CN109901848B - Equipment parameter burning method and device - Google Patents

Abstract

The application discloses a method and a device for burning equipment parameters. The method comprises the following steps: the device comprises a plurality of devices to be burned, a plurality of recording devices and a plurality of recording devices, wherein the devices to be burned are connected with the devices to be burned through a plurality of transmission channels respectively; receiving a parameter to be burned acquisition request of the corresponding equipment to be burned; acquiring the parameter to be burned acquiring request according to the parameter to be burned acquiring request, wherein the parameter to be burned acquiring request comprises the identification information of the equipment to be burned; determining a burning instruction corresponding to the equipment to be burned according to the identification information; and burning the parameters to be burned into the equipment to be burned through the transmission channel according to the burning command. In addition, a device corresponding to the method is also disclosed. The scheme of the application can be suitable for various complex business requirements, effectively saves the production cost, and enables the burning device to be easy to maintain and expand.

Description

Equipment parameter burning method and device

Technical Field

The application relates to the technical field of electronics, in particular to a method and a device for burning equipment parameters.

Background

When many electronic devices are produced, parameter information of leaving factories needs to be set by using serial port burning software. At present, many manufacturers can only develop a set of special burner and software system for burning the parameters to be burned of a specific product according to the characteristics of the specific product. The existing method can accelerate the production speed to a certain extent and play a role in simplifying the production flow. However, when the recording device of a specific product fails, the production efficiency of the product is greatly affected.

However, in the actual production process, manufacturers face various complex business requirements, and only a certain specific device to be burned is produced. However, different types of devices to be burned use different burners and software systems, and the burners provided by various manufacturers have different use methods and operation interfaces. The existing production mode cannot be suitable for more complex service requirements, the utilization rate of the burning device is low in the production process, and the production cost is high.

Disclosure of Invention

The embodiment of the application provides an equipment parameter burning method and device, which are suitable for various complex business requirements, effectively save the production cost and enable the burning device to be easy to maintain and expand.

In a first aspect, an embodiment of the present application provides an apparatus parameter burning method, which is applied to a burning server, and includes: the device comprises a plurality of devices to be burned, a plurality of recording devices and a plurality of recording devices, wherein the devices to be burned are connected with the devices to be burned through a plurality of transmission channels respectively; receiving a parameter to be burned acquiring request of the corresponding equipment to be burned; acquiring the parameter to be burned acquiring request according to the parameter to be burned acquiring request, wherein the parameter to be burned acquiring request comprises the identification information of the equipment to be burned; determining a burning instruction corresponding to the device to be burned according to the identification information; and burning the parameters to be burned into the equipment to be burned through the transmission channel according to the burning command.

In a possible implementation manner, after the connecting the plurality of devices to be burned through the plurality of transmission paths respectively, the method further includes: and sending a connection request to the device to be burned through the transmission channel.

In another possible implementation manner, the acquiring the parameter to be burned of the device to be burned according to the parameter to be burned acquisition request includes: acquiring a parameter table to be burned; acquiring a parameter to be burned burning initial row of the parameter table to be burned; and acquiring the parameters to be burned of the equipment to be burned according to the parameter table to be burned and the burning starting row of the parameters to be burned.

In another possible implementation manner, the determining, according to the identification information, a burning instruction corresponding to the device to be burned includes: searching a configuration file corresponding to the identification information; if the searching is successful, analyzing the configuration file to obtain a burning instruction contained in the configuration file; and determining the burning instruction contained in the configuration file as the burning instruction corresponding to the device to be burned.

In another possible implementation manner, the method further includes: receiving one or more burning instructions acquired from a configuration interface; generating a configuration file according to the one or more burning instructions; and storing the configuration file according to the identification information of the device to be burned.

In another possible implementation manner, after the device to be burned is burned into the device to be burned through the transmission path according to the burning command, the method includes: identifying the parameter to be burned by adopting a progress state identification, wherein the progress identification comprises one or more of the following: a processing state, a completed state and a to-be-processed state; and updating the progress state identification according to the feedback message.

In a second aspect, an embodiment of the present application provides an apparatus parameter burning method, which is applied to an apparatus to be burned, and includes: sending a parameter to be burned acquisition request to a burning server through a transmission channel, wherein the parameter to be burned acquisition request comprises identification information of equipment to be burned; receiving parameters to be burned from the burning server through the transmission channel; and sending a feedback message to the burning server according to the burning condition.

In one possible implementation, the method further includes: and receiving a connection request from the burning server through the transmission channel.

In a third aspect, an embodiment of the present application provides a burning server, including: the device comprises an establishing unit, a recording unit and a recording unit, wherein the establishing unit is used for respectively connecting a plurality of devices to be burned through a plurality of transmission paths;

the receiving unit is used for receiving a parameter to be burned acquiring request of the corresponding equipment to be burned;

the acquisition unit is used for acquiring the parameter to be burned of the device to be burned according to the parameter acquisition request to be burned, wherein the parameter to be burned acquisition request comprises the identification information of the device to be burned;

the determining unit is used for determining a burning instruction corresponding to the device to be burned according to the identification information;

and the burning unit is used for burning the parameter to be burned into the device to be burned through the transmission channel according to the burning command.

In one possible implementation manner, the burning server further includes: and the sending unit is used for sending a connection request to the device to be burned through the transmission passage.

In another possible implementation manner, the obtaining unit includes: the first acquisition subunit is used for acquiring a parameter table to be burned; the second acquisition subunit is used for acquiring a parameter to be burned recording initial row of the parameter table to be burned; and the third acquisition subunit is used for acquiring the parameters to be burned of the equipment to be burned according to the parameter table to be burned and the parameter burning starting line to be burned.

In another possible implementation manner, the determining unit includes: the searching subunit is used for searching the configuration file corresponding to the identification information; the searching subunit is further configured to, if the searching is successful, analyze the configuration file and obtain a burning instruction included in the configuration file; and the determining subunit is used for determining the burning command contained in the configuration file as the burning command corresponding to the device to be burned.

