CN111797038A - Burning control method, system, device, equipment and computer readable storage medium - Google Patents

Abstract

The invention discloses a burning control method, a system, a device, equipment and a computer readable storage medium, wherein the burning control method comprises the following steps: acquiring account information of a device terminal corresponding to a client based on an input request instruction, and determining whether to perform burning times detection on the account information; if yes, sending a query frequency instruction to a server corresponding to the client based on the account information, receiving the available burning frequency fed back by the server based on the query frequency instruction, and detecting whether the available burning frequency is larger than or equal to a preset value; if the verification information is successful, the device end is allowed to burn and download. Thereby improving the safety of burning.

Description

Burning control method, system, device, equipment and computer readable storage medium

Technical Field

The present invention relates to the field of burning technologies, and in particular, to a burning control method, system, device, and apparatus, and a computer-readable storage medium.

Background

The burning refers to a process in which the device is connected to the host through a burning interface (such as a Universal Serial Bus (USB) interface) of the chip to be burned, and reads data from the host and writes the data into the memory of the chip to be burned. At present, the data is generally directly downloaded from a server to a host device during burning, then burning is carried out through a production tool, and the data is released after burning is finished, but the burning data is easily lost in the mode, other users can carry out burning at will, namely, burning covering replacement is easily carried out by other personnel, and the burning safety is low. Therefore, how to improve the security of the burning becomes a technical problem to be solved urgently at present.

Disclosure of Invention

The invention mainly aims to provide a burning control method, a burning control system, a burning control device, burning control equipment and a computer readable storage medium, and aims to solve the technical problem of improving the burning safety.

In order to achieve the above object, the present invention provides a burning control method, which is applied to a client, and comprises the following steps:

acquiring account information of a device terminal corresponding to the client based on an input request instruction, and determining whether to perform burning times detection on the account information;

if yes, sending a query frequency instruction to a server corresponding to the client based on the account information, receiving the available burning frequency fed back by the server based on the query frequency instruction, and detecting whether the available burning frequency is larger than or equal to a preset value;

if the verification information is successful, the device end is allowed to carry out burning downloading.

Optionally, the step of sending a preset check code to the device side includes:

detecting whether a preset check code needs to be encrypted or not;

if so, determining encryption information based on the account information, encrypting the check code according to the encryption information, and sending the encrypted check code to the equipment terminal.

Optionally, after the step of detecting whether the available burning times is greater than or equal to a preset value, the method includes:

if the number of times of the received increase instruction is less than the preset value, judging whether the increase instruction sent by the server side is received;

and if the frequency increasing instruction is received, determining the target frequency increasing corresponding to the frequency increasing instruction, unlocking the un-unlocked target frequency increasing based on the frequency increasing instruction to obtain the target burning frequency, and executing the step of sending a preset check code to the equipment end when the target burning frequency is greater than or equal to a preset value.

In addition, to achieve the above object, the present invention provides a recording control method, which is applied to an equipment side, and includes the following steps:

when an input burning starting instruction is detected, loading a preloaded program in the equipment terminal based on the burning starting instruction, and detecting whether burning tool information exists in the equipment terminal;

if the client side verification code exists, obtaining a verification code fed back by the client side based on the preloading program and the burning tool information, verifying the verification code, and determining whether the verification of the verification code is successful;

and if the verification is successful, sending verification information of the successful verification to the client, and carrying out burning downloading when receiving the burning downloading permission information fed back by the client.

Optionally, the step of obtaining the check code fed back by the client based on the preloaded program and the burning tool information includes:

and sending a request instruction with account information to the client based on the preloading program and the burning tool information, wherein the client acquires the account information in the request instruction and sends a check code to the equipment terminal when the available burning times corresponding to the account information is greater than or equal to a preset value.

In addition, in order to achieve the above object, the present invention further provides a burning control system, where the burning control system includes a client, an equipment end and a server end, and the burning control system implements the following steps:

the method comprises the steps that an equipment end detects an input burning starting instruction, a preloading program in the equipment end is loaded based on the burning starting instruction, and whether a client exists in the equipment end or not is detected; if the client side exists, sending a request instruction with account information to the client side based on the preloading program and the burning tool information;

the method comprises the steps that a client side obtains account information of a device side corresponding to the client side based on an input request instruction, and whether burning times detection is carried out on the account information is determined; if yes, sending a query frequency instruction to a server corresponding to the client based on the account information;

the server side feeds back the available burning times to the client side according to the query times instruction;

the client receives the available burning times fed back by the server based on the query time instruction, and detects whether the available burning times are greater than or equal to a preset value; if the check code is larger than or equal to the preset check code, sending the preset check code to the equipment end;

the equipment side acquires the check code fed back by the client side, checks the check code and determines whether the check code is successfully checked; if the verification is successful, sending verification information of successful verification to the client;

the client receives verification information fed back by the equipment terminal based on the verification code, and allows the equipment terminal to perform burning downloading when the verification information is verified successfully;

and the equipment terminal carries out burning and downloading when receiving the burning and downloading permission information fed back by the client terminal.

