AP wireless equipment according to the count value of the verification counter obtained by analysis and the count value of the local counter, wherein the verification counter is an outgoing counter carried in the preset broadcast packet of the verification wireless equipment responding to other wireless equipment; and if not, the testing wireless equipment is used as the fat AP wireless equipment.

Further, the sending module 1101 is further configured to:

Further, the determining module 1102 is configured to:

judging whether the count value of the check counter is larger than the count value of the local counter or not; if yes, the testing wireless equipment is judged to be thin AP wireless equipment, and the step of sending a preset broadcast packet to a user datagram protocol port of each wireless equipment 200 to judge whether the preset broadcast packet responded by other wireless equipment is received is repeated until fat AP wireless equipment is determined; if not, the wireless device is judged to be verified to be the thin AP wireless device, and the step of sending the preset broadcast packet to the user datagram protocol port of each wireless device 200 to judge whether the preset broadcast packet responded by other wireless devices is received is repeated until the fat AP wireless device is determined.

Further, the determining module 1102 is further configured to:

when the count value of the check counter is equal to the count value of the local counter, sending a sleep instruction to the check wireless equipment to enable the check wireless equipment to sleep; when the verification wireless device finishes the dormant state, the step of sending the preset broadcast packet to the user datagram protocol port of each wireless device 200 to judge whether the preset broadcast packet responded by other wireless devices is received is repeated until the difference between the count value of the verification counter and the count value of the local counter is obtained.

Further, the count value includes a count value and a regulation level weight, and the determining module 1102 is specifically configured to:

constructing a first network framework identifier corresponding to the test wireless equipment according to the level multiple threshold, wherein the regulation and control level ratio between any two adjacent regulation and control authorities in the first network framework identifier is the level multiple threshold; establishing second network frame identifications corresponding to other wireless devices according to the level multiple threshold, wherein the regulation and control level ratio between any two adjacent regulation and control authorities in the second network frame identifications is the level multiple threshold, and the first network frame identifications and the second network frame identifications respectively comprise a plurality of regulation and control authorities with different levels; extracting authorization source information of any regulation and control authority of the test wireless equipment in the first network framework identification, and determining the regulation and control authority with the minimum level in the second network framework identification as a target regulation and control authority; associating the authorization source information with the target regulation and control authority, obtaining authorization source identification characters in the target regulation and control authority, and generating a test control network between the test wireless equipment and other wireless equipment according to the authorization source information and the authorization source identification characters; obtaining authorized identity information in a target regulation and control authority on the basis of authorized source identification characters, mapping the authorized identity information to the regulation and control authority where the authorized source information is located according to a reverse test control network corresponding to the test control network, obtaining a target identity identification corresponding to the authorized identity information in the regulation and control authority where the authorized source information is located, and determining the target identity level of the target identity identification; acquiring a regulation confidence coefficient of the authorized source information mapped to the target regulation authority; sequentially acquiring target levels corresponding to target identity levels in a second network frame identifier according to the similarity between the target identity identifiers and undetermined identity information corresponding to a plurality of hierarchical identifiers of the regulation confidence degree until the regulation level of the regulation authority where the acquired target levels are located is consistent with the regulation level of the target identity levels in the first network frame identifier, stopping acquiring the target levels in the next regulation authority, and determining the level mapping relation between the target identity levels and the target levels acquired last time; determining regulation and control level weight according to the level mapping relation; and determining the size of the count value of the check counter and the size of the count value of the local counter according to the count value and the regulation and control grade weight, and judging.

Furthermore, the fat AP wireless equipment configures a main communication process, the thin AP wireless equipment configures an auxiliary communication process, and the main communication process and the auxiliary communication process are synchronously configured;

the determining module 1102 is further configured to:

when the main communication process and the auxiliary communication process are abnormal, judging that the fat AP wireless equipment has a fault; the step of sending the preset broadcast packet to the udp port of each wireless device 200 to determine whether the preset broadcast packet responded by another wireless device is received is repeated until a new fat AP wireless device is determined.

Further, the determining module 1102 is further configured to:

It should be noted that, for the implementation principle of the foregoing wireless device setting apparatus 110, reference may be made to the implementation principle of the foregoing wireless device setting method, and details are not described herein again. It should be understood that the division of the modules of the above apparatus is only a logical division, and the actual implementation may be wholly or partially integrated into one physical entity or may be physically separated. And these modules can be realized in the form of software called by processing element; or may be implemented entirely in hardware; and part of the modules can be realized in the form of calling software by the processing element, and part of the modules can be realized in the form of hardware. For example, the sending module 1101 may be a processing element separately set up, or may be implemented by being integrated into a chip of the apparatus, or may be stored in a memory of the apparatus in the form of program code, and the processing element of the apparatus calls and executes the functions of the sending module 1101. Other modules are implemented similarly. In addition, all or part of the modules can be integrated together or can be independently realized. The processing element described herein may be an integrated circuit having signal processing capabilities. In implementation, each step of the above method or each module above may be implemented by an integrated logic circuit of hardware in a processor element or an instruction in the form of software.