In another possible implementation manner, the burning server further includes: the receiving unit is further used for receiving one or more burning instructions acquired from the configuration interface; the configuration unit is used for generating a configuration file according to the one or more burning instructions; and the storage unit is used for storing the configuration file according to the identification information of the device to be burned.

In another possible implementation manner, the burning server further includes: the identification unit is used for identifying the parameter to be burned by adopting a progress state identification, and the progress identification comprises one or more of the following types: a processing state, a completed state and a to-be-processed state; and the updating unit is used for updating the progress state identifier according to the feedback message.

In a fourth aspect, an embodiment of the present application provides an apparatus to be burned, including: the device comprises a sending unit, a receiving unit and a processing unit, wherein the sending unit is used for sending a parameter to be burned acquisition request to a burning server through a transmission channel, and the parameter to be burned acquisition request comprises identification information of a device to be burned; the receiving unit is used for receiving the parameters to be burned from the burning server through the transmission channel; the sending unit is further configured to send a feedback message to the burning server according to the burning situation.

In a possible implementation manner, the device to be burned further includes: and the connection unit is used for receiving the connection request from the burning server through the transmission channel.

In a fifth aspect, an embodiment of the present application provides a burning server, including: a processor, input means, output means and a memory, wherein the memory is adapted to store a computer program supporting a server to perform the method described above, the computer program comprising program instructions, the processor being configured to invoke the program instructions to perform the method of the first aspect and any of its alternatives described above.

In a sixth aspect, an embodiment of the present application provides an apparatus to be burned, including: a processor, an input device, an output device and a memory, the processor, the input device, the output device and the memory being interconnected, wherein the memory is configured to store a computer program for supporting the terminal to execute the method, the computer program comprising program instructions, the processor being configured to invoke the program instructions to execute the method of the second aspect and any of its alternatives.

In a seventh aspect, an embodiment of the present application provides a computer-readable storage medium, which stores instructions that, when executed on a computer, cause the computer to perform the method described in the foregoing aspects.

In an eighth aspect, the present application provides a computer program product containing instructions, which when executed on a computer, causes the computer to perform the method of the above aspects.

The embodiment of the application has the following beneficial effects:

the purpose of batch burning is achieved by the different configuration of the burning instructions of the equipment to be burned and the change of hardware. By implementing the scheme, the method and the device for recording the data can be suitable for various complex business requirements, effectively save the production cost and enable the recording device to be easy to maintain and expand.

Drawings

Fig. 1 is a schematic flowchart of a method for burning device parameters according to an embodiment of the present disclosure;

fig. 2-a is a schematic flowchart of a method for recording device parameters according to an embodiment of the present disclosure;

FIG. 2-b is a software interface diagram of a pathway configuration provided by an embodiment of the present application;

FIG. 2-c is a diagram of a burning software interface according to an embodiment of the present disclosure;

fig. 3 is a schematic flowchart of a method for recording device parameters according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a burning server according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a device to be burned according to an embodiment of the present disclosure;

fig. 6 is a schematic diagram of a hardware structure of a burning server according to an embodiment of the present disclosure

Fig. 7 is a schematic diagram of a hardware structure of a device to be burned according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items and includes such combinations.

When many electronic devices are produced, parameter information of factory leaving needs to be set by using serial port burning software. At present, manufacturers use a special burning device to burn a specific product according to the characteristics of the product. In the actual production process, when a burning device of a specific product fails, the generation efficiency of the product is greatly influenced. Based on the above problems, the embodiment of the application provides an apparatus parameter burning method and an apparatus, which are suitable for various complex business requirements, effectively save production cost, and enable the burning apparatus to be easily maintained and expanded.

Referring to fig. 1, fig. 1 is a schematic flow chart illustrating a method for burning device parameters according to an embodiment of the present disclosure. Wherein:

and S101, respectively connecting a plurality of devices to be burned through a plurality of transmission paths.

When the burning server is connected with the device to be burned through the USB-to-serial port adapter, the establishment of the transmission path is completed. Furthermore, mark above-mentioned a plurality of USB to serial ports adapter, correspond the serial port equipment number on the burning server respectively, above-mentioned serial port equipment number is used for distinguishing each transmission path.

For example, 2 transmission paths are established, and the COM11 and the COM12 are respectively used to mark USB to serial port adapters corresponding to the 2 transmission paths. Namely, COM11 is used as the serial device number of the path 1, and COM12 is used as the serial device number of the path 2. It should be understood that the above examples are for illustrative purposes only and are not intended to limit the number of transmission paths and the names of serial device numbers.

S102, receiving a parameter to be burned acquisition request of the corresponding equipment to be burned.

The parameter acquisition request to be burned comprises identification information of the equipment to be burned, and when the burning server receives the corresponding parameter acquisition request to be burned of the equipment to be burned through the transmission channel, the data transmission between the equipment to be burned and the burning server can be carried out, wherein the equipment to be burned corresponding to the transmission channel is free of faults.

S103, acquiring the parameter to be burned of the device to be burned according to the parameter to be burned acquisition request, wherein the parameter to be burned acquisition request comprises the identification information of the device to be burned.

Specifically, a parameter table to be burned is obtained; acquiring a parameter to be burned starting line of the parameter table to be burned; and acquiring the parameters to be burned of the equipment to be burned according to the parameter table to be burned and the burning initial line of the parameters to be burned.

Firstly, a proper parameter table to be burned is selected according to the burning requirement of the equipment to be burned. The initial line of the parameter to be burned is the line number of each transmission channel participating in the current burning for reading the parameter to be burned, and different transmission channels have differences in data setting. According to the parameter table to be burned and the burning initial line of the parameter to be burned, which line of data of the parameter table to be burned is read by the first transmission channel participating in burning at this time can be known as the parameter to be burned of the device to be burned connected with the transmission channel. Furthermore, the used parameter table to be burned is updated before the burning, the updated line number can be used as the burning initial line of the burning, and the updated data can be used as the parameter to be burned of the device to be burned.

