CN115865661B - Method and system for detecting firmware of game handle - Google Patents

Abstract

A firmware detection method and system of a game handle belongs to the field of game peripheral testing, and comprises the steps of carrying out factory detection on a firmware version of the game handle, correcting and detecting upgrading time and upgrading speed corresponding to an automatic firmware upgrading function in the game handle, carrying out identification matching on the firmware version, transmitting a firmware upgrading installation package to game equipment through a game handle server to upgrade the firmware version, carrying out automatic upgrading on the firmware of the game handle through an internal algorithm of the game handle through updating iteration of a game, and controlling the upgrading time on the game experience of a player.

Description

Method and system for detecting firmware of game handle

Technical Field

The invention belongs to the field of mobile games, and particularly relates to a method and a system for detecting firmware of a game handle.

Background

When a mobile phone or other mobile devices are used for playing a game, a lot of users can increase the experience of the game by means of a game handle, when the game handle plays the game, a certain matching problem exists between a firmware version and the game devices, so that the firmware version can be detected before leaving the factory, the firmware version of the game handle can be matched with the game in the mainstream game devices, and through updating iteration of the game, the firmware version can be matched and upgraded, so that the game handle is required to have the function of automatically upgrading the firmware, in the prior art, the firmware of the game handle is basically upgraded by means of the game update and the firmware of the game handle is required to be manually upgraded, the player is required to play the game by means of complicated operations, the experience of the player is influenced, and the firmware detection method and the firmware detection system of the game handle are required, and the firmware version can be automatically upgraded according to the game play can be ensured when leaving the factory.

Disclosure of Invention

The invention aims to provide a method for detecting firmware of a game handle, which solves one or more technical problems in the prior art and at least provides a beneficial selection or creation condition.

A method of detecting firmware of a gamepad, the method comprising the steps of:

s100: detecting, by the gaming device, a firmware version in the gamepad;

s200: testing the matching difference between the firmware and the game through a simulated game;

s300: transmitting the matching difference to a server, and matching a firmware upgrade installation package in the server;

s400: completing automatic firmware upgrading through the firmware upgrading installation package;

s500: and finishing the detection report through the firmware upgrading condition.

Further, in the step S100, the game pad is connected with the game device, the game device is a mobile device such as a mobile phone or a tablet computer, the firmware of the game pad is detected by the game device, whether the firmware version accords with the game configuration in the game device is detected, the firmware in the game device is matched with the firmware in the game pad by the game configuration, a matching difference is generated in the matching, the matching difference is information that the firmware version is not matched with the game configuration, and the matching difference is collected and recorded.

Further, in the step S200, the game operation is simulated in the game device, and the number of errors in the game due to the mismatch between the firmware in the game handle and the game is recorded by the game simulation operation, and the number of errors is recorded in correspondence with the match difference.

Further, the matching difference is transmitted to a game server, a firmware upgrading installation package is automatically matched and generated in the game server, the firmware upgrading installation package is transmitted back to a client of the game device, the firmware version in the game handle is upgraded and installed through the firmware upgrading installation package, the updated firmware version is matched with the simulated game in the game device, a plurality of games are matched, the matching difference and the error times are correspondingly recorded through the matching, and finally, after all the simulated games are completely matched, the finally updated firmware version is output, so that the firmware version of the game handle is tested.

Further, in the step S400, the matching difference and the number of errors obtained by the recording are respectively used as elements to construct a set match and a set error, the elements in the set match are normalized, so that the information data in the elements are changed into binary groups to record the information data, and meanwhile, the mobile phone time of the number of errors in the set error is converted into a time stamp, and the time stamp is used to construct a set time, and the step of automatically upgrading the firmware is as follows:

s401, taking the moment of a network request signal obtained by detecting the firmware version in the game handle by the current game equipment as T1, taking the moment of the matching difference of the mobile equipment received by the server side of the game equipment as T2, and taking the time period between T1 and T2 as T3; the firmware upgrade installation package fed back by the server corresponding to the matching difference depth in the time period T3 and the quantity of returned firmware upgrade installation package information in the current game equipment are taken as the firmware upgrade degree;

s402, setting 2 empty sets as a transaction set F1 and a comparison set F2 respectively; acquiring the moment that each firmware upgrading degree is greater than 0 in a time period T3 as a firmware upgrading moment; calculating the average value of interval duration between each firmware upgrading moment in the time period T3 as TGY, ensuring that game time conflict of a user is avoided during firmware upgrading, taking i as the serial number of the firmware upgrading moment in the time period T3, and taking i E [1, N1-1] and N1 as the number of the firmware upgrading moment in the time period T3;

