CN115883276A - Intelligent household appliance safety control method based on small program - Google Patents

Abstract

The invention discloses an intelligent household appliance safety control method based on small programs. The method comprises the following steps: storing two zone bit parameters and two groups of data parameters in a flash of the equipment end, reading the four groups of information firstly after the equipment end is powered on, and starting a Bluetooth hotspot by the equipment end; the small program end is connected with the equipment end through Bluetooth; and the equipment terminal selects whether to carry out data communication with the small program or not according to the signs of the registration flag and the secret key flag, ensures that the equipment terminal completes equipment registration and secret key reporting at the small program terminal, and communication data between the small program terminal and the equipment terminal after completion is data encrypted by using a control key. According to the invention, serial handshake actions are carried out before the small program is communicated with the equipment end, so that the small program is ensured to obtain the encryption key generated by the equipment end, and meanwhile, the small program needs to synchronously update related key information in the interaction process with the cloud server, so that data security optimization is carried out on the Bluetooth control intelligent equipment technology.

Description

Intelligent household appliance safety control method based on small program

Technical Field

The invention belongs to the technical field of intelligent household appliances, and particularly relates to an intelligent household appliance safety control method based on a small program.

Background

With the rapid development of IOT (Internet of Things) technology in recent years, the goods output of Internet of Things equipment is in the trend of blowout, and especially intelligent household products are taken as representatives. At present, intelligent home control modes on the market are various, for example, through APP remote control, online voice control, NFC (Near Field Communication, meaning short-range wireless Communication technology) control and the like specific to a manufacturer, all the control modes require that intelligent devices are connected with a home router, and a user needs to solve the problem of network distribution of the devices at first before using the intelligent devices. At present, a mode for directly controlling intelligent equipment through a small program is newly added. The user searches the small program through the WeChat, the small program can discover the equipment through Bluetooth and establish connection with the equipment, short-distance equipment control is achieved, the control mode is called as a digital remote controller, on one hand, the mode can replace a traditional remote controller, on the other hand, the user does not need to download an APP and perform distribution network binding operation of the equipment, and therefore the mode is popular in user experience.

Application number CN202210437635.2 (a mobile terminal control method, device and storage medium) proposes a direct connection direct control scheme without bluetooth encryption, in which a mobile terminal obtains bluetooth information of a controlled device and establishes a connection with the bluetooth information, and controls the controlled device according to a control instruction, so that a certain potential safety hazard exists in a data communication process.

Disclosure of Invention

The invention aims to provide an intelligent household appliance safety control method based on an applet, which is characterized in that a series of handshaking actions are carried out before the applet is communicated with an equipment end to ensure that the applet obtains an encryption key generated by the equipment end, and meanwhile, the applet needs to synchronously update related key information in the interaction process with a cloud server, so that data safety optimization is carried out on a Bluetooth control intelligent equipment technology, and communication data safety is ensured; and the operation authority of the control personnel can be conveniently judged.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to an intelligent household electrical appliance safety control method based on small programs, which comprises the following steps:

stp1, storing two zone bit parameters and two groups of data parameters in a flash of an equipment end, wherein the zone bit parameters are a registration flag and a secret key flag, and the two groups of data parameters are a registration key and a secret key;

after the equipment terminal is powered on, firstly reading the four groups of information, and if the contents of the registration key and the key are empty, the equipment terminal firstly generates the two groups of information; then the equipment end starts a Bluetooth hotspot and sends out a broadcast waiting connection;

stp2, starting equipment scanning search after opening the mobile phone applet, and storing the equipment terminal in a nearby equipment list when a Bluetooth hotspot in the step Stp1 is searched;

the Stp3 and the applet end are connected with the equipment end through Bluetooth; the equipment end selects whether to carry out data communication with the small program or not according to the marks of the registration flag and the secret key flag, ensures that the equipment end finishes equipment registration and secret key reporting at the small program end,

if the steps are finished, the equipment end sends a communication instruction to confirm that the data communication can be started with the applet, and the communication data between the applet end and the equipment end is data encrypted by using the control key;

if the equipment is not registered, entering a step Stp4;

after the Stp4 and the applet end receive the registration key and the key of the equipment end, the applet server registers the equipment and reports the key to the equipment end server, and returns the processing result of the cloud server to the equipment end; and returning to step Stp3;

and Stp5, if the equipment end is deleted from the equipment list of the small program end, the small program end sends a reset instruction to the equipment end, the equipment end sends a reset result back to the small program end after clearing the secret key and the secret key flag, and the small program end requests the cloud server to unbind the equipment from the list after receiving the reset result.

