CN114244895B - Control method and device of handheld mobile terminal, electronic equipment and storage medium - Google Patents

Control method and device of handheld mobile terminal, electronic equipment and storage medium Download PDF

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CN114244895B
CN114244895B CN202111572399.7A CN202111572399A CN114244895B CN 114244895 B CN114244895 B CN 114244895B CN 202111572399 A CN202111572399 A CN 202111572399A CN 114244895 B CN114244895 B CN 114244895B
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time
offline
mobile terminal
handheld mobile
operation instruction
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CN114244895A (en
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张硕
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Beijing Jingdong Zhenshi Information Technology Co Ltd
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Beijing Jingdong Zhenshi Information Technology Co Ltd
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Abstract

The disclosure provides a control method and device of a handheld mobile terminal, electronic equipment and a storage medium, and relates to the technical field of equipment control. The control method of the handheld mobile terminal comprises the following steps: the handheld mobile terminal is in a networking state, and the reference time is configured based on a time synchronization signal sent by the server; the handheld mobile terminal is in an offline state, and the offline time of the handheld mobile terminal is determined in response to the acquired operation instruction; and determining the processing mode of the operation instruction based on the relation between the offline time and the reference time. According to the technical scheme, the probability that the actual execution time and the offline recording time of the operation instruction are not matched can be reduced, and the probability that false operation time exists in the operation log recorded by the handheld mobile terminal is further reduced.

Description

Control method and device of handheld mobile terminal, electronic equipment and storage medium
Technical Field
The present disclosure relates to the field of device control technologies, and in particular, to a method and apparatus for controlling a handheld mobile terminal, an electronic device, and a computer readable storage medium.
Background
The handheld mobile terminal for logistics scanning operation can record the scanning operation time, and sends the operation time to a background server of a scanning operation system, the background server records the operation time, the handheld mobile terminal can normally scan when the network is disconnected, the scanning operation time is cached locally in an offline mode, and the network is automatically uploaded to the background server after the network is restored to be normal.
It should be noted that the information disclosed in the above background section is only for enhancing understanding of the background of the present disclosure and thus may include information that does not constitute prior art known to those of ordinary skill in the art.
Disclosure of Invention
An object of the present disclosure is to provide a control method, apparatus, electronic device, and computer-readable storage medium of a handheld mobile terminal, which can improve the problem of a background server storing a false operation log in the related art at least to some extent.
Other features and advantages of the present disclosure will be apparent from the following detailed description, or may be learned in part by the practice of the disclosure.
According to one aspect of the present disclosure, there is provided a control method including: the handheld mobile terminal is in a networking state, and the reference time is configured based on a time synchronization signal sent by the server; the handheld mobile terminal is in an offline state, and the offline time of the handheld mobile terminal is determined in response to the acquired operation instruction; and determining the processing mode of the operation instruction based on the relation between the offline time and the reference time.
In one embodiment, the determining the processing manner of the operation instruction based on the relationship between the offline time and the reference time specifically includes: intercepting the operation instruction when the offline time is detected to be earlier than or equal to the reference time; and executing the operation instruction when the offline time is detected to be later than the reference time.
In one embodiment, the executing the operation instruction when the offline time is detected to be later than the reference time further includes: when the offline time is detected to be later than the reference time, detecting whether a modification operation on the offline time is acquired from the offline time; intercepting the operation instruction when the modification operation is detected and acquired; and executing the operation instruction when the modification operation is not detected to be not acquired.
In one embodiment, when the offline time is detected to be later than the reference time, executing the operation instructions further comprises: uploading an offline operation log generated in the offline state to the server when the handheld mobile terminal recovers the networking state, detecting whether the offline time is modified or not based on the offline operation log by the server, and generating operation abnormality information of the handheld mobile terminal when the offline time is detected to be modified; and receiving the operation abnormality information fed back by the server.
In one embodiment, the intercepting the operation instruction when the offline time is detected to be earlier than or equal to the reference time further includes: and generating interception prompt information in response to the operation of intercepting the operation instruction.
