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CN111241560B - Device detection control method and system, computer device, and computer storage medium - Google Patents

Device detection control method and system, computer device, and computer storage medium Download PDF

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Publication number
CN111241560B
CN111241560B CN202010024846.4A CN202010024846A CN111241560B CN 111241560 B CN111241560 B CN 111241560B CN 202010024846 A CN202010024846 A CN 202010024846A CN 111241560 B CN111241560 B CN 111241560B
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service
detection
sample
equipment
node
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CN111241560A (en
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李陆龙
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Oppo Chongqing Intelligent Technology Co Ltd
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Oppo Chongqing Intelligent Technology Co Ltd
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F21/00Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
    • G06F21/60Protecting data
    • G06F21/602Providing cryptographic facilities or services

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Abstract

The application relates to a device detection control method and system, a computer device and a computer readable storage medium. The method comprises the following steps: executing corresponding first service detection operation on the sample equipment according to a preset service node; carrying out aging treatment on the sample equipment which finishes the first service detection operation; executing a second service detection operation on the aged sample equipment according to the service node; and performing a total clearing operation on the sample equipment which completes the second service detection operation, wherein the total clearing operation comprises an initialization configuration operation and an encryption operation on the sample equipment. By adopting the method, the problem of low processing efficiency caused by the need of decryption and repeated encryption in the detection and aging processes of the equipment can be avoided, and the detection and aging processing efficiency can be improved.

Description

Device detection control method and system, computer device, and computer storage medium
Technical Field
The present application relates to the field of computer technologies, and in particular, to a device detection control method and system, a computer device, and a computer-readable storage medium.
Background
With the development of computer technology, electronic devices such as smart phones, tablet computers and wearable devices are applied more and more widely in daily life of people. Before the electronic device leaves a factory, a series of function tests are usually required, and after the function tests, the electronic device is encrypted in a device engineering mode, so as to ensure the security of basic information of the electronic device. However, when the electronic device before shipment needs to be aged, the electronic device that has passed the function detection often needs to be decrypted first, which results in a problem of low processing efficiency.
Disclosure of Invention
The embodiment of the application provides a device detection control method and system, computer equipment and a computer readable storage medium, which can improve the efficiency of device detection control.
A device detection control method comprising:
executing corresponding first service detection operation on the sample equipment according to a preset service node;
carrying out aging treatment on the sample equipment which finishes the first service detection operation;
executing a second service detection operation on the aged sample equipment according to the service node;
and performing a total clearing operation on the sample equipment which completes the second service detection operation, wherein the total clearing operation comprises an initialization configuration operation and an encryption operation on the sample equipment.
A device detection control system comprising:
the service detection module is used for executing corresponding first service detection operation on the sample equipment according to a preset service node;
the aging processing module is used for aging the sample equipment which completes the first service detection operation;
the service detection module is further used for executing a second service detection operation on the aged sample equipment according to the service node;
and the total clearing module is used for performing total clearing operation on the sample equipment which completes the second service detection operation, wherein the total clearing operation comprises initialization configuration operation and encryption operation on the sample equipment.
A computer device comprising a memory and a processor, the memory having stored therein a computer program that, when executed by the processor, causes the processor to perform the steps of:
executing corresponding first service detection operation on the sample equipment according to a preset service node;
carrying out aging treatment on the sample equipment which finishes the first service detection operation;
executing a second service detection operation on the aged sample equipment according to the service node;
and performing a total clearing operation on the sample equipment which completes the second service detection operation, wherein the total clearing operation comprises an initialization configuration operation and an encryption operation on the sample equipment.
A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:
executing corresponding first service detection operation on the sample equipment according to a preset service node;
carrying out aging treatment on the sample equipment which completes the first service detection operation;
executing a second service detection operation on the aged sample equipment according to the service node;
and performing a total clearing operation on the sample equipment which completes the second service detection operation, wherein the total clearing operation comprises an initialization configuration operation and an encryption operation on the sample equipment.