traversing each firmware upgrading moment in a time period T3 within the value range of i, wherein the traversing method specifically comprises the following steps: judging whether the (i+2) th firmware upgrading moment after the (i) th monitoring moment T4 in the time period T3 occurs in the time period from T4 to T4+2×TGY, if so, adding the average value of the (i) th firmware upgrading degree D1 in the time period T3, the (i+1) th firmware upgrading degree D2 in the time period T3 and the (i+2) th firmware upgrading degree D3 in the time period T3 into a set F1, and if not, sequentially adding the D1, the D2 and the D2 into the set F2;

s403, using F1 (j) to represent the j-th element of the set F1, j E [1, N2], N2 being the number of elements of the set F1;

traversing the values of the elements in the set F1 within the value range of j, and if all the elements F1 (j) meet the condition:

f2 Mean. Gtoreq.F1 (j). Gtoreq.F2Min or the conditions: f1 (j) defining the firmware automatic upgrade interval and the firmware automatic upgrade time as qualified if the firmware automatic upgrade interval is more than or equal to F2Min+ASS×F2Max; otherwise, defining the automatic firmware upgrading interval and the automatic firmware upgrading time as unqualified;

wherein ASS=exp @, is _F ^F ₁ ¹ _M ^M _e ⁱ _a ⁿ _n )/exp( ^F _F ¹ ₁ ^M _M ^e _a ^a _x ⁿ )；

The ASS transmits steady-state coefficient coefficients for the firmware upgrading installation package; f2Mean is the Mean of all elements in set F2; f2min represents the minimum value in the set F2;

f2max represents the maximum value in the set F2; f1Mean is the average of all elements in the set F1; f1Min represents the minimum value in the set F1; f1max represents the maximum value in the set F1.

S404, if the log file is marked as an in-doubt log, recording the total number of firmware upgrades larger than F1Max in the set F2 as Ab1, the total number of firmware upgrades smaller than F1Min in the set F2 as Ab2, and calculating the sum of the firmware upgrades larger than F1Max in the set F2 as a high-frequency transmission index when Ab1 is smaller than or equal to Ab 2;

calculating the sum of all monitoring access degrees smaller than F1Min in the set F2 as a low-frequency transmission index; when the high-frequency transmission index is smaller than the low-frequency transmission index, defining the firmware automatic upgrading interval and the firmware automatic upgrading time as qualified, and finishing the firmware automatic upgrading detection.

A firmware detection system for a gamepad, the system comprising: the data acquired by the game handle and the game device can be stored in the memory, the data acquired by the processor can also be stored in the memory, the game handle, the game device and the memory can be used for executing a computer program on the processor, and the processor can realize the steps in the method for detecting the firmware of the game handle in any one of the methods when executing the computer program.

The invention has the beneficial effects that: the method comprises the steps of factory detection of a firmware version of a game handle, correction and detection of upgrading time and upgrading speed corresponding to an automatic firmware upgrading function in the game handle, identification and matching of the firmware version, transmission of a firmware upgrading installation package to the game equipment through a game handle server to upgrade the firmware version, automatic upgrading of the firmware of the game handle through an internal algorithm of the game handle through updating iteration of a game, and control of the upgrading time on the game experience of a player.

Drawings

The above and other features of the present invention will become more apparent from the detailed description of the embodiments thereof given in conjunction with the accompanying drawings, in which like reference characters designate like or similar elements, and it is apparent that the drawings in the following description are merely some examples of the present invention, and other drawings may be obtained from these drawings without inventive effort to those of ordinary skill in the art, in which:

FIG. 1 is a flow chart of a method for detecting firmware of a game pad.

Detailed Description

The conception, specific structure, and technical effects produced by the present invention will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, aspects, and effects of the present invention. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other.

In the description of the present invention, a number means one or more, a number means two or more, and greater than, less than, exceeding, etc. are understood to not include the present number, and above, below, within, etc. are understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

Referring to fig. 1, a flowchart of a method for detecting firmware of a game pad according to the present invention is shown, and a method for detecting firmware of a game pad according to an embodiment of the present invention is described below with reference to fig. 1.

A method of detecting firmware of a gamepad, the method comprising the steps of:

s100: detecting, by the gaming device, a firmware version in the gamepad;

s200: testing the matching difference between the firmware and the game through a simulated game;

s300: transmitting the matching difference to a server, and matching a firmware upgrade installation package in the server;

s400: completing automatic firmware upgrading through the firmware upgrading installation package;

s500: and finishing the detection report through the firmware upgrading condition.