In one embodiment, further comprising: responding to the interception prompt information to generate a time recovery interface; receiving a time recovery operation based on the time recovery interface; and responding to the time recovery operation, and performing calibration operation on the offline time based on the reference time so as to allow the operation instruction to be executed when the calibration operation is completed.
In one embodiment, the handheld mobile terminal is in a networking state, and configures a reference time based on a time synchronization signal sent by a server, and specifically includes: the handheld mobile terminal is in a networking state, and continuously receives a time synchronization signal sent by the server based on a preset synchronization period; and when detecting that the handheld mobile equipment is switched from the networking state to the offline state, marking the time synchronization signal received last time as the reference time.
According to another aspect of the present disclosure, there is provided a control apparatus including: the receiving module is used for configuring reference time based on the time synchronization signal sent by the server when the handheld mobile terminal is in a networking state; the determining module is used for determining the offline time of the handheld mobile terminal in response to the acquired operation instruction when the handheld mobile terminal is in an offline state; the determining module is further configured to: and determining the processing mode of the operation instruction based on the relation between the offline time and the reference time.
According to still another aspect of the present disclosure, there is provided an electronic apparatus including: a processor; and a memory for storing executable instructions of the processor; wherein the processor is configured to execute the control method of the other aspect described above via execution of the executable instructions.
According to still another aspect of the present disclosure, there is provided a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the control method of any one of the above.
According to the control scheme provided by the embodiment of the disclosure, the reference time is configured based on the time synchronization signal sent by the server, so that when the handheld mobile terminal is switched to the offline state, the reference time is used as a detection reference for whether the offline time is tampered, and further, the processing mode of acquiring the operation instruction at the moment described by the offline time is determined based on the detection result of whether the offline time is tampered.
Specifically, when the offline time is detected to be tampered, the processing mode of the operation instruction may be interception, and when the offline time is detected to not be tampered, the processing mode of the operation instruction may be execution, based on the processing mode, the probability that the actual execution time of the operation instruction is not matched with the offline recording time is reduced, and then the probability that the false operation time exists in the operation log recorded by the handheld mobile terminal is reduced.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure. It will be apparent to those of ordinary skill in the art that the drawings in the following description are merely examples of the disclosure and that other drawings may be derived from them without undue effort.
FIG. 1 illustrates a schematic diagram of a control system architecture in an embodiment of the present disclosure;
FIG. 2 illustrates a flow chart of a method of controlling a handheld mobile terminal in an embodiment of the present disclosure;
FIG. 3 illustrates a flow chart of another method of controlling a handheld mobile terminal in an embodiment of the present disclosure;
FIG. 4 illustrates a flow chart of a method of controlling a further handheld mobile terminal in an embodiment of the present disclosure;
FIG. 5 is a schematic diagram of another control system architecture of a handheld mobile terminal in an embodiment of the present disclosure;
FIG. 6 is a schematic diagram showing a control system structure of yet another hand-held mobile terminal according to an embodiment of the present disclosure;
FIG. 7 is a schematic diagram showing a control system structure of yet another hand-held mobile terminal according to an embodiment of the present disclosure;
FIG. 8 shows a schematic diagram of a control device in an embodiment of the present disclosure;
Fig. 9 shows a schematic diagram of an electronic device in an embodiment of the disclosure.
Detailed Description
Example embodiments will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments may be embodied in many forms and should not be construed as limited to the examples set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the example embodiments to those skilled in the art. The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.
Furthermore, the drawings are merely schematic illustrations of the present disclosure and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus a repetitive description thereof will be omitted. Some of the block diagrams shown in the figures are functional entities and do not necessarily correspond to physically or logically separate entities. These functional entities may be implemented in software or in one or more hardware modules or integrated circuits or in different networks and/or processor devices and/or microcontroller devices.