In addition, to achieve the above object, the present invention further provides a recording control apparatus, where the recording control apparatus is disposed at a client, and the recording control apparatus includes:

the acquisition module is used for acquiring account information of a device terminal corresponding to the client based on an input request instruction and determining whether to detect the burning times of the account information;

if so, sending a query frequency instruction to a server corresponding to the client based on the account information, receiving the available burning frequency fed back by the server based on the query frequency instruction, and detecting whether the available burning frequency is greater than or equal to a preset value;

and the receiving module is used for sending a preset check code to the equipment end if the check code is larger than or equal to the preset check code, receiving check information fed back by the equipment end based on the check code, and allowing the equipment end to perform burning and downloading when the check information is successful.

In addition, to achieve the above object, the present invention further provides a recording control apparatus, where the recording control apparatus is disposed at an equipment end, and the recording control apparatus includes:

the loading module is used for loading a preloading program in the equipment terminal based on the burning starting instruction when the input burning starting instruction is detected, and detecting whether burning tool information exists in the equipment terminal;

the verification module is used for acquiring a verification code fed back by the client based on the preloading program and the burning tool information if the verification module exists, verifying the verification code and determining whether the verification code is verified successfully;

and the sending module is used for sending verification information which is successfully verified to the client if the verification is successful, and carrying out burning downloading when receiving the burning downloading permission information fed back by the client.

In addition, to achieve the above object, the present invention also provides a burn control apparatus, including: the device comprises a memory, a processor and a burning control program which is stored on the memory and can run on the processor, wherein the burning control program realizes the steps of the burning control method when being executed by the processor.

In addition, to achieve the above object, the present invention further provides a computer readable storage medium, where a burning control program is stored, and when the burning control program is executed by a processor, the steps of the burning control method are implemented.

The method comprises the steps of obtaining account information of a device side corresponding to a client side based on an input request instruction, and determining whether to detect the burning times of the account information; if yes, sending a query frequency instruction to a server corresponding to the client based on the account information, receiving the available burning frequency fed back by the server based on the query frequency instruction, and detecting whether the available burning frequency is larger than or equal to a preset value; if the verification information is successful, the device end is allowed to carry out burning downloading. The method comprises the steps of determining account information according to an input request instruction, receiving available burning times fed back by a server side when the burning times of the account information are determined to be detected, sending a check code to an equipment side when the available burning times are larger than or equal to a preset value, and carrying out burning downloading when the check information fed back by the equipment side is checked successfully. Therefore, the problem that in the prior art, the equipment end is directly connected with the client and is subjected to burning, burning safety is reduced, and burning safety is improved. And the available burning times can be detected, so that the phenomenon that the burning fails due to insufficient available burning times is avoided, and the burning efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of a burning control device in a hardware operating environment according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a first embodiment of a method for controlling a service-side-based recording according to the present invention;

fig. 3 is a flowchart illustrating a burning control method based on a service end according to another embodiment of the present invention;

FIG. 4 is a schematic diagram of an apparatus module in the burning control apparatus according to the present invention;

FIG. 5 is a schematic diagram of another apparatus module in the burning control apparatus according to the present invention;

FIG. 6 is a schematic diagram illustrating a client operation flow in the burning control method according to the present invention;

fig. 7 is a schematic flow chart of the device side operation in the burning control method of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, fig. 1 is a schematic structural diagram of a burning control device in a hardware operating environment according to an embodiment of the present invention.

The burning control device in the embodiment of the invention can be a terminal device such as a PC or a server (such as an X86 server) which is loaded with a virtualization platform.

As shown in fig. 1, the burn control apparatus may include: a processor 1001, such as a CPU, a network interface 1004, a user interface 1003, a memory 1005, a communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the terminal structure shown in fig. 1 is not intended to be limiting and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a burn control program.

In the terminal shown in fig. 1, the network interface 1004 is mainly used for connecting to a backend server and performing data communication with the backend server; the user interface 1003 is mainly used for connecting an equipment end (user end) and performing data communication with the equipment end; the processor 1001 may be configured to call the burning control program stored in the memory 1005, and perform the following operations in the embodiments of the method for configuring the authority of the security component.

Based on the above hardware structure, embodiments of the burning control method of the present invention are provided as follows.