According to the equipment detection control method and system, the computer equipment and the computer readable storage medium, the sample equipment which completes the first service detection operation is aged by executing the corresponding first service detection operation on the sample equipment according to the preset service node, the sample equipment which completes the first service detection operation is subjected to the second service detection operation on the sample equipment which is aged according to the service node, and the sample equipment which completes the second service detection operation is subjected to the total clearing operation comprising the initial configuration operation and the encryption operation, so that the problem of low processing efficiency caused by the fact that the equipment needs to be decrypted and repeatedly encrypted in the detection and aging processes is solved, and the detection and aging processing efficiency can be improved.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a schematic diagram showing an internal configuration of a computer device according to an embodiment;
FIG. 2 is a flow diagram of a device detection control method in one embodiment;
FIG. 3 is a flow diagram of a device detection control method in one embodiment;
FIG. 4 is a flow diagram of determining whether a device can loan, in one embodiment;
FIG. 5 is a schematic diagram of a service node included in a computer device in one embodiment;
FIG. 6 is a block diagram of an embodiment of a device detection control system;
fig. 7 is a block diagram showing the structure of an apparatus detection control system according to another embodiment.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.
It will be understood that, as used herein, the terms "first," "second," and the like may be used herein to describe various elements and concepts, but these elements or concepts are not limited by these terms. These terms are only used to distinguish one concept from another. For example, a first traffic detection operation may be referred to as a second traffic detection operation, and similarly, a second traffic detection operation may be referred to as a first traffic detection operation, without departing from the scope of the present application. The first traffic detection operation and the second traffic detection operation are both traffic detection operations, but are not the same traffic detection operation.
Fig. 1 is a schematic diagram of an internal structure of a computer device according to an embodiment. As shown in fig. 1, the computer device includes a processor and a memory connected by a system bus. Wherein, the processor is used for providing calculation and control capability and supporting the operation of the whole computer equipment. The memory may include a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The computer program can be executed by a processor to implement a device detection control method provided in the following embodiments. The internal memory provides a cached execution environment for the operating system computer programs in the non-volatile storage medium. The computer device may be a server, and the server may be implemented by a stand-alone server or a server cluster composed of a plurality of servers.
Fig. 2 is a flowchart of a device detection control method in one embodiment. The device detection control method in this embodiment is described by taking the computer device in fig. 1 as an example. As shown in fig. 2, the device detection control method includes steps 202 to 208.
Step 202, executing a corresponding first service detection operation on the sample device according to a preset service node.
The first traffic detection operation refers to a traffic detection operation performed on a sample device that is not subjected to the aging process. The sample equipment refers to equipment produced by a production line of a manufacturer. The sample device may be, but is not limited to, a smartphone, a wearable device, a tablet, a gaming device, and the like. The preset service node is determined according to the service content of the sample equipment to be detected. For example, the service node may include one or more of an audio node, a camera node, an antenna node, a GPS (Global Positioning System) node, a certificate binding node, and the like.
And the computer equipment executes corresponding first service detection operation on the sample equipment according to the preset service node. Specifically, the computer device may execute a corresponding first service detection operation on the sample device according to a preset sequence of each service node, and may obtain a service detection result of each service node.
And step 204, performing aging treatment on the sample equipment which completes the first service detection operation.
The aging process refers to an operation of performing a load test on the equipment through different environments to determine the compression resistance of the equipment. For example, the aging process may include, but is not limited to, one or more of a high temperature load test, a low temperature load test, a free fall test, a key life test, a humidity impact test, and the like.
The sample device that has completed the first service detection operation is not subjected to the total clearing process, that is, is not subjected to the initial configuration and encryption, and the computer device may perform the aging process on the sample device that has completed the first service detection operation. In one embodiment, the sample device that completes the first service detection operation needs to be subjected to a sampling process, and when it is determined that the sampling process passes, the sample device is subjected to an aging process.
Optionally, when one or more service detection results of the sample device are failed, the computer device may not perform the aging process on the sample device. For example, the computer device may preset that when the camera node fails to detect, the aging process is not performed; or when the network access certificate binding node and the antenna node are not detected, aging is not performed; it may also be preset that when any service node fails to detect, no aging process is performed. The service node detection failure means that the detection result of the service detection node does not meet the preset service requirement. For example, the resolution of the image acquired by the shooting node is lower than a resolution threshold, the binding of the network-access-certificate binding node is unsuccessful, and the like.