Preferably, the equipment end is a BT module of the intelligent household appliance, and the BT module is connected with an MCU of the intelligent household appliance through a UART interface to perform data communication.

Preferably, the applet end is an applet installed on a mobile phone.

Preferably, the device end completes only one registration action on the applet server, then the device end only updates the key and the key flag, and the data encryption mode of the device end and the applet end uses an AES encryption algorithm in the encrypted data transmission process.

Preferably, the cloud server comprises an applet server and a device server, and the applet server is used for storing device data of an applet; the equipment end server is used for storing equipment data of the equipment end.

Preferably, when the device end does not send a communication instruction in step Stp3 to confirm that data communication with the applet can be started, the applet end saves the device end in the my device list by calling a device binding interface of the applet server end;

and after the equipment terminal sends a communication instruction to confirm that the equipment terminal can start data communication with the small program, the small program terminal obtains a control secret key of the equipment through a direct calling interface of the small program server to carry out encrypted data communication with the equipment terminal.

Preferably, the communication content in the step Stp3 for data communication with the applet includes a registration key and a key.

The invention has the following beneficial effects:

according to the invention, serial handshake actions are carried out before the small program is communicated with the equipment end, so that the small program is ensured to obtain the encryption key generated by the equipment end, and meanwhile, the small program is required to synchronously update related key information in the interaction process with the cloud server, so that data safety optimization is carried out on the Bluetooth control intelligent equipment technology, and the communication data safety is ensured; and the operation authority of the control personnel can be conveniently judged.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a system flowchart of an intelligent household appliance safety control method based on small programs according to the present invention;

FIG. 2 is a flow chart of a data encryption system for an intelligent household appliance security control method based on an applet;

FIG. 3 is a flow chart of applet end operation;

FIG. 4 is a diagram of a prior art Bluetooth connection control system;

fig. 5 is a diagram of a bluetooth connection control system according to the present invention.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

As shown in fig. 4, a bluetooth connection and controlled system of an intelligent device (taking an intelligent air conditioner as an example) in the prior art includes a single bluetooth intelligent module, an air conditioner electronic control unit (MCU), a cloud platform, and a mobile phone applet; the Bluetooth intelligent module and the air conditioner are in data communication through a serial port, an applet at a mobile phone end and the intelligent module are directly connected through Bluetooth and are in Bluetooth data communication, equipment control is realized in the communication process, and the control flow is called direct connection direct control;

the bluetooth broadcast hotspot identified by the SN is released all the time after the bluetooth intelligent module in the process is powered on. And after the small program is connected with the Bluetooth hotspot of the SN, entering a control interface of the corresponding equipment according to the material code in the SN identification information. Meanwhile, the applet terminal and the air conditioner electronic control need to follow a set of communication protocol together, and the Bluetooth intelligent module is only used as a data transmission channel between the applet and the air conditioner electronic control (for example, the applet sends a control instruction to the air conditioner electronic control through a serial port of the Bluetooth intelligent module, the air conditioner electronic control analyzes and processes and executes the corresponding instruction, then a new electronic control state parameter serial port is sent back to the Bluetooth intelligent module, the Bluetooth intelligent module sends the new electronic control state parameter serial port to the applet, and the applet analyzes data and synchronizes corresponding control results);

the operation mode of direct connection direct control in the existing Bluetooth communication technology can be used for connecting and controlling equipment at will for any client, so that potential safety hazards in two aspects are generated. Firstly, the data of communication is not encrypted, and the possibility of being tampered in the process of carrying out Bluetooth data interaction in a short distance is realized, and secondly, no authority setting is made for an operator. Based on the two points, the prior art has a large optimization space.

As shown in fig. 5, the system of the present invention includes an equipment side, an applet server side, and an equipment server side; the invention relates to a system composition for connecting Bluetooth intelligent equipment by using an applet and controlling the equipment, wherein an equipment end is used for replacing the name of a single BT (bit-rate converter) module, and compared with the existing 'direct connection direct control' technology, the system composition is characterized in that a series of handshake actions are carried out before the applet and the equipment end are communicated and established, so that the applet can obtain an encryption key generated by the equipment end, and meanwhile, the applet needs to synchronously update related key information in the interaction process with a cloud server; and secondly, in the process of carrying out data communication with the equipment end by the small program, a function of setting unbinding is newly added so as to carry out corresponding authority setting on the operation management of the small program on the equipment.