Referring to fig. 2, fig. 2 is a schematic flow chart of a first embodiment of a burning control method according to the present invention, where the burning control method is applied to a client, and the burning control method includes:

step S10, acquiring account information of a device side corresponding to the client based on the input request instruction, and determining whether to perform burning times detection on the account information;

in this embodiment, the burning is to download data to a fixed hardware, such as a chip. In this embodiment, the starting process of the burning may be to start the bootrom, load the preloader, and download the bootload through the DA (download assistant). Wherein, bootrom is an inherent program built in the burning tool. The DA is a download function bin file of the burning tool. In addition, in this embodiment, encryption verification is performed before the preloader jumps to the DA, and if verification is successful, the jump is normally made to the DA. If the verification fails, the prompt information of the verification failure is output, and the burning is stopped to be started, so that the purpose of improving the burning safety is achieved. The encryption verification process may be to first close the DA function through the preloader, and send a group of verification codes to the device end based on a connection mode between the burning tool and the device end when the burning tool detects a request instruction sent by the device end. And if the connection mode of the burning tool and the equipment end is USB connection, the burning tool sends the check code through the USB. And after receiving the check code, the equipment end can check according to the check code and download and burn through the DA after the check is successful. It should be noted that, in this embodiment, the burning tool is stored at the device side, and the device side requests the client side through the burning tool, and performs burning downloading after the device side and the client side complete handshaking after verification is passed. In addition, in this embodiment, the device side is an intelligent terminal applied by a client, such as a tablet computer, a mobile phone, and the like. The client is a system end where the burning tool operates, and the burning tool pulls information such as account numbers, times and the like from the server and updates the burnt local times into the server database. After the burning tool successfully acquires the information related to the equipment terminal in the server terminal, the burning tool sends a verification handshake to the equipment terminal to perform verification downloading operation. The server, i.e. the server, is a server, which may be a PC computer on the network, or a cloud server, and mainly stores account information, manages information such as the number of accounts, and receives requests and updates of processing tools.

In this embodiment, a ukey is a usb peripheral device with a local storage function used at a client, and stores account and time information of a client, and the ukey can read the account and the time from the ukey and can also be used with a server (i.e., a server), where both the ukey and the server must exist when a device is used, so as to increase security. That is, when the client receives a request instruction sent by the device, it may be simultaneously detected in the ukey and the server whether account information carried by the request instruction exists in the server and the ukey, if account information matching the account information exists in both the server and the ukey, the client continues to perform the step of determining whether the account information is detected for the number of times of burning, and if any one of the server and the ukey does not have account information matching the account information, it is determined that the device cannot perform the burning and downloading operation. Or only detecting the ukey, detecting whether account information matched with the account information exists, and if so, continuing to execute the step of determining whether the account information is detected in the burning times. The method can also be used for detecting only the server side, detecting whether account information matched with the account information exists, and if so, continuing to execute the step of determining whether the account information is detected by the burning times.

In addition, the encryption check process may also be that the DA function is closed by the preloader, and when the client detects a request instruction sent by the device, an encryption method is determined by the preloader and the burning at the device, such as symmetric encryption, or asymmetric encryption, or a check code + N-bit random number, and encrypted into a ciphertext by the AES encryption method, and after the client encrypts the check code into a ciphertext, the ciphertext is sent to the device based on the connection between the client and the device, and after receiving the ciphertext, the preloader at the device decrypts the ciphertext according to a predetermined password to obtain the check code, then checks according to the check code, and after the check is successful, downloads and burns through the DA.

Therefore, in this embodiment, a request instruction input by the device side needs to be obtained first, account information (including a user name and a password) of the device side connected to the client side is obtained according to the request instruction, the account information is detected in the ukey and/or the server side, whether historical account information matched with the account information exists is determined, and if the historical account information exists, whether burning times of the account information are detected is determined. That is, after the account information is acquired, it is determined whether the total burning times of the client is greater than a preset threshold, if so, it is determined whether the account information has the authority of accessing all the burning times in the client, and if the account information has the authority of accessing all the burning times, it is determined that the burning times detection of the account information is not needed. However, if the account information only has the right to access part of the burning times, the burning times of the account information needs to be detected. And if the total burning times of the client is less than or equal to a preset threshold, determining that the burning times of the account information needs to be detected. The burning times may be times for allowing the device to perform burning in the client. The total burning times are the maximum burning times which can be carried out by the client. The preset threshold may be any threshold set in advance by the user.