According to the scheme provided by the application, the reference time is configured based on the time synchronization signal sent by the server, so that when the handheld mobile terminal is switched to the offline state, the reference time is used as a detection reference for whether the offline time is tampered, further, based on a detection result of whether the offline time is tampered, a processing mode for acquiring the operation instruction at the moment described by the offline time is determined, based on the processing mode, the probability that the actual execution time of the operation instruction is not matched with the offline recording time is reduced, and further, the probability that the false operation time exists in the operation log recorded by the handheld mobile terminal is reduced.
Fig. 1 shows a schematic structural diagram of a control system according to an embodiment of the present disclosure, including a plurality of terminals 120 and a server cluster 140.
The terminal 120 may be a mobile terminal such as a mobile phone, a game console, a tablet computer, an electronic book reader, a smart glasses, an MP4 (Moving Picture Experts Group Audio Layer IV, dynamic image expert compression standard audio plane 4) player, a smart home device, an AR (Augmented Reality) device, a VR (Virtual Reality) device, or the terminal 120 may be a personal computer (Personal Computer, PC) such as a laptop portable computer and a desktop computer, etc.
Among them, an application program for providing control may be installed in the terminal 120.
The terminal 120 is connected to the server cluster 140 through a communication network. Optionally, the communication network is a wired network or a wireless network.
The server cluster 140 is a server, or is composed of several servers, or is a virtualized platform, or is a cloud computing service center. The server cluster 140 is used to provide background services for providing control applications. Optionally, the server cluster 140 takes on primary computing work and the terminal 120 takes on secondary computing work; or server cluster 140 performs secondary computing work and terminal 120 performs primary computing work; or the terminal 120 and the server cluster 140 perform cooperative computing by using a distributed computing architecture.
In some alternative embodiments, the server cluster 140 is used to store control models and the like.
Alternatively, the clients of the applications installed in different terminals 120 are the same, or the clients of the applications installed on both terminals 120 are clients of the same type of application of different control system platforms. The specific form of the client of the application program may also be different based on the difference of the terminal platforms, for example, the application program client may be a mobile phone client, a PC client, or a World Wide Web (Web) client.
Those skilled in the art will appreciate that the number of terminals 120 may be greater or lesser. Such as the above-mentioned terminals may be only one, or the above-mentioned terminals may be several tens or hundreds, or more. The embodiment of the application does not limit the number of terminals and the equipment type.
Optionally, the system may further comprise a management device (not shown in fig. 1), which is connected to the server cluster 140 via a communication network. Optionally, the communication network is a wired network or a wireless network.
Alternatively, the wireless network or wired network described above uses standard communication techniques and/or protocols. The network is typically the Internet, but may be any network including, but not limited to, a local area network (Local Area Network, LAN), metropolitan area network (Metropolitan Area Network, MAN), wide area network (Wide Area Network, WAN), mobile, wired or wireless network, private network, or any combination of virtual private networks. In some embodiments, data exchanged over the network is represented using techniques and/or formats including HyperText Mark-up Language (HTML), extensible markup Language (Extensible MarkupLanguage, XML), and the like. All or some of the links may also be encrypted using conventional encryption techniques such as secure sockets layer (Secure Socket Layer, SSL), transport layer security (Transport Layer Security, TLS), virtual private network (Virtual Private Network, VPN), internet protocol security (Internet ProtocolSecurity, IPsec), etc. In other embodiments, custom and/or dedicated data communication techniques may also be used in place of or in addition to the data communication techniques described above.
Next, each step in the control method in the present exemplary embodiment will be described in more detail with reference to the drawings and examples.
Fig. 2 shows a control method flowchart in an embodiment of the present disclosure. The methods provided by embodiments of the present disclosure may be performed by any electronic device having computing processing capabilities, such as, for example, terminal 120 and/or server cluster 140 in fig. 1. In the following illustration, the terminal 120 is exemplified as an execution subject.
As shown in fig. 2, the terminal 120 performs a control method, and the terminal 120 may be a handheld mobile terminal, where the control method includes the following steps:
step S202, the handheld mobile terminal is in a networking state, and the reference time is configured based on a time synchronization signal sent by the server.
In the networking state, the handheld mobile terminal and the server are in an interaction state, the handheld mobile terminal can send an operation log like the server, and the server can send a time synchronization signal like the server, so that the handheld mobile terminal can keep standard time in the networking state.