And step 206, executing a second service detection operation on the aged sample equipment according to the service node.
The second traffic detection operation refers to a traffic detection operation performed on the sample device subjected to the aging processing. Specifically, the service node of the second service detection operation is the same as the service node of the first service detection operation.
Generally, after the sample device is subjected to the aging process, the service detection needs to be performed again to obtain a service detection result after the sample device is subjected to the aging process. The computer device may execute a corresponding second service detection operation on the aged sample device according to a preset service node.
And step 208, performing a total clearing operation on the sample device which completes the second service detection operation, wherein the total clearing operation comprises an initialization configuration operation and an encryption operation on the sample device.
The total clear operation includes an initial configuration operation and an encryption operation on the sample device. Specifically, the initialization configuration operation is equivalent to factory configuration restoration operation on the sample device, and is used to clear service data generated in a service detection process and preset parameters corresponding to each service. The encryption operation is used for encrypting the engineering mode of the sample equipment; the engineering mode refers to a hardware security management program of a system level corresponding to the device, and one or more of a network standard, a network state, device hardware parameters, a supplier, application details, a battery service condition, factory configuration restoration and the like of the sample device can be obtained through the engineering mode. Based on information security management, the sample device needs to be encrypted before being shipped out of a factory, so that the information of the device is prevented from being leaked.
Typically, the total flush operation is located after the traffic detection operation; that is, after the operation of performing the traffic detection operation on the sample device according to the traffic node each time, the total clearing operation needs to be performed on the sample device. When the sample device needs to be aged, the sample device needs to be decrypted first, and the decryption operation needs a lot of labor and time.
In this embodiment, the computer device may perform a total clearing operation on the sample device that has completed the second service detection operation, that is, perform initialization configuration and encryption operations on the sample device that has undergone the aging process and the second service detection operation.
In the embodiment of the application, a first service detection operation corresponding to a sample device is executed according to a preset service node, the sample device which completes the first service detection operation is subjected to aging processing, a second service detection operation is performed on the sample device which is subjected to the aging processing according to the service node, and total clearing operation is performed on the sample device which completes the second service detection operation, so that the sample device is initialized and configured, the problem of low processing efficiency caused by the fact that the device needs to be decrypted and repeatedly encrypted in the detection and aging processes can be avoided, the detection and aging processing efficiency can be improved, and the cost for decryption operation is reduced.
Fig. 3 is a flowchart of a device detection control method in one embodiment. As shown in fig. 3, in one embodiment, a device detection control method is provided that includes:
step 302, executing a corresponding first service detection operation on the sample device according to a preset service node.
And step 304, performing a first overall inspection process on the sample device which completes the first service operation, and storing detection information corresponding to the first service detection operation.
The general inspection processing refers to an operation of performing overall inspection and summarizing the results of the business inspection on the sample device. The computer device performs a first total inspection process on the sample device that completes the first service operation, and specifically, the computer device may perform an overall inspection process on the sample device, store the obtained detection information, and acquire and store the detection information corresponding to the first service detection operation.
Optionally, the computer device may identify a device identifier corresponding to the sample device, and store the detection information corresponding to the sample device after associating the detection information with the device identifier. The sample device may be uniquely identified by a device identification. The device identifier may be an international mobile equipment identifier corresponding to the sample device, an identifier allocated to a device system, or a physical address corresponding to a device network card, which is not limited herein.
And step 306, performing aging treatment on the sample equipment which completes the first service detection operation.
In this step, the computer device performs an aging process on the sample device that has completed the first total detection process.
And 308, executing a second service detection operation on the aged sample equipment according to the service node.
And step 310, performing a total clearing operation on the sample equipment which completes the second service detection operation.
Step 312, performing a second total inspection process on the sample device that has completed the total clearing operation, and storing the second service detection operation and the detection information corresponding to the total clearing operation.
The second total inspection processing refers to a total inspection operation performed on the sample apparatus that has been subjected to the aging processing. The second total inspection processing is positioned after the aging processing and the total clearing operation so as to obtain and record operation information corresponding to the aging processing, the service detection operation and the total clearing operation; the problem of the node such as the total clearing operation is prevented.