Step S20, if yes, sending a query frequency instruction to a server corresponding to the client based on the account information, receiving the available burning frequency fed back by the server based on the query frequency instruction, and detecting whether the available burning frequency is greater than or equal to a preset value;

when the fact that the burning times of the acquired account information need to be detected is judged, an inquiry time instruction is sent to a server corresponding to the client according to the account information, so that the server can inquire the burning times (namely the available burning times) of the account information. The method comprises the steps of forming a query frequency instruction with account information, a read operation instruction or a write operation instruction, a query frequency and a random code in a client, encrypting the query frequency instruction and then sending the encrypted query frequency instruction to a server. And after receiving the query frequency instruction, the server decrypts the query frequency instruction, queries the database frequency according to the account information in the query frequency instruction, namely the available burning frequency corresponding to the account information, and feeds the available burning frequency back to the client. When the server side inquires the available burning times, whether the inquiry time instruction carries a read operation instruction or a write operation instruction is judged, if the inquiry time instruction carries the read operation instruction, the server side encrypts the available burning times according to an inquiry time instruction encryption mode to form an encrypted ciphertext. And sending the encrypted ciphertext with the available burning times to the burning terminal so that the burning terminal can decrypt the encrypted ciphertext with the available burning times to obtain the available burning times corresponding to the account information. When the query frequency instruction carries a write operation instruction, the server side determines the latest available burning frequency based on the write operation instruction, writes the latest available burning frequency into the database data corresponding to the account information, and feeds the latest available burning frequency back to the client side through the database corresponding to the account information.

After the available burning times are obtained, it is required to detect whether the available burning times are greater than or equal to a preset value (any times set in advance by a user, such as one time), and execute different operations according to different detection results. And when the acquired account information does not need to be subjected to burning times detection, the check code can be directly sent to the equipment terminal.

And step S30, if the verification result is greater than or equal to the preset verification code, sending the preset verification code to the equipment end, receiving verification information fed back by the equipment end based on the verification code, and burning and downloading when the verification information is successful.

When the number of times of burning available is greater than or equal to the preset value, the preset check code (which may be the check code after encryption or the check code without encryption) is actively sent to the device side. And the equipment end can carry out verification according to the verification code, namely, the verification code input by a user is received, the input verification code and the verification code are compared, or the verification code and the verification code which are set in the equipment end in advance are compared, the comparison result is fed back to the client as verification information, the client detects the verification information, if the comparison is consistent, the verification information is determined to be successful, burning and downloading can be carried out, and burning and downloading are to the client. If the comparison is inconsistent, the verification information is determined to be verification failure, and the burning operation is stopped.

It should be noted that, in this embodiment, after a developer imports its own burning file into the burner hardware, the burning times (that is, how many times each account information can be burned) can be set through corresponding software, and the set burner hardware is transmitted to the terminal customer, so that the terminal customer can perform burning through the device side. In addition, in this embodiment, a burner medium is further provided, where the device side accesses the client side through the burner medium, the burner medium stores the number of burning times and the account information written in advance, and the number of times that burning can be performed can be queried in the server according to the account information in the burner medium when the burning tool performs the burner. That is, in this embodiment, the device side is controlled to control the burning tool by burning the corresponding hardware medium and the server side, and other common burning tools with potential safety hazards are prevented from being burned in the client side by means of tool and device verification.

In addition, in order to assist understanding of the working principle of the client in this embodiment, the following description is given by way of example.

For example, as shown in fig. 6, when starting to perform the burning, the remaining number of times of the USB key, that is, the available burning number corresponding to the account information of the device side is obtained, and whether the available remaining number of times (that is, the available burning number) is greater than a preset value is detected, if so, a prompt indicating that the remaining number of times is insufficient is output, and the burning operation is terminated. If the verification is wrong, outputting a corresponding error prompt and terminating the burning operation. And if the verification is correct, waiting for the device (namely the device end) to jump to the DA (download assistant), and downloading and burning after the jump is finished.

In the embodiment, account information of a device side corresponding to a client side is obtained based on an input request instruction, and whether burning times detection is carried out on the account information is determined; if yes, sending a query frequency instruction to a server corresponding to the client based on the account information, receiving the available burning frequency fed back by the server based on the query frequency instruction, and detecting whether the available burning frequency is larger than or equal to a preset value; if the verification information is successful, the device end is allowed to carry out burning downloading. The method comprises the steps of determining account information according to an input request instruction, receiving available burning times fed back by a server side when the burning times of the account information are determined to be detected, sending a check code to an equipment side when the available burning times are larger than or equal to a preset value, and carrying out burning downloading when the check information fed back by the equipment side is checked successfully. Therefore, the problem that in the prior art, the equipment end is directly connected with the client and is subjected to burning, burning safety is reduced, and burning safety is improved. And the available burning times can be detected, so that the phenomenon that the burning fails due to insufficient available burning times is avoided, and the burning efficiency is improved.

Further, based on the first embodiment of the present invention, a second embodiment of the burning control method based on the service end of the present invention is provided, in this embodiment, step S20 in the above embodiment is a refinement of the step of sending a preset check code to the device end, and includes:

step a, detecting whether a preset check code needs to be encrypted;

and b, if needed, determining encryption information based on the account information, encrypting the check code according to the encryption information, and sending the encrypted check code to the equipment terminal.