And S104, determining a burning instruction corresponding to the device to be burned according to the identification information.

Specifically, a configuration file corresponding to the identification information is searched; if the searching is successful, analyzing the configuration file to obtain a burning instruction contained in the configuration file; and determining the burning command contained in the configuration file as the burning command corresponding to the device to be burned.

In a possible implementation manner, the burning server stores a configuration file of a certain type of device to be burned, and can obtain one or more burning instructions of the type of device to be burned according to the configuration file, and the burning server can directly burn the type of device to be burned by using the burning instructions in the configuration file.

Optionally, after obtaining the burning instruction included in the configuration file, the burning server may edit the previously stored burning instruction according to the specific requirement of the device to be burned. The burning command consists of a type part and a data part. Both parts can be edited according to the actual requirements of burning. The burning command has two types of receiving and sending. The received and transmitted data content can be edited. The value of the data portion is normalized to hexadecimal.

For example, a user may input a hexadecimal number in the data portion of the path configuration interface, the burning server may determine whether the input content meets the hexadecimal requirement, if so, the input content is used as the data portion of the item, and if not, the burning server sends a prompt message. And if the received data is not completely consistent with the data in the corresponding receiving type of burning command, the burning server sends out warning information.

In another possible implementation manner, since different types of devices to be burned correspond to different burning instructions, the burning server may burn a certain type of devices to be burned for the first time, so that the corresponding burning instructions are edited for the type of devices to be burned, which is convenient for the next direct burning.

Specifically, one or more burning instructions acquired from a configuration interface are received; generating a configuration file according to the one or more burning instructions; and storing the configuration file according to the identification information of the device to be burned.

And S105, burning the parameter to be burned into the device to be burned through the transmission channel according to the burning command.

In a burning process, a proper number of transmission paths can be started and configured according to the actual burning situation. And clicking a 'complete start burning' button on the burning interface, wherein all enabled and configured transmission paths can burn the equipment to be burned according to the configured burning instruction. And finishing the burning process according to the sequence of the serial numbers of the transmission paths.

In an optional implementation manner, only a certain transmission path may be enabled, and a "burn record" button corresponding to the certain transmission path is clicked individually to burn record of the device to be transmitted corresponding to the transmission path.

In another optional implementation manner, when the burning server receives a feedback message of burning failure sent by the device to be burned, only the burning interface of the transmission path of burning failure is output. The recording button in a transmission channel with recording failure can be clicked independently to record again. Furthermore, when the burning of a plurality of transmission paths fails, the button of 'all start burning' can be clicked, so that all the transmission paths with the burning failure are burned again according to the sequence of the sequence numbers of the transmission paths.

According to the device parameter burning method provided by the embodiment of the application, the burning instruction corresponding to the device to be burned is determined according to the identification information of the device to be burned, and the parameter to be burned is burned into the device to be burned through the transmission channel corresponding to the device to be burned. The scheme of the application can be suitable for various complex business requirements, effectively saves the production cost, and enables the burning device to be easy to maintain and expand.

Referring to fig. 2-a, fig. 2-a is a schematic flow chart illustrating a method for recording device parameters according to an embodiment of the present disclosure. Wherein:

s201, a plurality of devices to be burned are respectively connected through a plurality of transmission paths.

The specific implementation of this step can refer to step S101 in the embodiment described in fig. 1, and is not described herein again.

And S202, sending a connection request to the device to be burned through the transmission channel.

And starting a certain number of transmission channels according to the actual burning requirements. Before sending data with the device to be burned through the transmission channel, it is determined that the device to be burned can perform data transmission with a burning server. And the burning server sends a connection request to the equipment to be burned to inform the equipment to be burned corresponding to the transmission channel that the burning server is ready for data transmission. The burning server can judge whether to continue the operation of transmitting data according to the feedback of the device to be burned on the connection request.

In a possible implementation manner, when a failure occurs in the transmission process, the device to be burned does not respond to the connection request sent by the burning server. And when the sending time of the connection request exceeds a threshold value, the burning server generates a connection failure report. The user can check the links with problems according to the report content.

For example, after a new device to be burned is replaced, it is found that the new device to be burned receives a connection request sent by the burning server, and a response is generated to the connection request, so that it can be determined that the device to be burned which originally performs burning has a fault.

For another example, after the device to be burned is checked, the communication protocol supported by the device to be burned is found to be inconsistent with the communication protocol supported by the currently used USB to serial port adapter, and according to the communication protocol supported by the device to be burned, the USB to serial port adapter supporting the communication protocol is selected to establish a new transmission path.

For another example, after the recording server retransmits the connection request, the device to be recorded receives the connection request transmitted by the recording server, and checks the line connection condition of the entire transmission path.

In another possible implementation manner, if the device to be burned corresponding to the transmission path has no fault, the device to be burned will respond to the connection request sent by the burning server and send a parameter acquisition request to be burned to the burning server. The burning server can conveniently perform the next operation.

S203, receiving a corresponding parameter acquisition request to be burned of the device to be burned.

The parameter acquisition request to be burned comprises identification information of the equipment to be burned, and when the burning server receives the corresponding parameter acquisition request to be burned of the equipment to be burned through the transmission channel, the data transmission between the equipment to be burned and the burning server can be carried out, wherein the equipment to be burned corresponding to the transmission channel is free of faults.

In one possible implementation, different types of devices to be burned have different emphasis points in the burning process due to differences in devices. Since the parameter table to be burned is generally used for most types of devices to be burned, the data of the parameter table to be burned cannot reflect different burning requirements of the devices to be burned, and the focus or attention points of different devices to be burned during burning are reflected by specific burning instructions. The product condition table stores the attention items of the type of equipment to be burned in the production process according to the identification information of the equipment to be burned, and the attention items can be used as references for burning instruction editing.