The computer device may perform a second total inspection process on the sample device that has completed the total clearing operation, and store the second service detection operation and the detection information corresponding to the total clearing operation.
The sample equipment which finishes the first business operation is subjected to first total inspection processing, detection information corresponding to the first business detection operation is stored, the sample equipment which finishes the first total inspection processing is subjected to aging processing, the sample equipment which is subjected to the aging processing is subjected to second business detection operation and total clearing operation, then second total inspection operation is carried out, the detection information of the second business detection operation and the total clearing operation is stored, all detection information of the sample equipment can be obtained, the detection of all projects before the equipment leaves a factory is finished, and the integrity of equipment detection control can be improved.
In an embodiment, before performing an aging process on a sample device that has completed a first service detection operation, the device detection control method further includes: determining whether the sample equipment meets the quality requirement according to the detection information corresponding to the first service detection operation; and when the sample equipment is determined to meet the quality requirement, performing an operation of performing aging treatment on the sample equipment which completes the first service detection operation.
The quality requirements are preset by the computer device. Optionally, the quality of the sample device may be embodied by a quality score, which is determined according to the detection information of the first traffic detection of the sample device; or may be determined based on the number of traffic nodes that the sample device has detected to pass in the first traffic detection operation.
The computer equipment can determine whether the sample equipment meets the quality requirement according to the detection information corresponding to the first service detection operation performed by the sample equipment, and when the sample equipment meets the quality requirement, the sample equipment which completes the first service detection operation is aged; when the sample device does not meet the quality requirement, the computer device may not perform the aging process on the sample device, and reject the sample device from the device detection control flow, and optionally, the computer device may send out a prompt message that the sample device does not meet the quality requirement.
Optionally, in an embodiment, in the device detection control method, during the process of performing service detection and aging processing on the sample device, if the current node fails to detect the sample device, the detection operation on the sample device is stopped, and an indication that the sample device does not meet the quality requirement is sent, that is, the sample device is not detected by the next node of the current node. For example, when the preset service nodes are an audio node, a camera node, and an antenna node, if the detection result obtained by performing the image sensing detection on the sample device by the audio node is that the sample device does not pass, the sample device is not subjected to the antenna detection, the aging processing, and the like.
Whether the sample equipment meets the quality requirement is determined according to the detection information corresponding to the first service detection operation, the sample equipment meeting the quality requirement is aged, and the sample equipment not meeting the quality requirement is not aged, that is, the equipment with quality problems is not aged, so that the problems of high ineffectiveness and low processing efficiency of the equipment aging are avoided.
In an embodiment, in the device detection control method, after performing a second total check process on the sample device that has completed the total clearing operation and storing detection information corresponding to the second service detection operation and the total clearing operation, the method further includes: determining a quality score corresponding to the sample equipment according to the detection information corresponding to the second service detection operation and the total clearing operation; and when the quality score is smaller than the score threshold value, outputting the detection information of the sample device according to the indication strength corresponding to the quality score.
In this embodiment, the quality score is determined by the detection information corresponding to the second traffic detection operation and the total purge operation. Specifically, the computer device may preset a score value corresponding to each service node, or a score value of a service operation included in each service node, so that the quality score of the sample device may be determined according to information of each service node included in the detection information.
The score threshold may be set according to actual application requirements, and is not limited herein. Specifically, the higher the score threshold, the more stringent the quality control of the sample device. When the quality score is less than the score threshold, the computer device may output detection information of the sample device according to the indication strength corresponding to the quality score. Specifically, the strength of indication is negatively correlated with the quality score, i.e., the lower the quality score, the greater the corresponding strength of indication. The indication intensity may be intensity corresponding to a prompt mode such as font color, size of font, flashing frequency, or reminding volume.
Optionally, in one embodiment, the computer device may classify the sample devices according to the quality scores and output the sample devices corresponding to each score class. For example, taking the score as 10 as an example, the classification of the divided sample devices may be less than 2 points, 2 points to 5 points, 5 points to 8 points, more than 8 points, and the like, which is not limited herein.
The quality score corresponding to the sample equipment is determined according to the detection information corresponding to the second service detection operation and the total clearing operation, and when the quality score is smaller than a score threshold value, the detection information of the sample equipment is output according to the indication strength corresponding to the quality score, so that the accuracy of prompting the detection information of the equipment can be improved.