Referring to fig. 1, the present invention is a security control method for intelligent home appliances based on small programs, comprising the following steps:

stp1, a BT module of an intelligent household appliance is arranged at an equipment end, the BT module is connected with an MCU of the intelligent household appliance through a UART interface to carry out data communication, and a small program end is a small program installed on a mobile phone;

storing two zone bit parameters and two groups of data parameters in a flash of the equipment end, wherein the zone bit parameters are a registration flag and a secret key flag, and the two groups of data parameters are a registration key and a secret key;

after the equipment terminal is powered on, firstly reading the four groups of information, and if the contents of the registration key and the key are empty, the equipment terminal firstly generates the two groups of information; then, the equipment end starts a Bluetooth hotspot and sends out a broadcast waiting connection;

stp2, starting equipment scanning search after opening the mobile phone applet, and storing the equipment terminal in a nearby equipment list when a Bluetooth hotspot in the step Stp1 is searched;

the Stp3 and the applet end are connected with the equipment end through Bluetooth; the equipment end selects whether to carry out data communication with the small program or not according to the marks of the registration flag and the secret key flag, the communication content comprises a registration key and a secret key, the equipment end is ensured to finish equipment registration and secret key reporting at the small program end,

if the steps are finished, the equipment end sends a communication instruction to confirm that the data communication can be started with the applet, and the communication data between the applet end and the equipment end is data encrypted by using the control key;

when the equipment end does not send a communication instruction to confirm that the data communication with the small program can be started, the small program end saves the equipment end to the my equipment list by calling an equipment binding interface of the small program server end; note that this list is distinct from the list in step Stp2, one is simply a nearby device list and one is a my device list;

and after the equipment end sends a communication instruction to confirm that the equipment end can start data communication with the applet, the applet end obtains a control secret key of the equipment through a direct calling interface in the applet server to carry out encrypted data communication with the equipment end.

If the equipment is not registered, entering step Stp4;

after the Stp4 and the applet end receive the registration key and the secret key of the equipment end, the applet server registers the equipment and reports the secret key to the equipment end server, and the processing result of the cloud server is returned to the equipment end; and returning to step Stp3;

the method comprises the following substeps:

SS01, the equipment end sends the encrypted character string of the registration key to the applet,

SS02, registering equipment by the applet in the cloud server, and registering the applet server by calling an interface in the equipment server;

after SS03 and equipment are successfully registered, the applet server returns the result to the equipment end; after receiving data, the equipment end modifies the registration flag;

SS04, the equipment end sends the encrypted character string of the key to the small program,

SS05, the applet sets an equipment key by calling an interface at the cloud server, and the applet server sets the key at the equipment server;

after SS06 and the secret key are successfully set, the small program server returns the result to the equipment end; and the device side modifies the key flag after receiving the data.

And Stp5, if the equipment end is deleted from the equipment list of the small program end, the small program end sends a reset instruction to the equipment end, the equipment end sends a reset result back to the small program end after clearing the secret key and the secret key flag, and the small program end requests the cloud server to unbind the equipment from the list after receiving the reset result.

The cloud server comprises an applet server and a device side server, and the applet server is used for storing device data of the applet; the device end server is used for storing device data of the device end.

The first embodiment is as follows:

the equipment end only completes one registration action on the small program server, then the equipment end only updates the secret key and the secret key flag, and the data encryption mode of the equipment end and the small program end uses an AES encryption algorithm in the encrypted data transmission process.

The data encryption communication protocol between the small program end and the equipment end is shown in the following table:

as shown in fig. 2-3, the bluetooth data encryption system and implementation process of the present invention are further described, wherein the process before encrypted data communication is performed between the device side and the applet is already described in the related description of fig. 1, and further detailed description of the related process of the applet is focused herein;

after the applet receives the command 5 sent by the device side (according to table 4, the device side requests to start encrypted data transmission), and during the encrypted data communication process of the command 6, it will respectively determine:

is my device list contain the device? (after command 5)

Is the user's phone number shared? (after command 5)

Is the device reset flag at this time not reset? (Command 6 in progress)

Firstly, if the equipment list contains the equipment or does not contain the equipment, the applet obtains that the value of result is-1; secondly, the mobile phone number of the user is shared or not shared, and the result values obtained by the small program are all-1; finally, the value of result is 0 only when the reset mark of the equipment is reset successfully, the value of result is returned by the equipment end, and the initial value of result is-1 in the applet;

the applet further processes the logic according to the result value as:

if the result value is-1, it indicates that the device is not reset, and further determines whether the device is in the device list of the user:

if not, calling a binding equipment interface:

if the binding is successful, further calling an interface for obtaining the secret key until the UI package is entered for equipment control (the user enters an equipment control page by clicking from a nearby equipment list and becomes a homeowner at the moment);

if the binding fails, prompting the user that no operation authority exists, and resetting the setting to control the equipment (the equipment is bound with a certain user and the equipment is not shared by the user who operates currently);