Step S204, the handheld mobile terminal is in an off-line state, and the off-line time of the handheld mobile terminal is determined in response to the acquired operation instruction.
The offline time of the obtained handheld mobile terminal at this time may be a time signal consistent with the reference time, or may be a time signal tampered with maliciously.
In addition, the operation instruction may include a scan instruction, a photographing instruction, an editing instruction, and the like.
Step S206, based on the relation between the offline time and the reference time, the processing mode of the operation instruction is determined.
The method comprises the steps of detecting whether the offline handheld mobile terminal is tampered in time or not by detecting the relation between the offline time and the reference time, and further determining whether to execute an operation instruction or not based on a detection result, so that the probability that the actual execution time of the operation instruction is not matched with the offline recording time can be reduced.
In this embodiment, the reference time is configured based on the time synchronization signal sent by the server, so that when the handheld mobile terminal is switched to the offline state, the reference time is used as a detection reference for whether the offline time is tampered, and further, based on a detection result of whether the offline time is tampered, a processing mode of acquiring the operation instruction at the time described by the offline time is determined.
Specifically, when the offline time is detected to be tampered, the processing mode of the operation instruction may be interception, and when the offline time is detected to not be tampered, the processing mode of the operation instruction may be execution, based on the processing mode, the probability that the actual execution time of the operation instruction is not matched with the offline recording time is reduced, and then the probability that the false operation time exists in the operation log recorded by the handheld mobile terminal is reduced.
For example, in a specific application scenario, the offline time of the terminal by the user of the handheld mobile terminal may also be understood as the recording time or the display time, and modified to be a time later than the actual time, for example, the actual time when the terminal acquires the operation instruction of the user is 9:00, and off-line time of 8:00, the operation time of the offline operation log record of the terminal is also 8:00, that is, the user originally needs to be at 8:00, due to the modified off-line time, actually at 9:00 is completed, and if the user operation needs to be checked based on the operation time, the mode can avoid the check.
Based on the control scheme of the handheld mobile terminal, the reference time is configured to be a detection mode for detecting whether the offline time of the handheld mobile terminal is modified or not based on the relation between the offline time and the reference time, and a processing mode of a corresponding operation instruction is determined based on a detection result of whether the offline time is modified or not, so that an error offline operation log is prevented from being generated.
As shown in fig. 3, in one embodiment, a control method of a handheld mobile terminal according to one embodiment of the present disclosure includes:
in step S302, the handheld mobile terminal is in a networking state, and configures a reference time based on a time synchronization signal sent by the server.
Step S304, the handheld mobile terminal is in an off-line state, and the off-line time of the handheld mobile terminal is determined in response to the acquired operation instruction.
Step S206, determining a specific implementation manner of the processing manner of the operation instruction based on the relationship between the offline time and the reference time, including:
in step S306, when the offline time is detected to be earlier than or equal to the reference time, the operation instruction is intercepted.
In step S308, when the offline time is detected to be later than the reference time, the operation instruction is executed.
In this embodiment, in a simpler processing scenario, the offline time represents the offline time recorded by the terminal, the reference time represents the reference time, if the offline time is earlier than the reference time or equal to the reference time, the offline time is considered to be modified, the interception operation instruction is not executed at this time, if the offline time is later than the reference time, the offline time is considered to be unmodified, and the operation instruction is executed at this time, so that the operation under the working condition of artificially postponing the time is prohibited, so that the timeliness of the operation is ensured, and the implementation is easy, and the reliability is certain.
As shown in fig. 4, in one embodiment, when the offline time is detected to be later than the reference time, the operation instruction is executed, and further includes:
In step S402, when the offline time is detected to be later than the reference time, it is detected whether the modification operation for the offline time is acquired from the offline time.
In step S404, when the modification operation is detected, the operation instruction is intercepted.
In step S406, when the modification operation is not detected to be not acquired, an operation instruction is executed.