In an embodiment, before performing an aging process on a sample device that completes a first service detection operation in the device detection control method, the method further includes: determining whether the number of devices subjected to the aging processing is less than a number threshold; when the number of the devices subjected to the aging processing is determined to be smaller than the number threshold, executing the operation of performing the aging processing on the sample device which completes the first service detection operation; and when the number of the devices subjected to the aging processing is determined to be larger than or equal to the number threshold value, performing total clearing operation on the sample devices which finish the first traffic detection operation.
The number threshold is a preset number of devices that need to be subjected to the aging process. The number threshold may be set according to the actual application requirement, and is not limited herein. The computer device can record the number of devices subjected to aging processing in real time in the process of device detection control, and when the number of the devices subjected to aging processing is determined to be smaller than the number threshold, the sample device which completes the first service detection operation is subjected to aging processing; when the number of the devices subjected to the aging processing is determined to be greater than or equal to the number threshold, it is indicated that the number of the devices subjected to the aging processing meets the number requirement of the aging processing, the computer device may perform a total clearing operation on the sample devices subjected to the first service detection operation, and further perform a total inspection processing on the sample devices subjected to the total clearing operation to complete the detection control flow of the sample devices, and not perform the aging processing on the sample devices.
By executing the operation of aging the sample equipment which completes the first service detection operation when the number of the equipment which is subjected to aging processing is determined to be smaller than the number threshold, and performing the total clearing operation on the sample equipment which completes the first service detection operation when the number of the equipment which is subjected to aging processing is determined to be larger than or equal to the number threshold, the number of the equipment which is subjected to aging processing can be accurately controlled, and the number of the equipment which is subjected to aging processing is prevented from being too large.
In one embodiment, the provided device detection control method further includes: responding to the lending instruction aiming at the target equipment, and acquiring the equipment identification of the target equipment; acquiring target detection information corresponding to the equipment identifier; and when the target equipment meets the lending condition according to the target detection information, sending a corresponding lending permission indication.
In the detection stage, the sample equipment is often required to be tested and repaired by developers, testers, quality inspectors and the like from the outside of a workshop. To avoid leakage of information contained in the engineering mode of the sample device, particularly before the device is not distributed, the loaned sample device should be a device in which the engineering mode is encrypted.
The target device is a device selected from the sample devices for lending. The device identifier is a unique identifier corresponding to the target device. The device identifier may be an international mobile equipment identifier corresponding to the target device, an identifier assigned by the device system, or a physical address corresponding to the device network card. The loan instruction can be generated by the computer device according to the selected operation of the user on the target device; or the computer device may read the device identifier of the target device placed in the loan detection module and generate the device identifier.
In this embodiment, the computer device may provide the functionality to detect whether the sample device meets the loan condition. Specifically, the computer device may respond to the loan instruction for the target device, and obtain the device identifier of the target device according to the loan instruction, thereby determining whether the target device satisfies the loan condition according to the target detection information corresponding to the device identifier, and when the target device satisfies the loan condition, send out the corresponding loan permission instruction. The lending condition can be set according to the actual application requirement. The lending condition includes that the engineering mode is encrypted, and optionally, the lending condition may further include that the quality score of the target device reaches a preset lending score threshold value, and the like.
The method comprises the steps of responding to a lending instruction aiming at the target equipment, obtaining an equipment identifier of the target equipment, obtaining target detection information corresponding to the equipment identifier, and sending out a corresponding lending permission instruction when the target equipment meets the lending condition according to the target detection information, so that leakage of equipment information caused by outsourcing of sample equipment which does not meet the lending condition by workshop staff can be avoided, and the safety of the sample equipment is ensured.
Fig. 4 is a flow diagram of determining whether a device can loan, in one embodiment. As shown in fig. 4, in an embodiment, the provided device detection control method further includes:
step 402, responding to the lending instruction aiming at the target equipment, and acquiring the equipment identification of the target equipment.
In step 404, target detection information corresponding to the device identifier is obtained.
Specifically, the computer device may obtain target detection information corresponding to the device identifier of the target device according to the stored device identifier and the corresponding detection information of the second service detection operation and the total clearing operation. Alternatively, the computer device may also acquire detection information of the total clearing operation corresponding to the device identification as the target detection information.