Further, in the step S100, the game pad is connected with the game device, the game device is a mobile device such as a mobile phone or a tablet computer, the firmware of the game pad is detected by the game device, whether the firmware version accords with the game configuration in the game device is detected, the firmware in the game device is matched with the firmware in the game pad by the game configuration, a matching difference is generated in the matching, the matching difference is information that the firmware version is not matched with the game configuration, and the matching difference is collected and recorded.

Further, in the step S200, the game operation is simulated in the game device, and the number of errors in the game due to the mismatch between the firmware in the game handle and the game is recorded by the game simulation operation, and the number of errors is recorded in correspondence with the match difference.

Further, the matching difference is transmitted to a game server, a firmware upgrading installation package is automatically matched and generated in the game server, the firmware upgrading installation package is transmitted back to a client of the game device, the firmware version in the game handle is upgraded and installed through the firmware upgrading installation package, the updated firmware version is matched with the simulated game in the game device, a plurality of games are matched, the matching difference and the error times are correspondingly recorded through the matching, and finally, after all the simulated games are completely matched, the finally updated firmware version is output, so that the firmware version of the game handle is tested.

Further, in the step S400, the matching difference and the number of errors obtained by the recording are respectively used as elements to construct a set match and a set error, the elements in the set match are normalized, so that the information data in the elements are changed into binary groups to record the information data, and meanwhile, the mobile phone time of the number of errors in the set error is converted into a time stamp, and the time stamp is used to construct a set time, and the step of automatically upgrading the firmware is as follows:

s401, taking the moment of a network request signal obtained by detecting the firmware version in the game handle by the current game equipment as T1, taking the moment of the matching difference of the mobile equipment received by the server side of the game equipment as T2, and taking the time period between T1 and T2 as T3; the firmware upgrade installation package fed back by the server corresponding to the matching difference depth in the time period T3 and the quantity of returned firmware upgrade installation package information in the current game equipment are taken as the firmware upgrade degree;

s402, setting 2 empty sets as a transaction set F1 and a comparison set F2 respectively; acquiring the moment that each firmware upgrading degree is greater than 0 in a time period T3 as a firmware upgrading moment; calculating the average value of interval duration between each firmware upgrading moment in the time period T3 as TGY, ensuring that game time conflict of a user is avoided during firmware upgrading, taking i as the serial number of the firmware upgrading moment in the time period T3, and taking i E [1, N1-1] and N1 as the number of the firmware upgrading moment in the time period T3;

traversing each firmware upgrading moment in a time period T3 within the value range of i, wherein the traversing method specifically comprises the following steps: judging whether the (i+2) th firmware upgrading moment after the (i) th monitoring moment T4 in the time period T3 occurs in the time period from T4 to T4+2×TGY, if so, adding the average value of the (i) th firmware upgrading degree D1 in the time period T3, the (i+1) th firmware upgrading degree D2 in the time period T3 and the (i+2) th firmware upgrading degree D3 in the time period T3 into a set F1, and if not, sequentially adding the D1, the D2 and the D2 into the set F2;

s403, using F1 (j) to represent the j-th element of the set F1, j E [1, N2], N2 being the number of elements of the set F1;

traversing the values of the elements in the set F1 within the value range of j, and if all the elements F1 (j) meet the condition:

f2 Mean. Gtoreq.F1 (j). Gtoreq.F2Min or the conditions: f1 (j) defining the firmware automatic upgrade interval and the firmware automatic upgrade time as qualified if the firmware automatic upgrade interval is more than or equal to F2Min+ASS×F2Max; otherwise, defining the automatic firmware upgrading interval and the automatic firmware upgrading time as unqualified;

wherein ASS=exp @, is _F ^F ₁ ¹ _M ^M _e ⁱ _a ⁿ _n )/exp( ^F _F ¹ ₁ ^M _M ^e _a ^a _x ⁿ )；

The ASS transmits steady-state coefficient coefficients for the firmware upgrading installation package; f2Mean is the Mean of all elements in set F2; f2min represents the minimum value in the set F2;

f2max represents the maximum value in the set F2; f1Mean is the average of all elements in the set F1; f1Min represents the minimum value in the set F1; f1max represents the maximum value in the set F1.