For example, when a device to be burned with an erase rewrite function is burned, data is easily accidentally rewritten or erased due to interference. Therefore, when the product situation table knows that the burning instruction of the type of equipment is edited, the user needs to pay attention to whether the protection position of the data is set.

For another example, some kinds of devices to be burned may cause a chip failure due to a device at a high temperature reflow soldering temperature or a long soldering time. When the product condition table knows that the burning instructions of the equipment of the type are edited, the completeness of relevant devices in the equipment needs to be noticed.

In another possible implementation manner, data indicating successful or failed burning in the burning process of different types of devices to be burned may not be consistent, and related data corresponding to the burning condition of the type of devices to be burned may be obtained from the product condition table.

Please refer to table 2-1, table 2-1 is a product condition table provided in the examples of the present application. Wherein:

TABLE 2-1

As shown in table 2-1, when the device to be burned of type a is burned successfully, "FF AA 0708" is sent to the burning server as information that the burning is successful, and when the device to be burned of type B is burned unsuccessfully, "FF AA 0708" is sent to the burning server as feedback information. The meaning of the same data representation is quite opposite, and when the burning instructions of the two types of equipment to be burned are edited, the proper burning instructions can be edited by referring to the product condition table.

Further, as the burning requirement of the type a device to be burned changes, "FF AA 0708", which was originally used as the successful burning information, is used as the failed burning information. And updating the product condition table according to the corresponding change, so that when the burning instructions of a new batch of the A-type equipment to be burned are edited, the new burning instructions conform to the actual conditions of the A-type equipment to be burned.

S204, acquiring the parameter to be burned of the device to be burned according to the parameter to be burned acquisition request, wherein the parameter to be burned acquisition request comprises the identification information of the device to be burned.

Specifically, a parameter table to be burned is obtained; acquiring a parameter to be burned start line of the parameter table to be burned; and acquiring the parameters to be burned of the equipment to be burned according to the parameter table to be burned and the burning initial line of the parameters to be burned.

Please refer to tables 2-2 and 2-3, tables 2-2 and 2-3 are all parameter tables to be burned provided in the embodiments of the present application. Wherein:

tables 2 to 2

Tables 2 to 3

Optionally, as shown in tables 2-2 and 2-3, different parameter tables to be burned have different burning entries, and a corresponding parameter table to be burned may be selected according to the identification information of the device to be burned, or a same parameter table to be burned covering multiple burning entries may be selected. When different products to be burned need to burn similar types of burning items, the parameter table to be burned with more data and burning items shown in tables 2-3 can be selected as the burning data source of the batch of products to be burned.

Optionally, when the products to be burned are the same type of products with special requirements, the parameter table to be burned with the specific burning item shown in table 2-2 can be selected as the burning data source of the batch of products to be burned with special requirements.

For example, the product number of the C-type device to be burned is distinguished by a product sticker, and when only the burning sequence number and the MAC address are needed, the parameter table to be burned of the type of table 2-2 can be selected as the source of the burning data.

For another example, the data requirements of the devices to be burned of type a and type B to be burned are substantially the same, so a more general parameter table to be burned, such as the parameter tables to be burned of types in tables 2-3, is used as the data source for burning the two devices.

Referring to fig. 2-b, fig. 2-b is a software interface diagram of a path configuration according to an embodiment of the present application.

The initial recording behavior of the parameters to be recorded participates in the recording of the number of lines of each transmission channel for reading the parameters to be recorded, and the data settings of different parameter tables to be recorded are different. According to the parameter table to be burned and the parameter burning initial line to be burned, which line of data of the parameter table to be burned is read by the first transmission channel participating in burning at this time can be known as the parameter to be burned of the device to be burned connected with the transmission channel. Furthermore, the used parameter table to be burned is updated before the burning, the updated line number can be used as the burning initial line of the burning, and the updated data can be used as the parameter to be burned of the device to be burned.

In an optional implementation manner, the initial row of the parameter table to be burned defaults to the first row of the parameter table data to be burned.

For example, as shown in the above table 2-3, three parameters to be burned, i.e., the product number, the serial number, and the MAC address, are required to be burned at this time, and the to-be-burned parameter is set to be the initial line 1 of the path 1, which participates in the burning at this time, in the one-time burning process, the path 1 uses the "a 1", "11", and "1A" in the line 1 of the parameter table to be burned as the parameters to be burned of the to-be-burned device corresponding to the path 1. According to the sequence of reading data, the channel 2 uses the 'B2', '22' and '2B' in the 2 nd row of the parameter table to be burned as the parameters to be burned of the device to be burned corresponding to the channel 2, and the channel 3 uses the 'C3', '33' and '3C' in the 3 rd row of the parameter table to be burned as the parameters to be burned of the device to be burned corresponding to the channel 3. If the parameter table to be burned and the three paths are continuously adopted to burn the next batch of equipment to be burned, the path 1 reads the 'D4', '44' and '4D' of the 4 th row as the parameters to be burned of the equipment to be burned of the path 1 at this time, the path 2 reads the 'E5', '55' and '5E' of the 5 th row as the parameters to be burned of the equipment to be burned of the path 2 at this time, and the path 3 reads the 'F6', '66' and '6F' of the 6 th row as the parameters to be burned of the equipment to be burned of the path 3 at this time.

For another example, as shown in the above tables 2-3, three parameters to be burned, i.e., the product number, the serial number, and the MAC address, are required to be burned at this time, the channel 1 and the channel 2 participate in the burning, and since the used parameter table to be burned is completely updated from the row 2, the parameter to be burned in the row 1 is only used for displaying the data format, so the row 2 is set as the starting row of the parameter to be burned.