Step 406, determining whether the target device completes the total clearing operation according to the target detection information.
The total clear operation includes an initial configuration operation and an encryption operation on the sample device. The sample device completes the total clearing operation, which means that the sample device is restored to factory configuration and the engineering mode of the device is encrypted. The computer device determines whether the target device completes the total clearing operation according to the target detection information, and specifically, the computer device may obtain target detection information corresponding to the target device through a total check node, obtain detection information of the target device at the total clearing node from the target detection information, and determine whether the target device completes the total clearing operation according to the detection information of the total clearing node. The general inspection node is used for performing general inspection processing on the sample equipment; the total clear node is a node for performing a total clear operation on the sample device.
At step 408, when it is determined that the target device has completed the total purge operation, a loan allowance indication is issued.
When it is determined that the target device completes the total purge operation, the computer device issues a loan allowance indication. Optionally, the computer device issues a disallowed loan indication when it is determined that the target device does not complete the total purge operation. The loan permission indication may be output by voice output, text presentation, indicator lights, or the like. For example, the lending allowance indication may be an indication that the control indicator lamp is colored green; the corresponding loan prohibition indication may be an indication that the control indicator lamp is colored red.
Whether the target equipment completes the total clearing operation or not is determined according to the target detection information, and when the target equipment completes the total clearing operation is determined, a corresponding lending permission indication is sent, so that leakage of equipment information caused by borrowing of sample equipment with an unencrypted engineering mode by workshop staff can be avoided, and the safety of the sample equipment is ensured.
Figure 5 is a schematic diagram of a service node included in a computer device in one embodiment. As shown in fig. 5, in one embodiment, a computer device is provided that includes preset service nodes such as a general review node 520, a general clear node 530, an aging node 540, and an LCD (Liquid Crystal Display) node 511, an audio node 512, a camera node 513, an antenna node 514, a GPS node 515, and an admission binding node 516. Optionally, in one embodiment, the computer device may further include a spot check node 550 and a wrapping node 560. The sampling node 550 is configured to extract a preset number of sample devices from a batch of sample device sets for testing, so as to ensure the quality of the batch of sample devices. The packing node 560 is configured to perform a packing operation on the sample device that has been performed the spot check operation to determine that the device is of a qualified quality. It is to be understood that the execution of the preset service nodes is not necessarily performed in the aforementioned order, and the service nodes may also be performed in other orders, which is not limited herein.
In an embodiment, the equipment detection control method is implemented by a Manufacturing Execution System (MES) System, and is applied to a PVT (small-batch process Verification Test) stage of equipment production. Specifically, the computer device is provided with an MES system capable of implementing the device detection control method, so that the computer device can execute a first service detection operation on the produced sample device through a preset service node contained in the MES system, when the sample device needs to be aged, the computer device performs the aging processing on the sample device which completes the first service detection operation through the aging node of the MES system, performs a second service detection operation processing on the aged sample device according to the service node, and further performs a total removal operation on the sample device which completes the second service detection operation through the total removal node; when the sample equipment does not need to be aged, the computer equipment can carry out total clearing operation on the sample equipment which completes the first business detection operation through a total clearing node of the MES system.
It should be understood that although the various steps in the flow diagrams of fig. 2-5 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not limited to being performed in the exact order illustrated and, unless explicitly stated herein, may be performed in other orders. Moreover, at least some of the steps in fig. 2-5 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternating with other steps or at least some of the sub-steps or stages of other steps.
Fig. 6 is a block diagram of a device detection control system according to an embodiment. As shown in fig. 6, the device detection control system includes: a traffic detection module 602, an aging processing module 604, and a total cleanup module 606.
Wherein:
the service detection module 602 is configured to perform a corresponding first service detection operation on the sample device according to a preset service node.
And the aging processing module 604 is configured to perform aging processing on the sample device that completes the first service detection operation.
The service detection module 602 is further configured to execute a second service detection operation on the aged sample device according to the service node.
And an overall clearing module 606, configured to perform an overall clearing operation on the sample device that completes the second service detection operation, where the overall clearing operation includes an initialization configuration operation and an encryption operation on the sample device.