S404, if the log file is marked as an in-doubt log, recording the total number of firmware upgrades larger than F1Max in the set F2 as Ab1, the total number of firmware upgrades smaller than F1Min in the set F2 as Ab2, and calculating the sum of the firmware upgrades larger than F1Max in the set F2 as a high-frequency transmission index when Ab1 is smaller than or equal to Ab 2;

calculating the sum of all monitoring access degrees smaller than F1Min in the set F2 as a low-frequency transmission index; when the high-frequency transmission index is smaller than the low-frequency transmission index, defining the firmware automatic upgrading interval and the firmware automatic upgrading time as qualified, and finishing the firmware automatic upgrading detection.

A firmware detection system for a gamepad, the system comprising: the data acquired by the game handle and the game device can be stored in the memory, the data acquired by the processor can also be stored in the memory, the game handle, the game device and the memory can be used for executing a computer program on the processor, and the processor can realize the steps in the method for detecting the firmware of the game handle in any one of the methods when executing the computer program.

The functions of each part in the system are as follows:

a game device: the adaptation with the game handle and the correction and test of the game handle are completed through the connection with the game handle;

game paddle: the test product of the invention tests the game handle through the game equipment by being connected with the game equipment;

a processor: processing data, extracting the data acquired and collected in the game equipment and the game handle from a database, and processing the data;

a memory: the data is stored, the memory contains a database for storing the data, and the processor can extract the data from the database.

The invention provides a method and a system for detecting firmware of a game handle, which are used for carrying out factory detection on a firmware version of the game handle, correcting and detecting upgrading time and upgrading speed corresponding to an automatic firmware upgrading function in the game handle, carrying out identification matching on the firmware version, transmitting a firmware upgrading installation package to game equipment through a game handle server to upgrade the firmware version, and carrying out automatic upgrading on the firmware of the game handle through an internal algorithm of the game handle through updating iteration of a game, wherein the upgrading time is controlled on the premise of not influencing the game experience of a player.

The firmware detection system of the game handle can be operated in computing equipment such as a desktop computer, a notebook computer, a palm computer, a cloud data center and the like. The firmware detection system of the game handle comprises, but is not limited to, a processor and a memory. It will be appreciated by those skilled in the art that the examples are merely examples of a method and system for detecting firmware of a game pad, and are not limited to the method and system for detecting firmware of a game pad, and may include more or less components than examples, or may combine some components, or different components, e.g., the method and system for detecting firmware of a game pad may further include an input/output device, a network access device, a bus, etc.

The processor may be a central processing unit (Central Processing Unit, CPU), other general purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), field programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete component gate or transistor logic devices, discrete hardware components, or the like. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which is a control center of the firmware detection system of one game pad, and connects the respective sub-areas of the firmware detection system of the entire one game pad with various interfaces and lines.

The memory may be used to store the computer program and/or module, and the processor may implement the various functions of the joystick calibration test method and system of the game pad by running or executing the computer program and/or module stored in the memory and invoking data stored in the memory. The memory may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program (such as a sound playing function, an image playing function, etc.) required for at least one function, and the like; the storage data area may store data (such as audio data, phonebook, etc.) created according to the use of the handset, etc. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as a hard disk, memory, plug-in hard disk, smart Media Card (SMC), secure Digital (SD) Card, flash Card (Flash Card), at least one disk storage device, flash memory device, or other volatile solid-state storage device.

Although the present invention has been described in considerable detail and with particularity with respect to several described embodiments, it is not intended to be limited to any such detail or embodiment or any particular embodiment so as to effectively cover the intended scope of the invention. Furthermore, the foregoing description of the invention has been presented in its embodiments contemplated by the inventors for the purpose of providing a useful description, and for the purposes of providing a non-essential modification of the invention that may not be presently contemplated, may represent an equivalent modification of the invention.

Claims (5)

1. A method for detecting firmware of a game pad, the method comprising the steps of:

s100: detecting, by the gaming device, a firmware version in the gamepad;

s200: testing the matching difference between the firmware and the game through a simulated game;

s300: transmitting the matching difference to a server, and matching a firmware upgrade installation package in the server;

s400: completing automatic firmware upgrading through the firmware upgrading installation package;

s500: finishing the detection report through the firmware upgrading condition;

in the step S400, the matching difference and the number of errors obtained by the recording are respectively used as elements to construct a set match and a set error, the elements in the set match are normalized, so that the information data in the elements are changed into binary groups to record the information data, and meanwhile, the mobile phone time of the number of errors in the set error is converted into a time stamp, and the time stamp is used to construct a set time, and the step of automatically upgrading the firmware is as follows:

s401, taking the moment of a network request signal obtained by detecting the firmware version in the game handle by the current game equipment as T1, taking the moment of the matching difference of the mobile equipment received by the server side of the game equipment as T2, and taking the time period between T1 and T2 as T3; the firmware upgrade installation package fed back by the server corresponding to the matching difference depth in the time period T3 and the quantity of returned firmware upgrade installation package information in the current game equipment are taken as the firmware upgrade degree;