In this embodiment, in order to further improve the reliability of whether to modify the offline time detection, a monitoring module is provided on the terminal to monitor whether the offline time is tampered in an offline state based on the monitoring module, so that even if the offline time is detected to be later than the reference time, if the behavior of the tampered time is monitored, execution of the operation instruction is still prohibited, so as to further improve the reliability of intercepting the operation instruction when the time tampered phenomenon occurs.
Specifically, the monitoring module may be implemented based on monitoring a touch screen operation of the handheld mobile terminal.
As shown in fig. 5, in one embodiment, when the offline time is detected to be later than the reference time, the operation instruction is executed, and further includes:
step S502, when the hand-held mobile terminal resumes the networking state, the offline operation log generated in the offline state is uploaded to the server, so that the server detects whether the offline time is modified based on the offline operation log, and when the offline time is detected to be modified, abnormal operation information of the hand-held mobile terminal is generated.
Specifically, in the terminal where the monitoring module is not provided, in order to further identify the operation after the offline time is modified, the generated offline operation log may be sent to the server when the network state is restored, and the server determines whether the offline time is tampered by recording the offline time of the handheld terminal device, the offline time recorded in the offline operation log, the execution time of the operation instruction, the generation time of the offline operation log, and other time points.
For example, the offline operation log records 8:00 offline, 8:30 execute the operation instruction, 8:40 generates an offline operation log, in effect 8:00 offline, 8:30, recovering the network and receiving an offline operation log, namely that the actual offline time is half an hour, and determining that the offline time is tampered based on the record of the offline operation log, wherein the offline time of the equipment is longer than or equal to 40 minutes.
Step S504, operation abnormality information fed back by the server is received.
In this embodiment, by configuring the record information of the offline operation log, in addition to recording the execution time of the operation instruction, time information such as the offline time of the recording terminal, the generation time of the offline operation log, the log transmission time and the like is increased, so as to detect the reliability of the executed operation instruction based on the time information, thereby identifying the phenomenon that the offline time is tampered although the offline time is later than the reference time, generating the operation abnormality information of the handheld terminal when the phenomenon is identified, and transmitting the operation abnormality information to the co-worker of the handheld mobile terminal, and also transmitting the operation abnormality information to the device with the monitoring function, so as to determine the execution abnormality of the operation instruction, further ensure the reliability of the time tampering operation identification, and further ensure the accuracy of the offline operation log.
As shown in fig. 6, in one embodiment, when the offline time is detected to be earlier than or equal to the reference time, intercepting the operation instruction further includes:
Step S602, in response to the operation of the interception operation instruction, interception prompt information is generated.
Step S604, in response to the interception prompt message, a time recovery interface is generated.
Step S606, receiving a time recovery operation based on the time recovery interface.
In step S608, in response to the time recovery operation, the off-line time is calibrated based on the reference time, so as to allow the execution of the operation instruction when the calibration operation is completed.
In this embodiment, when a time tamper phenomenon is detected and an operation instruction is intercepted, an interception prompt message is generated, and a time recovery interface is further generated, preferably, in the time recovery interface, a recovery right may be further configured, that is, after verifying a user identity with the recovery right, an input time recovery operation is received, so that after the time recovery operation is completed, the operation instruction is continuously allowed to be executed, and in an offline state, after the offline time is recovered to a standard time, a user can still continue to operate the handheld mobile terminal, so that normal operation of the terminal is realized after abnormality removal.
As shown in fig. 7, in one embodiment, a control method of a handheld mobile terminal according to another embodiment of the present disclosure includes:
In step S702, the handheld mobile terminal is in a networking state, and continuously receives a time synchronization signal sent by the server based on a preset synchronization period.
In step S704, when it is detected that the handheld mobile device is switched from the networking state to the offline state, the time synchronization signal received last time is marked as the reference time.
Specifically, when the handheld mobile terminal is in a networking state, the handheld mobile terminal calls a background system synchronization interface at regular time, acquires a time synchronization signal of a background server, enables the terminal to operate according to standard time based on the time synchronization signal, and further records the time of the server to a local storage field of the equipment. After the handheld mobile terminal acquires the latest time synchronizing signal, the last record is covered, so that the latest synchronizing time of the server is locally stored, and the last recorded synchronizing time of the server before offline is used as the reference time.