As shown in fig. 7, in an embodiment, the provided device detection control system further includes a total inspection module 608, where the total inspection module 608 is configured to perform a first total inspection process on the sample device that completes the first service operation, and store detection information corresponding to the first service detection operation; and carrying out second total inspection processing on the sample equipment which completes the total clearing operation, and storing the second service detection operation and the detection information corresponding to the total clearing operation.
In one embodiment, the aging processing module 604 may be further configured to determine whether the sample device meets the quality requirement according to the detection information corresponding to the first traffic detection operation; and when the sample equipment is determined to meet the quality requirement, carrying out aging treatment on the sample equipment which completes the first service detection operation.
In one embodiment, the device detection control system further includes an output module 610, where the output module 610 is configured to determine a quality score corresponding to the sample device according to the detection information corresponding to the second service detection operation and the total clearing operation; and when the quality score is smaller than the score threshold value, outputting the detection information of the sample equipment according to the indication strength corresponding to the quality score.
In one embodiment, the aging module 604 may also be configured to determine whether the number of devices that have been aged is less than a number threshold; and when the number of the devices subjected to the aging processing is determined to be smaller than the number threshold, performing the aging processing on the sample devices which finish the first service detection operation.
In one embodiment, the total clearing module 606 may be further configured to perform the total clearing operation on the sample device that completes the first traffic detection operation when it is determined that the number of devices that have undergone the aging process is greater than or equal to the number threshold.
In one embodiment, the output module 610 may be further configured to obtain a device identifier of the target device in response to the loan indication for the target device; acquiring target detection information corresponding to the equipment identifier; and when the target equipment meets the loan condition according to the target detection information, sending out a corresponding loan permission indication.
In one embodiment, the output module 610 may be further configured to determine whether the target device completes the total clearing operation according to the target detection information; when it is determined that the target device has completed the total purge operation, a loan permission indication is issued.
The division of each module in the device detection control system is only used for illustration, and in other embodiments, the device detection control system may be divided into different modules as needed to complete all or part of the functions of the device detection control system.
For specific limitations of the device detection control system, reference may be made to the above limitations of the device detection control method, which are not described herein again. The modules in the equipment detection control system can be wholly or partially realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.
Those skilled in the art will appreciate that the architecture shown in fig. 1 is a block diagram of only a portion of the architecture associated with the subject application, and does not constitute a limitation on the servers to which the subject application applies, as a particular server may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.
The implementation of each module in the device detection control system provided in the embodiments of the present application may be in the form of a computer program. The computer program may be run on a terminal or a server. The program modules constituted by the computer program may be stored on the memory of the terminal or the server. Which when executed by a processor, performs the steps of the method described in the embodiments of the present application.
The embodiment of the application also provides a computer readable storage medium. One or more non-transitory computer-readable storage media containing computer-executable instructions that, when executed by one or more processors, cause the processors to perform the steps of the device detection control method.
A computer program product containing instructions which, when run on a computer, cause the computer to perform a device detection control method.
Any reference to memory, storage, database, or other medium used herein may include non-volatile and/or volatile memory. Non-volatile memory can include read-only memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM), which acts as external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double data rate SDRAM (DDR SDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), rambus (Rambus) direct RAM (RDRAM), direct bused dynamic RAM (DRDRAM), and Rambus Dynamic RAM (RDRAM).
The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An apparatus detection control method, characterized by comprising:
executing corresponding first service detection operation on the sample equipment according to a preset service node;
carrying out first total inspection processing on the sample equipment which completes the first service detection operation, and storing detection information corresponding to the first service detection operation; the general inspection processing refers to the operation of carrying out overall detection and summarizing the result of the business detection on the sample equipment; determining whether the sample equipment meets the quality requirement or not according to the number of the service nodes detected to pass in the detection information corresponding to the first service detection operation;
when the sample equipment is determined to meet the quality requirement, carrying out aging treatment on the sample equipment which completes the first service detection operation;
executing a second service detection operation on the aged sample equipment according to the service node, wherein the first service detection operation and the second service detection operation are the same service detection operation;
performing total clearing operation on the sample equipment which completes the second service detection operation, wherein the total clearing operation comprises initialization configuration operation and encryption operation on the sample equipment, the initialization configuration operation is used for clearing service data generated in a service detection process, and parameters corresponding to each service are preset;
performing second total inspection processing on the sample equipment which completes the total clearing operation, and storing the second service detection operation and detection information corresponding to the total clearing operation;
determining a quality score corresponding to the sample equipment according to detection information corresponding to the second service detection operation and the total clearing operation;
and when the quality score is smaller than a score threshold value, outputting the detection information of the sample equipment according to the indication strength corresponding to the quality score.