In this embodiment, when the client accurately sends a preset check code (any transaction code set in advance) to the device, it needs to be determined whether the preset check code needs to be encrypted first, when it is determined that the check code needs to be encrypted, information (i.e., an encryption mode) is encrypted according to account information, and the check code is encrypted according to the encryption information, that is, an encryption mode can be determined through a preloading program in the device and the client, and the encryption mode is stored to the client.

The encryption mode can be check code + N-bit random number, the check code is encrypted into a ciphertext through the AES encryption mode, the check code is encrypted into the ciphertext at the client side, and the ciphertext is sent to the equipment side; the method can also be used for encrypting by adopting a mode of two pairs of RSA public and private keys, namely, generating a first public key according to the account information, generating a second public key according to the check code, encrypting the check code by the first public key, secondarily encrypting the check code by the second public key, and sending the secondarily encrypted check code to the equipment terminal.

In this embodiment, when it is determined that the preset check code needs to be encrypted, the encryption information is determined based on the account information, the check code is encrypted according to the encryption information, and the encrypted check code is sent to the device side, so that the security of the check code is ensured.

Further, after the step of detecting whether the available burning times is greater than or equal to a preset value, the method includes:

step c, if the number of times of the received instruction is less than the number of times of the received instruction, judging whether the instruction for increasing the number of times sent by the server side is received;

when the available burning times are found to be smaller than the preset value through judgment, whether a command for increasing the times (used for adjusting the burning times corresponding to the account information) sent by the server side is received or not needs to be judged, if the command is not received, a prompt that the burning times are insufficient is output, and the burning operation is stopped.

And d, if the times increasing instruction is received, determining the target times increasing corresponding to the times increasing instruction, unlocking the un-unlocked target times increasing based on the times increasing instruction to obtain the target burning times, and executing the step of sending a preset check code to the equipment side when the target burning times is larger than or equal to a preset value.

When the number-of-times-increasing instruction sent by the server is received through judgment, the target number-of-times-increasing corresponding to the number-of-times-increasing instruction needs to be determined, namely the number of times of burning the account information needs to be increased, the number-of-times-increasing of the target which is not unlocked is unlocked according to the number-of-times-increasing instruction, and the sum of the number of times of increasing the target and the available number of times of burning is used as the target burning number. That is, the client opens only the permission of part of the burning times to the account information, but does not open all the permission, and the server controls the burning times of the account information, so that the part of the times without the permission can be unlocked, and the equipment side can perform burning for more times. And after the target burning times are obtained, whether the target burning times are larger than or equal to a preset value needs to be detected, if yes, a step of sending a preset check code value to the equipment end is executed, and the burning starting operation is continued. If not, the burning operation is stopped. It should be noted that the server can increase the number of times of burning corresponding to the account information and can also control the number of times of burning corresponding to the account information to decrease, that is, send a decrease number instruction to the client to control the decrease of the number of times of burning corresponding to the account information. That is, the server can remotely control the burning times of the device.

In this embodiment, when the available burning times are smaller than the preset value and the number-of-times increasing instruction sent by the server is received, the target number-of-times increasing instruction is unlocked based on the number-of-times increasing instruction to obtain the target burning times, and when the target burning times are greater than or equal to the preset value, the step of sending the preset check code value to the device side is executed, so that effective burning is guaranteed.

Further, referring to fig. 3, fig. 3 is a schematic flow chart of another embodiment of the recording control method of the present invention, where the recording control method is applied to an equipment side, and the recording control method includes:

step S100, when an input burning starting instruction is detected, loading a preloading program in the equipment terminal based on the burning starting instruction, and detecting whether burning tool information exists in the equipment terminal;

in this embodiment, the device side includes other terminals such as a PC computer, and performs online burning by installing corresponding application software in the device side, and the device side supports mainstream operating systems such as windows, mac, and linux. The burning command can be a command actively input by a user or a triggered command set in advance. The main tasks of the pre-load program are initialization environment, including c environment, timer, gpio (general purpose input output interface), pmic (power management integrated circuit), uart (asynchronous receiver transmitter), i2c bus, etc. and loading LK image into DRAM (dynamic random access memory). Therefore, in this embodiment, when an input burning start instruction is detected in the device side, iram is initialized, that is, an internal nonvolatile memory space is initialized, a preloaded program is loaded from an rom (internal storage), whether burning tool information exists in the device side is detected according to the loaded preloaded program, that is, burning tool information that the client needs to acquire is determined, whether connection is established with the device side having the burning tool information is detected, and if not, a burning flow is not started.