Step S706, the hand-held mobile terminal is in an off-line state, and the off-line time of the hand-held mobile terminal is determined in response to the acquired operation instruction.
In step S708, when the offline time is detected to be earlier than or equal to the reference time, the operation instruction is intercepted.
In step S710, when the offline time is detected to be later than the reference time, the operation instruction is executed.
Specifically, when the handheld mobile terminal is disconnected and enters an offline state, time verification is performed each time an offline operation instruction is received, and the system verification logic is as follows:
(1) If the offline operation time is after the last online state time, the operation can be normally performed; examples: last on-line time 1 month 15 day 8:00, mobile device time is 8:05, can be operated normally.
(2) If the time of the mobile handheld terminal is tampered maliciously, the offline operation time is before the last online state time, and the mobile handheld terminal prompts that the equipment cannot normally operate due to abnormal time. Examples: last on-line time 1 month 15 day 8:00, the mobile handheld terminal is a PDA (Personal DIGITAL ASSISTANT, palm computer), and the PDA equipment time is artificially changed into 7:00, the prompting time is artificially modified and cannot be operated normally.
Further, when the offline time is detected to be later than the reference time, in order to further detect whether the time tampering operation exists, a monitoring module can be set to monitor whether the modification operation on the offline time is acquired or whether the time tampering operation exists or not based on analysis of the generated offline operation log, so that the authenticity of the operation log is ensured.
It is noted that the above-described figures are only schematic illustrations of processes involved in a method according to an exemplary embodiment of the invention, and are not intended to be limiting. It will be readily appreciated that the processes shown in the above figures do not indicate or limit the temporal order of these processes. In addition, it is also readily understood that these processes may be performed synchronously or asynchronously, for example, among a plurality of modules.
Those skilled in the art will appreciate that the various aspects of the invention may be implemented as a system, method, or program product. Accordingly, aspects of the invention may be embodied in the following forms, namely: an entirely hardware embodiment, an entirely software embodiment (including firmware, micro-code, etc.) or an embodiment combining hardware and software aspects may be referred to herein as a "circuit," module "or" system.
A control device 800 according to this embodiment of the present invention is described below with reference to fig. 8. The control device 800 shown in fig. 8 is merely an example, and should not be construed as limiting the functionality and scope of use of the embodiments of the present invention.
The control device 800 is embodied in the form of a hardware module. The components of the control device 800 may include, but are not limited to: a receiving module 802, configured to configure a reference time based on a time synchronization signal sent by a server when the handheld mobile terminal is in a networking state; a determining module 804, configured to determine an offline time of the handheld mobile terminal in response to the acquired operation instruction when the handheld mobile terminal is in an offline state; the determining module 804 is further configured to: and determining the processing mode of the operation instruction based on the relation between the offline time and the reference time.
In one embodiment, further comprising: an interception module 806, configured to intercept the operation instruction when the offline time is detected to be earlier than or equal to the reference time; and an execution module 808, configured to execute the operation instruction when the offline time is detected to be later than the reference time.
In one embodiment, further comprising: the detecting module 810 is configured to detect whether a modification operation for the offline time is obtained from the offline time when the offline time is detected to be later than the reference time; the interception module 806 is further configured to: intercepting an operation instruction when detecting that a modification operation is acquired; the execution module 808 is further configured to: and executing the operation instruction when the modification operation is not detected to be not acquired.
In one embodiment, further comprising: an uploading module 812, configured to upload, to the server, an offline operation log generated in the offline state when the handheld mobile terminal resumes the networking state, so that the server detects whether the offline time is modified based on the offline operation log, and generates abnormal operation information of the handheld mobile terminal when the offline time is detected to be modified; the receiving module 802 is further configured to: and receiving operation abnormality information fed back by the server.
In one embodiment, further comprising: the generating module 814 is configured to generate interception hint information in response to an operation of the interception operation instruction.