2. The method of claim 1, wherein the first traffic detection operation and the second traffic detection operation are performed by a traffic node in an MES (Manufacturing Execution System), wherein the first overall inspection process and the second overall inspection process are performed by an overall inspection node in the MES, wherein the aging process is performed by an aging node in the MES, wherein the overall cleaning operation is performed by an overall cleaning node in the MES, wherein the traffic node comprises at least one of an audio node, a camera node, an antenna node, a GPS (Global Positioning System) node, and an incoming authentication binding node.
3. The method according to claim 1, wherein the encryption operation is used for encrypting an engineering mode of the sample device, and the engineering mode refers to a hardware security management program of a system level corresponding to the sample device.
4. The method of claim 1, wherein the indication strength is inversely related to the quality score, and the indication strength includes strength corresponding to at least one prompting method selected from font color, font size, flashing frequency, and prompting volume.
5. The method of claim 1, wherein before aging the sample device that completed the first traffic detection operation, further comprising:
determining whether the number of devices subjected to the aging processing is less than a number threshold;
when the number of the devices subjected to the aging processing is determined to be smaller than the number threshold, executing the operation of performing the aging processing on the sample device which is to finish the first business detection operation;
the method further comprises the following steps:
and when the number of the devices subjected to the aging processing is determined to be larger than or equal to the number threshold, performing total clearing operation on the sample devices which finish the first traffic detection operation.
6. The method of claim 1, further comprising:
responding to a lending instruction aiming at target equipment, and acquiring equipment identification of the target equipment;
acquiring target detection information corresponding to the equipment identifier;
and when the target equipment meets the loan condition according to the target detection information, sending a corresponding loan permission indication.
7. The method of claim 6, wherein the loan condition is completion of a total purge operation; when it is determined that the target device meets the loan condition according to the target detection information, sending a corresponding loan permission indication, including:
determining whether the target equipment completes total clearing operation according to the target detection information;
issuing the loan allowance indication when it is determined that the target device completes the total purge operation.
8. An equipment detection control system, comprising:
the service detection module is used for executing corresponding first service detection operation on the sample equipment according to a preset service node;
the general inspection module is used for carrying out first general inspection processing on the sample equipment which completes the first service detection operation and storing detection information corresponding to the first service detection operation; the general inspection processing refers to the operation of carrying out overall detection and summarizing the result of the business detection on the sample equipment;
the aging processing module is used for determining whether the sample equipment meets the quality requirement according to the number of the service nodes passing the detection in the detection information corresponding to the first service detection operation, and when the sample equipment meets the quality requirement, performing aging processing on the sample equipment completing the first service detection operation;
the service detection module is further configured to execute a second service detection operation on the aged sample device according to the service node, where the first service detection operation and the second service detection operation are the same service detection operation;
a total clearing module, configured to perform a total clearing operation on the sample device that has completed the second service detection operation, where the total clearing operation includes an initialization configuration operation and an encryption operation on the sample device, and the initialization configuration operation is used to clear service data generated in a service detection process and preset parameters corresponding to each service;
the total inspection module is further configured to perform a second total inspection process on the sample device that has completed the total clearing operation, and store the second service detection operation and detection information corresponding to the total clearing operation;
and the output module is used for determining the quality score corresponding to the sample equipment according to the detection information corresponding to the second service detection operation and the total clearing operation, and outputting the detection information of the sample equipment according to the indication strength corresponding to the quality score when the quality score is smaller than a score threshold value.
9. A computer device comprising a memory and a processor, the memory having stored therein a computer program that, when executed by the processor, causes the processor to perform the steps of the device detection control method according to any one of claims 1 to 7.
10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.
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