Step S200, if the verification code exists, the verification code fed back by the client is obtained based on the preloading program and the burning tool information, the verification code is verified, and whether the verification code is verified successfully or not is determined;

in this embodiment, when it is determined that burning tool information exists, a connection needs to be established between the client and the device terminal having the burning tool according to the burning tool information, a request instruction is sent to the client through the preloaded program, the client obtains account information (including a user name and a password) of the device terminal connected to the client according to the request instruction, whether burning times detection is performed on the account information is determined, and when it is determined that the burning times detection is performed and the available burning times is greater than or equal to a preset value, an encrypted or unencrypted check code is sent to the device terminal. After receiving the check code, the device side firstly determines whether the check code is encrypted, if so, the device side firstly decrypts, and after decryption succeeds, the device side verifies the check code, namely, the device side receives the check code input by a user, compares the input check code with the check code, or compares the check code with the check code preset in the device side, and determines whether the check code succeeds in verification according to a comparison result.

Step S300, if the verification is successful, sending verification information of the successful verification to the client, wherein the client downloads and burns the programs based on the verification information of the successful verification.

And when the verification is successful through judgment, the equipment side sends verification information of the successful verification to the client side, and starts the DA (download assistant) when receiving the burning-permitted download information fed back by the client side. And the client downloads the burning based on the verification information which is verified successfully and the DA in the equipment terminal. The downloading and burning process comprises the steps that an independent downloading thread is established between the equipment end and a downloading serial port of the client, the downloading thread is communicated with the downloading serial port, a preset downloading protocol is operated, and burning and downloading are carried out.

In addition, in order to assist understanding of the principle of downloading and burning at the device side in this embodiment, an example is described below.

For example, as shown in fig. 7, iram is initialized in the device side, and then a preloader (preloading program) is loaded to iram, that is, a CPU (central processing unit) of the device side initializes an internal nonvolatile memory space, and loads the preloader from rom (internal storage), and after the preloader is loaded, a client detection is performed to determine whether a client exists, that is, whether the client is connected to the device side is detected, and if not, ik (micro-kernel firmware) is loaded, and the device side system is normally started. If the verification code exists, whether the received verification code is correct is verified according to the verification code sent by the client, if the verification code is wrong, a corresponding error prompt is output, and if the verification code is correct, the client is informed, and the DA is skipped to enter a normal downloading and burning process.

In this embodiment, when an input burning start instruction is detected, a preloaded program in the device end is loaded based on the burning start instruction, and whether burning tool information exists in the device end is detected; if the client side verification code exists, obtaining a verification code fed back by the client side based on the preloading program and the burning tool information, verifying the verification code, and determining whether the verification of the verification code is successful; and if the verification is successful, sending verification information of the successful verification to the client, and carrying out burning downloading when receiving the burning downloading permission information fed back by the client. The method comprises the steps of loading a preloading program according to a burning starting instruction, obtaining a check code fed back by a client according to the preloading program when the fact that burning tool information exists in a device end is determined, and sending check information which is checked successfully to the client when the check code is checked successfully so that the client can download and burn conveniently. Therefore, the problem that in the prior art, the equipment end is directly connected with the client and is subjected to burning, burning safety is reduced, and burning safety is improved.

Further, the step of obtaining the check code fed back by the client based on the preloading program and the burning tool information includes:

and q, sending a request instruction with account information to the client based on the preloading program and the burning tool information, wherein the client acquires the account information in the request instruction and sends a check code to the equipment terminal when the available burning times corresponding to the account information are larger than or equal to a preset value.

In this embodiment, the device side determines a client side with a burning tool according to the burning tool information, requests to establish connection, and then sends a request instruction with account information to the client side based on the preloaded program, and then the client side obtains the account information (including a user name and a password) of the device side connected with the client side according to the request instruction, and then judges whether to perform burning times detection on the account information. That is, after the account information is acquired, it is determined whether the total burning times of the client is greater than a preset threshold, if so, it is determined whether the account information has the authority of accessing all the burning times in the client, and if the account information has the authority of accessing all the burning times, it is determined that the burning times detection of the account information is not needed. However, if the account information only has the right to access part of the burning times, the burning times of the account information needs to be detected. And if the total burning times of the client is smaller than or equal to a preset threshold, determining that the burning times of the account information needs to be detected, and actively sending a preset check code (which can be a check code after encryption operation or a check code without encryption operation) to the equipment end when determining that the burning times of the account information needs to be detected and the available burning times corresponding to the account information is larger than or equal to a preset value.

In the embodiment, the request instruction is sent to the client according to the preloading program, and the client sends the check code to the equipment terminal when driving the available burning times to be greater than or equal to the preset value based on the request instruction, so that the phenomenon that the burning fails due to insufficient available burning times and burning is also carried out is avoided, and the burning efficiency is improved.