In one burning process, the channel 1 uses the "B2", "22" and "2B" in the 2 nd row of the parameter table to be burned as the parameters to be burned of the device to be burned corresponding to the channel 1, and the channel 2 uses the "C3", "33" and "3C" in the 3 rd row of the parameter table to be burned as the parameters to be burned of the device to be burned corresponding to the channel 2. If the parameter table to be burned and the two paths are continuously adopted to burn the next batch of equipment to be burned, the path 1 reads the 'D4', '44' and '4D' of the 4 th row as the parameters to be burned of the equipment to be burned at the time of the path 1, and the path 2 reads the 'E5', '55' and '5E' of the 5 th row as the parameters to be burned of the equipment to be burned at the time of the path 2. It should be understood that the above examples are merely illustrative, and the parameter burning item to be burned and the parameter data to be burned are not specifically limited.

S205, determining a burning instruction corresponding to the device to be burned according to the identification information.

Specifically, a configuration file corresponding to the identification information is searched; if the searching is successful, analyzing the configuration file to obtain a burning instruction contained in the configuration file; and determining the burning command contained in the configuration file as the burning command corresponding to the device to be burned.

In a possible implementation manner, the burning server stores a configuration file of a certain type of equipment to be burned, and can obtain one or more burning instructions of the type of equipment to be burned according to the configuration file, and the burning server can directly burn the type of equipment to be burned by using the burning instructions in the configuration file.

Optionally, after obtaining the burning instruction included in the configuration file, the burning server may edit the previously stored burning instruction according to the specific requirement of the device to be burned. The burning command consists of two parts of type and data. Both parts can be edited according to the actual requirements of burning. The burning command has two types of receiving and sending. The received and transmitted data content can be edited. The value of the data portion is normalized to hexadecimal.

For example, a user may input a hexadecimal number in the data portion of the path configuration interface, the burning server may determine whether the input content meets the hexadecimal requirement, if so, the input content is used as the data portion of the item, and if not, the burning server sends a prompt message. And if the received data is not completely consistent with the data in the corresponding receiving type of the burning command, the burning server sends out warning information.

For another example, when the recording is started from the initial recording row of the parameter table to be recorded, the user can input "$ 1" at a certain position in a string of sixteen-system numbers, which means that the position corresponds to the 1 st column of data of the parameter table to be recorded. If the table 2-3 is used as the parameter table to be burned in the current burning process, the data at the position is finally the data in the 1 st column of the initial burning row of the parameter table to be burned, i.e., "a 1". When the fourth row data of tables 2-3 is burned, the burning command is "FF AA D1F 203 $2 FB", "$ 2" indicates the 2 nd row data of the parameter table to be burned, and the burning command is "FF AA D1F 20344 FB".

As another example, a user enters data in the form of an "x" at a location in a series of hexadecimal numbers, indicating that the value at that location does not require verification. If the star appears in the received type of the burning command, the data of the position can be any hexadecimal number, and the judgment of the burning result of the whole burning command cannot be influenced.

In another possible implementation manner, since different types of devices to be burned correspond to different burning instructions, the burning server may burn a certain type of devices to be burned for the first time, so that the corresponding burning instructions are edited for the type of devices to be burned, which is convenient for the next direct burning.

Specifically, one or more burning instructions acquired from a configuration interface are received; generating a configuration file according to the one or more burning instructions; and storing the configuration file according to the identification information of the device to be burned.

For example, since the device to be burned of this type needs to be activated twice, it can be determined that the device has no fault, and communication with the burning server can be performed. Therefore, the two pieces of content are edited to be a burning instruction for requesting connection, and a configuration file is generated according to the identification information of the equipment to be burned of the type. Therefore, when the configuration file is used for burning the device to be burned of the type, the burning server firstly sends two connection requests to the device to be burned. It should be understood that the above examples are merely illustrative, and the specific content and transmission sequence of the burning instructions are not specifically limited.

Referring to fig. 2-c, fig. 2-c is a diagram of a recording software interface according to an embodiment of the present disclosure.

And S206, burning the parameters to be burned into the equipment to be burned through the transmission channel according to the burning command.

The specific implementation of this step can refer to step S105 in the embodiment described in fig. 1, and is not described herein again.

S207, identifying the parameter to be burned by adopting a progress state identifier, wherein the progress state identifier comprises one or more of the following: an in-process state, a completed state, and a pending state.

In order to ensure that the parameters to be burned in the same row are only used for burning one device to be burned, the parameters to be burned in the parameter table to be burned are marked by adopting the progress state mark. The progress status mark is a standard for distinguishing whether the parameter to be burned is burned successfully or not. The parameter to be burned which is not read is marked as a 'state to be processed', the read parameter to be burned is marked as a 'state in process', and when the data which is burned successfully is marked as a 'state completed'. After the marking, when a default reading mode is adopted, the read data is not repeatedly used for burning.

And S208, updating the progress state identification according to the feedback message.

After the burning server reads the parameter to be burned, or the burning server receives a feedback message sent by the device to be burned, the progress status identifier corresponding to the parameter to be burned changes.

For example, after the recording server reads the parameter to be recorded, the progress status identifier corresponding to the parameter to be recorded is changed from the original "state to be processed" to the "state in process".

For another example, when it is determined that the burning is successful according to the feedback message of the device to be burned, the progress status identifier of the data read by the burning instruction is updated from the "in-process status" to the "completed status".

For another example, when it is determined that the burning fails according to the feedback message of the device to be burned, the read parameter to be burned is still marked as "in-process state". Further, the burning server generates a burning record for prompting the user that the device to be burned corresponding to the transmission channel needs to be burned again. And clicking a 'burning' button of the transmission channel, and burning the device to be burned again according to the configured burning instruction.

According to the device parameter burning method provided by the embodiment of the application, the burning instruction corresponding to the device to be burned is determined according to the identification information of the device to be burned, the parameter to be burned is burnt into the device to be burned through the transmission channel corresponding to the device to be burned, and the data of the parameter table to be burned is managed according to the feedback message of the device to be burned. The scheme of the application can be suitable for various complex business requirements, effectively saves the production cost, and enables the burning device to be easy to maintain and expand.