if the user exists, directly calling an interface for obtaining the secret key until the user enters a UI package to perform equipment control (clicking from the my equipment list to enter an equipment control page, and at the moment, the user shares equipment for the user for either a homeowner or the homeowner);

if the result value is 0, it indicates that the device reset is successful (at this time, the device side has cleared the key, and recovered the key flag). And the applet requests a reset interface of the cloud, deletes the equipment binding relation and modifies the reset identifier into reset. The devices after the reset success are returned from my device list to the nearby device list. After clicking the device in the nearby device list again, starting to perform communication sequence of a command 0, a command 3, a command 4 and a command 5, and as the device is an unbound device, directly calling a bound device interface, becoming a new home owner, and then further calling and obtaining a key interface until entering a UI package to perform device control (entering the my device list from the nearby device list again);

the operation authority setting of the user is described in detail above, and the process effectively avoids the problem that any client can directly control the Bluetooth intelligent device directly. Only if the operating user becomes a homeowner for the first time to bind the device or the operating user is invited by the homeowner, the device is controlled, otherwise, the device in the nearby device list is not controlled.

It should be noted that, in the above system embodiment, each included unit is only divided according to functional logic, but is not limited to the above division as long as the corresponding function can be implemented; in addition, the specific names of the functional units are only for the convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

In addition, it can be understood by those skilled in the art that all or part of the steps in the method for implementing the embodiments described above can be implemented by instructing the relevant hardware through a program, and the corresponding program can be stored in a computer-readable storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, or the like.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. An intelligent household appliance safety control method based on small programs is characterized by comprising the following steps:

stp1, storing two zone bit parameters and two groups of data parameters in a flash of an equipment end, wherein the zone bit parameters are a registration flag and a secret key flag, and the two groups of data parameters are a registration key and a secret key;

when the equipment end is powered on, the four groups of information are read firstly, and if the contents of the registration key and the secret key are empty, the equipment end generates the two groups of information firstly; then, the equipment end starts a Bluetooth hotspot and sends out a broadcast waiting connection;

stp2, starting equipment scanning search after opening the mobile phone applet, and storing the equipment terminal in a nearby equipment list when a Bluetooth hotspot in the step Stp1 is searched;

the Stp3 and the applet end are connected with the equipment end through Bluetooth; the equipment end selects whether to carry out data communication with the small program or not according to the marks of the registration flag and the secret key flag, ensures that the equipment end finishes equipment registration and secret key reporting at the small program end,

if the steps are finished, the equipment end sends a communication instruction to confirm that the data communication can be started with the applet, and the communication data between the applet end and the equipment end is the data encrypted by using the control key;

if the equipment is not registered, entering a step Stp4;

after the Stp4 and the applet end receive the registration key and the secret key of the equipment end, the applet server registers the equipment and reports the secret key to the equipment end server, and the processing result of the cloud server is returned to the equipment end; and returning to step Stp3;

and Stp5, if the equipment end is deleted from the equipment list of the small program end, the small program end sends a reset instruction to the equipment end, the equipment end sends a reset result back to the small program end after clearing the secret key and the secret key flag, and the small program end requests the cloud server to unbind the equipment from the list after receiving the reset result.

2. The intelligent household appliance safety control method based on the small program as claimed in claim 1, wherein the device side is a BT module of the intelligent household appliance, and the BT module is connected with the MCU of the intelligent household appliance through a UART interface to perform data communication.

3. The intelligent household appliance safety control method based on the small program as claimed in claim 1, wherein the small program end is the small program installed on the mobile phone.

4. The intelligent household appliance safety control method based on the small program as claimed in claim 1, wherein the cloud server comprises a small program server and a device side server, the small program server is used for storing device data of the small program; the equipment end server is used for storing the equipment data of the equipment end.

5. The intelligent household appliance security control method based on the small program according to claim 4, characterized in that the device side only completes one registration action on the small program server, then the device side only updates the key and the key flag, and the device side and the small program side use AES encryption algorithm for data encryption during the transmission of encrypted data.

6. The intelligent household appliance safety control method based on the applet as claimed in claim 4, wherein in step Stp3, when the device side does not send a communication command to confirm that data communication with the applet can start, the applet side saves the device side to the my device list by calling the device binding interface of the applet server side;

and after the equipment terminal sends a communication instruction to confirm that the equipment terminal can start data communication with the small program, the small program terminal obtains a control secret key of the equipment through a direct calling interface of the small program server to carry out encrypted data communication with the equipment terminal.

7. The intelligent household appliance security control method based on small programs according to claim 1, wherein the communication content of the step Stp3 for data communication with the small programs comprises a registration key and a key.

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