s402, setting 2 empty sets as a transaction set F1 and a comparison set F2 respectively; acquiring the moment that each firmware upgrading degree is greater than 0 in a time period T3 as a firmware upgrading moment; calculating the average value of interval duration between each firmware upgrading moment in the time period T3 as TGY, ensuring that game time conflict of a user is avoided during firmware upgrading, taking i as the serial number of the firmware upgrading moment in the time period T3, and taking i E [1, N1-1] and N1 as the number of the firmware upgrading moment in the time period T3;

traversing each firmware upgrading moment in a time period T3 within the value range of i, wherein the traversing method specifically comprises the following steps: judging whether the (i+2) th firmware upgrading moment after the (i) th monitoring moment T4 in the time period T3 occurs in the time period from T4 to T4+2×TGY, if so, adding the average value of the (i) th firmware upgrading degree D1 in the time period T3, the (i+1) th firmware upgrading degree D2 in the time period T3 and the (i+2) th firmware upgrading degree D3 in the time period T3 into a set F1, and if not, sequentially adding the D1, the D2 and the D2 into the set F2;

s403, using F1 (j) to represent the j-th element of the set F1, j E [1, N2], N2 being the number of elements of the set F1;

traversing the values of the elements in the set F1 within the value range of j, and if all the elements F1 (j) meet the condition:

f2 Mean. Gtoreq.F1 (j). Gtoreq.F2Min or the conditions: f1 (j) defining the firmware automatic upgrade interval and the firmware automatic upgrade time as qualified if the firmware automatic upgrade interval is more than or equal to F2Min+ASS×F2Max; otherwise, defining the automatic firmware upgrading interval and the automatic firmware upgrading time as unqualified;

wherein ASS=exp @, is)/exp(/>)；

The ASS transmits steady-state coefficient coefficients for the firmware upgrading installation package; f2Mean is the Mean of all elements in set F2; f2min represents the minimum value in the set F2;

f2max represents the maximum value in the set F2; f1Mean is the average of all elements in the set F1; f1Min represents the minimum value in the set F1; f1max represents the maximum value in the set F1;

s404, if the log file is marked as an in-doubt log, recording the total number of firmware upgrades larger than F1Max in the set F2 as Ab1, the total number of firmware upgrades smaller than F1Min in the set F2 as Ab2, and calculating the sum of the firmware upgrades larger than F1Max in the set F2 as a high-frequency transmission index when Ab1 is smaller than or equal to Ab 2;

calculating the sum of all monitoring access degrees smaller than F1Min in the set F2 as a low-frequency transmission index; when the high-frequency transmission index is smaller than the low-frequency transmission index, defining the firmware automatic upgrading interval and the firmware automatic upgrading time as qualified, and finishing the firmware automatic upgrading detection.

2. The method according to claim 1, wherein in step S100, the game pad is connected to a game device, the game device is a mobile phone or a tablet computer mobile device, the firmware of the game pad is detected by the game device, whether the firmware version accords with the game configuration in the game device is detected, the firmware in the game device is matched by the game configuration, a matching difference is generated in the matching, the matching difference is information that the firmware version does not match the game configuration, and the matching difference is collected and recorded.

3. The method according to claim 1, wherein in step S200, game operation is simulated in the game device, and the number of errors in the game due to mismatch between the firmware in the game handle and the game is recorded by the game simulation operation, and the number of errors is recorded in correspondence with the match difference.

4. A method for detecting firmware of a game pad according to claim 3, wherein the matching difference is transmitted to a game server, a firmware upgrade installation package is automatically matched and generated in the game server, the firmware upgrade installation package is transmitted back to a client of a game device, the firmware version in the game pad is upgraded and installed through the firmware upgrade installation package, the updated firmware version is matched with a simulated game in the game device, a plurality of games are matched, the matching difference and the number of errors are correspondingly recorded through matching, and finally, after all the simulated games are completely matched, the finally updated firmware version is output, and then the firmware version of the game pad is tested.

5. A firmware detection system for a gamepad, the system comprising: a gamepad, a game device, a processor and a memory, wherein the data acquired by the gamepad and the game device can be stored in the memory, and the data acquired by the processor can also be stored in the memory, wherein the gamepad, the game device and the memory can execute a computer program on the processor, and the processor can implement the steps in the firmware detection method of the gamepad according to any one of claims 1-4 when executing the computer program.