Referring to fig. 3, fig. 3 is a schematic flowchart illustrating a method for recording device parameters according to an embodiment of the present disclosure. Wherein:

s301, receiving a connection request from the burning server through a transmission path.

When the device to be burned receives the connection request from the burning server, the device to be burned knows that the burning server is ready for data transmission. Meanwhile, the response of the device to be burned to the connection request of the burning server can indicate whether the transmission channel can be normally used.

For example, when the device to be burned has a problem, the device to be burned cannot respond to the connection request of the burning server, and the burning server will obtain a message that the transmission path is faulty. The fault of the whole transmission channel can be checked as soon as possible, and the condition that the device to be burned cannot be burned is avoided in advance.

And S302, sending a parameter to be burned acquisition request to the burning server through the transmission channel.

Specifically, the parameter to be burned acquiring request includes identification information of the device to be burned. The device to be burned can prompt the burning server to select a proper parameter table to be burned through the identification information, and the device to be burned is burned.

For example, the burning items used in the burning process of different kinds of devices to be burned are different. Most of the devices to be burned need to burn 3 burning items of the product number, the serial number and the MAC address, and the type A device which conducts burning at this time only needs to burn 2 burning items of the serial number and the MAC address.

For another example, as the type a device is updated, the original required burning items become 3, and the burning server selects a parameter table to be burned different from the previous burning to perform the new burning according to the identification information of the type a device.

And S303, receiving the parameters to be burned from the burning server through the transmission channel.

Correspondingly, the burning server sends the parameters to be burned to the equipment to be burned. The parameters to be burned comprise product numbers, serial numbers and information required by MAC address waiting burning equipment. When the device to be burned successfully receives a certain parameter to be burned, the information indicating the successful reception is sent to the burning server, and when the device to be burned does not receive a certain parameter to be burned, the information indicating the failure reception is sent to the burning server.

For example, when the device to be burned successfully receives the MAC address, sending "FF AA 0708" to the burning server, which indicates that the parameter to be burned is burned successfully; and when the device to be burned does not successfully receive the MAC address, sending FF AA 0709 to the burning server to indicate that the parameter to be burned fails in burning.

It should be understood that the above examples are merely illustrative, and the content and representative meaning of the information transmitted by the device to be burned are not specifically limited.

And S304, sending a feedback message to the burning server according to the burning condition.

The device to be burned sends a feedback message to the burning server, so that the next burning opportunity can be obtained when the burning of the device to be burned fails.

In an optional implementation manner, the feedback message includes time information, a burning condition, burning item content, and a corresponding burning result. If the recording result corresponding to one recording item is failed, the recording condition corresponding to the transmission path is failed. And after receiving the corresponding feedback message, the burning server can perform re-burning on the equipment to be burned corresponding to the transmission channel.

According to the device parameter burning method provided by the embodiment of the application, a parameter acquisition request to be burned is sent to a burning server through a corresponding transmission channel, and a feedback message is sent to the burning server according to the burning condition of the device. The scheme of the application can be suitable for various complex business requirements, and is convenient for managing the burning condition of the device to be burned.

Referring to fig. 4, fig. 4 is a schematic structural diagram of a burning server according to an embodiment of the present disclosure. The terminal includes: establishing unit 401, receiving unit 402, obtaining unit 403, determining unit 404, and burning unit 405; optionally, the burning server further includes a sending unit 406; optionally, the burning server includes a configuration unit 407 and a storage unit 408; optionally, the burning server includes an identification unit 409 and an updating unit 410. Wherein:

the device comprises an establishing unit 401, a recording unit and a control unit, wherein the establishing unit 401 is used for adopting a plurality of USB to serial port adapters to respectively connect a plurality of devices to be burned and establishing a plurality of transmission paths;

a receiving unit 402, configured to receive, through the transmission path, a to-be-burned parameter acquisition request of the to-be-burned device, where the to-be-burned parameter acquisition request includes identification information of the to-be-burned device;

an obtaining unit 403, configured to obtain a parameter to be burned of the device to be burned;

a determining unit 404, configured to determine, according to the identifier information, a burning instruction corresponding to the device to be burned;

the recording unit 405 is configured to record the parameter to be recorded into the device to be recorded through the transmission path according to the recording command.

In a possible implementation manner, the burning server further includes:

a sending unit 406, configured to send a connection request to the device to be burned through the transmission path.

In another possible implementation manner, the obtaining unit 403 includes:

a first obtaining subunit 4031, configured to obtain a parameter table to be burned;

a second obtaining subunit 4032, configured to obtain a parameter to be burned burning start row of the parameter table to be burned;

a third obtaining subunit 4033, configured to obtain the parameter to be burned of the device to be burned according to the parameter table to be burned and the burning start line of the parameter to be burned.

In another possible implementation manner, the determining unit 404 includes:

a searching subunit 4021, configured to search for a configuration file corresponding to the identification information;

the search subunit 4021 is further configured to, if the search is successful, parse the configuration file, and obtain a burning instruction included in the configuration file;

the determining subunit 4022 is configured to obtain a recording start row of the parameter table to be recorded.

In another possible implementation manner, the burning server further includes:

the receiving unit 402 is further configured to receive one or more burning instructions obtained from the configuration interface;

a configuration unit 407, configured to generate a configuration file according to the one or more burning instructions;

the storage unit 408 is configured to store the configuration file according to the identification information of the device to be burned.

In another possible implementation manner, the burning server further includes:

an identifying unit 409, configured to identify the parameter to be burned by using a progress status identifier, where the progress identifier includes one or more of the following: a processing state, a completed state and a to-be-processed state;

an updating unit 410, configured to update the progress status identifier according to the feedback message.