In addition, an embodiment of the present invention further provides a burning control system, where the burning control system includes a client, an equipment end, and a server end, and the burning control system implements the following steps:

the method comprises the steps that an equipment end detects an input burning starting instruction, a preloading program in the equipment end is loaded based on the burning starting instruction, and whether a client exists in the equipment end or not is detected; if the client side exists, sending a request instruction with account information to the client side based on the preloading program and the burning tool information;

the method comprises the steps that a client side obtains account information of a device side corresponding to the client side based on an input request instruction, and whether burning times detection is carried out on the account information is determined; if yes, sending a query frequency instruction to a server corresponding to the client based on the account information;

the server side feeds back the available burning times to the client side according to the query times instruction;

the client receives the available burning times fed back by the server based on the query time instruction, and detects whether the available burning times are greater than or equal to a preset value; if the check code is larger than or equal to the preset check code, sending the preset check code to the equipment end;

the equipment side acquires the check code fed back by the client side, checks the check code and determines whether the check code is successfully checked; if the verification is successful, sending verification information of successful verification to the client;

the client receives verification information fed back by the equipment terminal based on the verification code, and allows the equipment terminal to perform burning downloading when the verification information is verified successfully;

and the equipment terminal carries out burning and downloading when receiving the burning and downloading permission information fed back by the client terminal.

In this embodiment, the device side loads the pre-loaded program according to the burning start instruction, and when it is determined that the client exists in the device side, obtains the check code fed back by the client according to the pre-loaded program, and when the check code is successfully checked, sends the check information of the successful check to the client, so that the client downloads and burns. Therefore, the problem that in the prior art, the equipment end is directly connected with the client and is subjected to burning, burning safety is reduced, and burning safety is improved. The burning terminal determines account information according to the input request instruction, receives the available burning times fed back by the server terminal when determining that the burning times of the account information are detected, sends a check code to the equipment terminal when the available burning times are larger than or equal to a preset value, and carries out burning downloading when the check information fed back by the equipment terminal is checked successfully. Therefore, the problem that in the prior art, the equipment end is directly connected with the client and is subjected to burning, burning safety is reduced, and burning safety is improved. And the available burning times can be detected, so that the phenomenon that the burning fails due to insufficient available burning times is avoided, and the burning efficiency is improved.

Referring to fig. 4, the present invention further provides a recording control apparatus, in this embodiment, the recording control apparatus is disposed at a client, and the recording control apparatus includes:

the acquisition module A10 is used for acquiring account information of a device side corresponding to the client side based on an input request instruction, and determining whether to perform burning times detection on the account information;

a detection module a20, configured to send a query frequency instruction to a server corresponding to the client based on the account information, receive an available burning frequency fed back by the server based on the query frequency instruction, and detect whether the available burning frequency is greater than or equal to a preset value;

the receiving module a30 is configured to send a preset check code to the device side if the check code is greater than or equal to the preset check code, receive check information fed back by the device side based on the check code, and allow the device side to perform burning and downloading when the check information is a check success.

Optionally, the receiving module a30 is further configured to:

detecting whether a preset check code needs to be encrypted or not;

if so, determining encryption information based on the account information, encrypting the check code according to the encryption information, and sending the encrypted check code to the equipment terminal.

Optionally, the detection module a20 is further configured to:

if the number of times of the received increase instruction is less than the preset value, judging whether the increase instruction sent by the server side is received;

and if the frequency increasing instruction is received, determining the target frequency increasing corresponding to the frequency increasing instruction, unlocking the un-unlocked target frequency increasing based on the frequency increasing instruction to obtain the target burning frequency, and executing the step of sending a preset check code to the equipment end when the target burning frequency is greater than or equal to a preset value.

Referring to fig. 4, the present invention further provides a recording control apparatus, in this embodiment, the recording control apparatus is disposed at an equipment end, and the recording control apparatus includes:

a loading module a100, configured to, when an input burning start instruction is detected, load a pre-loaded program in the device end based on the burning start instruction, and detect whether burning tool information exists in the device end;

the verification module A200 is used for acquiring a verification code fed back by the client based on the preloading program and the burning tool information if the verification code exists, verifying the verification code and determining whether the verification code is verified successfully;

and the sending module a300 is configured to send verification information that is successfully verified to the client if the verification is successful, and perform burning downloading when receiving burning downloading permission information fed back by the client.

Optionally, the verification module a200 is further configured to:

and sending a request instruction with account information to the client based on the preloading program and the burning tool information, wherein the client acquires the account information in the request instruction and sends a check code to the equipment terminal when the available burning times corresponding to the account information is greater than or equal to a preset value.

The steps implemented by the functional modules based on the burning control device can refer to the embodiments of the burning control method, and are not described herein again.

In addition, the embodiment of the invention also provides a computer storage medium.

The computer storage medium stores thereon a computer program, and the computer program, when executed by a processor, implements the operations in the burning control method provided by the above embodiments.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A burning control method is applied to a client side and comprises the following steps:

acquiring account information of a device terminal corresponding to the client based on an input request instruction, and determining whether to perform burning times detection on the account information;

if yes, sending a query frequency instruction to a server corresponding to the client based on the account information, receiving the available burning frequency fed back by the server based on the query frequency instruction, and detecting whether the available burning frequency is larger than or equal to a preset value;

if the verification information is successful, the device end is allowed to burn and download.