For example, the above modules may be one or more integrated circuits configured to implement the above methods, such as: one or more Application Specific Integrated Circuits (ASICs), or one or more microprocessors (DSPs), or one or more Field Programmable Gate Arrays (FPGAs), among others. For another example, when some of the above modules are implemented in the form of a processing element scheduler code, the processing element may be a general-purpose processor, such as a Central Processing Unit (CPU) or other processor that can call program code. As another example, these modules may be integrated together, implemented in the form of a system-on-a-chip (SOC).

The embodiment of the present invention provides a computer device 100, where the computer device 100 includes a processor and a non-volatile memory storing computer instructions, and when the computer instructions are executed by the processor, the computer device 100 executes the aforementioned wireless device setting method. As shown in fig. 4, fig. 4 is a block diagram of a computer device 100 according to an embodiment of the present invention. The computer device 100 includes a wireless device setting apparatus 110, a memory 111, a processor 112, and a communication unit 113.

To facilitate the transfer or interaction of data, the elements of the memory 111, the processor 112 and the communication unit 113 are electrically connected to each other, directly or indirectly. For example, the components may be electrically connected to each other via one or more communication buses or signal lines. The wireless device setting apparatus 110 includes at least one software function module which may be stored in the memory 111 in the form of software or firmware (firmware) or solidified in an Operating System (OS) of the computer device 100. The processor 112 is used for executing executable modules stored in the memory 111, such as software functional modules and computer programs included in the wireless device setting apparatus 110.

The readable storage medium comprises a computer program, and the computer program controls a computer device in which the readable storage medium is located to execute the aforementioned wireless device setting method when the computer program runs.

In summary, the wireless device setting method, apparatus, computer device and readable storage medium provided by the embodiments of the present invention can conveniently implement a wireless device setting scheme that is convenient to install (there is no need to fixedly arrange an AC controller, i.e. plug and play, and place at will), simple to control (when any device is connected, an AC control interface can be logged in to control the whole set of system), strong in system robustness (AC failure is implemented, AC function is automatically transferred, and the use of the whole network is not affected regardless of the failure of any device on the network), and flexible to assemble (any device can be automatically combined into a packaged product, and the number of devices is matched at will).

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A wireless device provisioning method applied to a computer device, wherein the computer device is communicatively connected to a plurality of wireless devices, and each of the wireless devices includes a corresponding user datagram protocol port, the method comprising:

if not, taking the test wireless equipment as fat AP wireless equipment;

the determining the fat AP wireless device according to the size of the count value of the check counter and the count value of the local counter obtained through the analysis includes:

if not, judging that the verification wireless equipment is thin AP wireless equipment, and repeating the step of sending a preset broadcast packet to a user datagram protocol port of each wireless equipment until judging whether the preset broadcast packet responded by other wireless equipment is received or not until determining the fat AP wireless equipment;

the determining the fat AP wireless device according to the count value of the check counter obtained through the analysis and the count value of the local counter, further includes:

2. The method of claim 1, further comprising:

3. The method of claim 1, wherein the count value comprises a count value and a regulation level weight;

constructing a first network framework identifier corresponding to the test wireless device according to a level multiple threshold, wherein the regulation and control level ratio between any two adjacent regulation and control authorities in the first network framework identifier is the level multiple threshold;

4. The method of claim 1, wherein after the determining of the fat AP wireless device, the fat AP wireless device configures a primary communication process, the thin AP wireless device configures a secondary communication process, and the primary communication process and the secondary communication process maintain a synchronous configuration;

the method further comprises the following steps:

5. The method of claim 1, wherein after the determining the fat AP wireless device, the method comprises:

6. A wireless device setup apparatus, for use with a computer device communicatively coupled to a plurality of wireless devices, each of the wireless devices including a corresponding user datagram protocol port, the apparatus comprising:

the judging module is used for judging whether a preset broadcast packet responded by the other wireless equipment is received or not; if so, analyzing the preset broadcast packet, and determining fat AP wireless equipment according to the count value of a verification counter obtained by analysis and the count value of the local counter, wherein the verification counter is an outgoing counter carried in the preset broadcast packet of the verification wireless equipment responding to the other wireless equipment; if not, taking the test wireless equipment as fat AP wireless equipment;

the judgment module is specifically configured to:

the judgment module is specifically further configured to:

7. A computer device comprising a processor and a non-volatile memory having computer instructions stored thereon, wherein the computer instructions, when executed by the processor, cause the computer device to perform the wireless device provisioning method of any of claims 1-5.

8. A readable storage medium, characterized in that the readable storage medium comprises a computer program which, when executed, controls a computer device in which the readable storage medium is located to perform the wireless device setting method of any one of claims 1 to 5.