More detailed descriptions about the establishing unit 401, the receiving unit 402, the obtaining unit 403, the determining unit 404, the burning unit 405, the sending unit 406, the configuring unit 407, the storing unit 408, the identifying unit 409, and the updating unit 410 may be directly obtained by referring to the related descriptions of the device parameter burning method in the method embodiments shown in fig. 1 and fig. 2-a, which are not repeated herein.

According to the parameter burning device to be burned provided by the embodiment of the application, the burning instruction corresponding to the device to be burned is determined according to the identification information of the device to be burned, the parameter to be burned is burned into the device to be burned through the transmission channel corresponding to the device to be burned, and the data of the parameter table to be burned is managed according to the feedback message of the device to be burned. The scheme of the application can be suitable for various complex business requirements, effectively saves the production cost, and enables the parameter burning device to be burned to be easy to maintain and expand.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a device to be burned according to an embodiment of the present disclosure. The device to be burned comprises: a transmitting unit 501 and a receiving unit 502; optionally, the device to be burned further includes: a connection unit 503. Wherein:

a sending unit 501, configured to send a parameter to be burned obtaining request to a burning server through a transmission path, where the parameter to be burned obtaining request includes identification information of a device to be burned;

a receiving unit 502, configured to receive a parameter to be burned from the burning server through the transmission path;

the sending unit 501 is further configured to send a feedback message to the burning server according to the burning situation.

In one implementation manner, the apparatus to be burned further includes:

a connection unit 503, configured to receive a connection request from the burning server through the transmission path.

Among them, the connection unit 503 is an optional unit.

More detailed descriptions about the sending unit 501, the receiving unit 502, and the connecting unit 503 can be directly obtained by referring to the description about the device parameter burning method in the embodiment of the method shown in fig. 3, which is not repeated herein.

According to the device to be burned, the request for acquiring the parameter to be burned is sent to the burning server through the corresponding transmission channel, and the feedback message is sent to the burning server according to the burning condition of the device. The scheme of the application can be suitable for various complex business requirements, and is convenient for managing the burning condition of the device to be burned.

Referring to fig. 6, fig. 6 is a schematic diagram of a hardware structure of a burn server according to an embodiment of the present application. The burning server in this embodiment shown in fig. 6 may include: a processor 601, an input device 602, an output device 603, and a memory 604.

The memory includes, but is not limited to, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM), or a portable read-only memory (CD-ROM), which is used for storing instructions and data.

The processor may include one or more processors, for example, one or more Central Processing Units (CPUs), and in the case of one CPU, the CPU may be a single-core CPU or a multi-core CPU.

The memory is used to store program codes and data of the network device.

The input means are for inputting data and/or signals and the output means are for outputting data and/or signals. The output means and the input means may be separate devices or may be an integral device.

The processor is used for calling the program codes and data in the memory and executing the following steps: the device comprises a plurality of devices to be burned, a plurality of recording devices and a plurality of recording devices, wherein the devices to be burned are connected with the devices to be burned through a plurality of transmission channels respectively; the control input device receives a parameter to be burned acquisition request of the corresponding equipment to be burned; acquiring the parameter to be burned acquiring request according to the parameter to be burned acquiring request, wherein the parameter to be burned acquiring request comprises the identification information of the equipment to be burned; determining a burning instruction corresponding to the device to be burned according to the identification information; and controlling an output device to burn the parameters to be burned into the equipment to be burned through the transmission channel according to the burning command.

In a possible implementation manner, after the processor executes the step of connecting the plurality of devices to be burned through the plurality of transmission paths, the processor is further configured to execute the following steps: and the control output device sends a connection request to the equipment to be burned through the transmission channel.

In another possible implementation manner, the step of acquiring the parameter to be burned of the device to be burned by the processor according to the parameter to be burned acquisition request includes: acquiring a parameter table to be burned; acquiring a parameter to be burned recording initial row of the parameter table to be burned; and acquiring the parameters to be burned of the equipment to be burned according to the parameter table to be burned and the burning initial line of the parameters to be burned.

In another possible implementation manner, the step of determining, by the processor, a burning instruction corresponding to the device to be burned according to the identification information includes: searching a configuration file corresponding to the identification information; if the searching is successful, analyzing the configuration file to obtain a burning instruction contained in the configuration file; and determining the burning command contained in the configuration file as the burning command corresponding to the device to be burned.

In another possible implementation manner, the processor is further configured to perform the following steps: the control input device receives one or more burning instructions acquired from the configuration interface; generating a configuration file according to the one or more burning instructions; and the control memory stores the configuration file according to the identification information of the device to be burned.

In another possible implementation manner, after the processor executes the step of burning the device to be burned through the transmission path according to the burning command, the processor is further configured to execute the following steps: identifying the parameter to be burned by adopting a progress state identification, wherein the progress identification comprises one or more of the following: a processing state, a completed state and a to-be-processed state; and the control memory updates the progress state identification according to the feedback message.

It will be appreciated that figure 6 only shows a simplified design of the burn server. In practical applications, the burning servers may also respectively include other necessary elements, including but not limited to any number of network interfaces, input devices, output devices, processors, memories, etc., and all the burning servers that can implement the embodiments of the present application are within the protection scope of the present application.

Referring to fig. 7, fig. 7 is a schematic diagram of a hardware structure of a device to be burned according to an embodiment of the present application. The device to be burned in the present embodiment shown in fig. 7 may include: a processor 701, an input device 702, an output device 703, and a memory 704.

The memory includes, but is not limited to, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM), or a portable read-only memory (CD-ROM), which is used for storing instructions and data.

The processor may include one or more processors, for example, one or more Central Processing Units (CPUs), and in the case of one CPU, the CPU may be a single-core CPU or a multi-core CPU.

The memory is used to store program codes and data of the network device.

The input means are for inputting data and/or signals and the output means are for outputting data and/or signals. The output means and the input means may be separate devices or may be an integral device.