2. The burning control method of claim 1, wherein the step of sending the predetermined check code to the device side includes:

detecting whether a preset check code needs to be encrypted or not;

if so, determining encryption information based on the account information, encrypting the check code according to the encryption information, and sending the encrypted check code to the equipment terminal.

3. The burning control method of claim 1, wherein after the step of detecting whether the available burning times is greater than or equal to a preset value, the method comprises:

if the number of times of the received increase instruction is less than the preset value, judging whether the increase instruction sent by the server side is received;

and if the frequency increasing instruction is received, determining the target frequency increasing corresponding to the frequency increasing instruction, unlocking the un-unlocked target frequency increasing based on the frequency increasing instruction to obtain the target burning frequency, and executing the step of sending a preset check code to the equipment end when the target burning frequency is greater than or equal to a preset value.

4. A burning control method is characterized in that the burning control method is applied to an equipment end, and comprises the following steps:

when an input burning starting instruction is detected, loading a preloaded program in the equipment terminal based on the burning starting instruction, and detecting whether burning tool information exists in the equipment terminal;

if the client side verification code exists, obtaining a verification code fed back by the client side based on the preloading program and the burning tool information, verifying the verification code, and determining whether the verification of the verification code is successful;

and if the verification is successful, sending verification information of the successful verification to the client, and carrying out burning downloading when receiving the burning downloading permission information fed back by the client.

5. The burning control method of claim 4, wherein the step of obtaining the check code fed back by the client based on the preloading program and the burning tool information comprises:

and sending a request instruction with account information to the client based on the preloading program and the burning tool information, wherein the client acquires the account information in the request instruction and sends a check code to the equipment terminal when the available burning times corresponding to the account information is greater than or equal to a preset value.

6. A burning control system is characterized by comprising a client, an equipment end and a server end, and the burning control system realizes the following steps:

the method comprises the steps that an equipment end detects an input burning starting instruction, a preloading program in the equipment end is loaded based on the burning starting instruction, and whether a burning tool exists in the equipment end or not is detected; if the client side exists, sending a request instruction with account information to the client side based on the preloading program and the burning tool information;

the method comprises the steps that a client side obtains account information of a device side corresponding to the client side based on an input request instruction, and whether burning times detection is carried out on the account information is determined; if yes, sending a query frequency instruction to a server corresponding to the client based on the account information;

the server side feeds back the available burning times to the client side according to the query times instruction;

the client receives the available burning times fed back by the server based on the query time instruction, and detects whether the available burning times are greater than or equal to a preset value; if the check code is larger than or equal to the preset check code, sending the preset check code to the equipment end;

the equipment side acquires the check code fed back by the client side, checks the check code and determines whether the check code is successfully checked; if the verification is successful, sending verification information of successful verification to the client;

the client receives verification information fed back by the equipment terminal based on the verification code, and allows the equipment terminal to perform burning downloading when the verification information is verified successfully;

and the equipment terminal carries out burning and downloading when receiving the burning and downloading permission information fed back by the client terminal.

7. A burning control device is characterized in that the burning control device is arranged at a client, and the burning control device comprises:

the acquisition module is used for acquiring account information of a device terminal corresponding to the client based on an input request instruction and determining whether to detect the burning times of the account information;

if so, sending a query frequency instruction to a server corresponding to the client based on the account information, receiving the available burning frequency fed back by the server based on the query frequency instruction, and detecting whether the available burning frequency is greater than or equal to a preset value;

and the receiving module is used for sending a preset check code to the equipment end if the check code is larger than or equal to the preset check code, receiving check information fed back by the equipment end based on the check code, and allowing the equipment end to perform burning and downloading when the check information is successful.

8. A burning control device is characterized in that the burning control device is arranged at an equipment end and comprises:

the loading module is used for loading a preloading program in the equipment terminal based on the burning starting instruction when the input burning starting instruction is detected, and detecting whether burning tool information exists in the equipment terminal;

the verification module is used for acquiring a verification code fed back by the client based on the preloading program and the burning tool information if the verification module exists, verifying the verification code and determining whether the verification code is verified successfully;

and the sending module is used for sending verification information which is successfully verified to the client if the verification is successful, and carrying out burning downloading when receiving the burning downloading permission information fed back by the client.

9. A burn control apparatus, characterized in that the burn control apparatus comprises: memory, a processor and a burning control program stored on the memory and operable on the processor, the burning control program, when executed by the processor, implementing the steps of the burning control method according to any one of claims 1 to 5.

10. A computer-readable storage medium, wherein a burning control program is stored on the computer-readable storage medium, and when executed by a processor, the burning control program implements the steps of the burning control method according to any one of claims 1 to 5.

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