The processor is used for calling the program codes and data in the memory and executing the following steps: the control output device sends a parameter to be burned acquisition request to a burning server through a transmission channel, wherein the parameter to be burned acquisition request comprises identification information of equipment to be burned; the control input device receives the parameters to be burned from the burning server through the transmission channel; and controlling the output device to send a feedback message to the burning server according to the burning condition.

In a possible implementation manner, the processor is further configured to perform the following steps: the control input device receives the connection request from the burning server through the transmission channel.

It will be appreciated that figure 7 only shows a simplified design of the device to be burned. In practical applications, the devices to be burned may further include other necessary elements, including but not limited to any number of network interfaces, input devices, output devices, processors, memories, etc., and all the devices to be burned that can implement the embodiments of the present application are within the scope of the present application.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the division of the unit is merely a division of one logic function, and an actual implementation may have another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. The shown or discussed mutual coupling, direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some interfaces, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. The procedures or functions according to the embodiments of the present application are wholly or partially generated when the computer program instructions are loaded and executed on a computer. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored on or transmitted over a computer-readable storage medium. The computer instructions may be transmitted from one website, computer, server, or data center to another website, computer, server, or data center by wire (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)), or wirelessly (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that includes one or more of the available media. The usable medium may be a read-only memory (ROM), or a Random Access Memory (RAM), or a magnetic medium such as a floppy disk, a hard disk, a magnetic tape, a magnetic disk, or an optical medium such as a Digital Versatile Disk (DVD), or a semiconductor medium such as a Solid State Disk (SSD).

Claims (8)

1. A device parameter burning method is applied to a burning server and comprises the following steps:

the device comprises a plurality of devices to be burned, a plurality of recording devices and a plurality of recording devices, wherein the devices to be burned are connected with the devices to be burned through a plurality of transmission channels respectively;

receiving a parameter to be burned acquisition request of the corresponding equipment to be burned;

acquiring the parameter to be burned of the device to be burned according to the parameter acquisition request to be burned, comprising the following steps: acquiring a parameter table to be burned, acquiring a parameter burning starting row of the parameter table to be burned, and acquiring a parameter to be burned of the equipment to be burned according to the parameter table to be burned and the parameter burning starting row to be burned; the parameter to be burned acquiring request comprises identification information of the equipment to be burned;

determining a burning instruction corresponding to the device to be burned according to the identification information, including: searching a configuration file corresponding to the identification information; if the searching is successful, analyzing the configuration file to obtain a burning instruction contained in the configuration file; determining the burning instruction contained in the configuration file as a burning instruction corresponding to the equipment to be burned, and editing the pre-stored burning instruction according to the requirement of the equipment to be burned;

and burning the parameters to be burned into the equipment to be burned through the transmission channel according to the burning command.

2. The method of claim 1, wherein after the connecting the devices to be burned through the transmission paths, respectively, further comprises:

and sending a connection request to the device to be burned through the transmission channel.

3. The method of claim 1, further comprising:

receiving one or more burning instructions acquired from a configuration interface;

generating a configuration file according to the one or more burning instructions;

and storing the configuration file according to the identification information of the device to be burned.

4. The method as claimed in claim 1, wherein the recording the parameter to be recorded into the device to be recorded through the transmission path according to the recording command comprises:

identifying the parameter to be burned by adopting a progress state identification, wherein the progress state identification comprises one or more of the following: a processing state, a completed state and a to-be-processed state;

and updating the progress state identification according to the feedback message.

5. A device parameter burning method is applied to a device to be burned and comprises the following steps:

sending a parameter to be burned acquisition request to a burning server through a transmission channel, wherein the parameter to be burned acquisition request comprises identification information of equipment to be burned;

receiving a parameter to be burned from the burning server through the transmission channel, wherein the parameter to be burned is acquired by the burning server according to the parameter acquisition request to be burned and comprises the following steps: acquiring a parameter table to be burned, acquiring a parameter burning starting row of the parameter table to be burned, and acquiring a parameter to be burned of the equipment to be burned according to the parameter table to be burned and the parameter burning starting row to be burned;

and sending a feedback message to the burning server according to the burning condition, wherein the feedback message comprises time information, the burning condition, the burning item content and a corresponding burning result.

6. A burn server, comprising:

the device comprises an establishing unit, a recording unit and a recording unit, wherein the establishing unit is used for respectively connecting a plurality of devices to be burned through a plurality of transmission paths;

the receiving unit is used for receiving a parameter to be burned acquisition request of the corresponding equipment to be burned;

an obtaining unit, configured to obtain a parameter to be burned of the device to be burned according to the parameter to be burned obtaining request, where the obtaining unit includes: the device comprises a first acquisition subunit, a second acquisition subunit and a third acquisition subunit, wherein the first acquisition subunit is used for acquiring a parameter table to be burned, the second acquisition subunit is used for acquiring a parameter burning starting line to be burned of the parameter table to be burned, and the third acquisition subunit is used for acquiring a parameter to be burned of the device to be burned according to the parameter table to be burned and the parameter burning starting line to be burned; the parameter to be burned acquiring request comprises identification information of the equipment to be burned;

a determining unit, configured to determine, according to the identifier information, a burning instruction corresponding to the device to be burned, where the determining unit includes: the searching subunit is used for searching the configuration file corresponding to the identification information; if the searching is successful, analyzing the configuration file to obtain a burning instruction contained in the configuration file; the determining subunit is used for determining the burning instruction contained in the configuration file as the burning instruction corresponding to the device to be burned, and editing the pre-stored burning instruction according to the requirement of the device to be burned;

and the burning unit is used for burning the parameter to be burned into the device to be burned through the transmission channel according to the burning command.

7. A burn server comprising input means, output means, a processor and a memory, wherein the memory is for storing a computer program comprising program instructions, the processor being configured to invoke the program instructions to perform the method of any of claims 1 to 4.

8. An apparatus to be burned, comprising input means, output means, a processor and a memory, wherein the memory is used for storing a computer program comprising program instructions, and the processor is configured to call the program instructions to execute the method according to claim 5.

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