In one embodiment, the generation module 814 is further to: responding to the interception prompt information, and generating a time recovery interface; the receiving module 802 is further configured to: receiving a time recovery operation based on the time recovery interface; further comprises: a calibration module 816, configured to perform a calibration operation on the offline time based on the reference time in response to the time recovery operation, so as to allow execution of the operation instruction when the calibration operation is completed.
In one embodiment, the receiving module 802 is further configured to: the handheld mobile terminal is in a networking state, and continuously receives a time synchronization signal sent by the server based on a preset synchronization period; and when the hand-held mobile equipment is detected to be switched from the networking state to the offline state, marking the time synchronization signal received last time as reference time.
An electronic device 900 according to such an embodiment of the invention is described below with reference to fig. 9. The electronic device 900 shown in fig. 9 is merely an example, and should not be construed as limiting the functionality and scope of use of embodiments of the present invention.
As shown in fig. 9, the electronic device 900 is embodied in the form of a general purpose computing device. Components of electronic device 900 may include, but are not limited to: the at least one processing unit 910, the at least one storage unit 920, and a bus 930 connecting the different system components (including the storage unit 920 and the processing unit 910).
Wherein the storage unit stores program code that is executable by the processing unit 910 such that the processing unit 910 performs steps according to various exemplary embodiments of the present invention described in the above-described "exemplary methods" section of the present specification. For example, the processing unit 910 may perform steps S202, S204, and S206 as shown in fig. 2, as well as other steps defined in the control method of the present disclosure.
The storage unit 920 may include readable media in the form of volatile storage units, such as Random Access Memory (RAM) 9201 and/or cache memory 9202, and may further include Read Only Memory (ROM) 9203.
The storage unit 920 may also include a program/utility 9204 having a set (at least one) of program modules 9205, such program modules 9205 include, but are not limited to: an operating system, one or more application programs, other program modules, and program data, each or some combination of which may include an implementation of a network environment.
The bus 930 may be one or more of several types of bus structures including a memory unit bus or memory unit controller, a peripheral bus, an accelerated graphics port, a processing unit, or a local bus using any of a variety of bus architectures.
Electronic device 900 may also communicate with one or more external devices 960 (e.g., keyboard, pointing device, bluetooth device, etc.), with one or more devices that enable a user to interact with the electronic device, and/or with any device (e.g., router, modem, etc.) that enables the electronic device 900 to communicate with one or more other computing devices. Such communication may occur through an input/output (I/O) interface 950. Also, electronic device 900 may communicate with one or more networks such as a Local Area Network (LAN), a Wide Area Network (WAN), and/or a public network, such as the Internet, through network adapter 950. As shown, the network adapter 950 communicates with other modules of the electronic device 900 via the bus 930. It should be appreciated that although not shown, other hardware and/or software modules may be used in connection with an electronic device, including but not limited to: microcode, device drivers, redundant processing units, external disk drive arrays, RAID systems, tape drives, data backup storage systems, and the like.
From the above description of embodiments, those skilled in the art will readily appreciate that the example embodiments described herein may be implemented in software, or may be implemented in software in combination with the necessary hardware. Thus, the technical solution according to the embodiments of the present disclosure may be embodied in the form of a software product, which may be stored in a non-volatile storage medium (may be a CD-ROM, a U-disk, a mobile hard disk, etc.) or on a network, including several instructions to cause a computing device (may be a personal computer, a server, a terminal device, or a network device, etc.) to perform the method according to the embodiments of the present disclosure.
In an exemplary embodiment of the present disclosure, a computer-readable storage medium having stored thereon a program product capable of implementing the method described above in the present specification is also provided. In some possible embodiments, the aspects of the invention may also be implemented in the form of a program product comprising program code for causing a terminal device to carry out the steps according to the various exemplary embodiments of the invention as described in the "exemplary method" section of this specification, when the program product is run on the terminal device.
A program product for implementing the above-described method according to an embodiment of the present invention may employ a portable compact disc read-only memory (CD-ROM) and include program code, and may be run on a terminal device, such as a personal computer. However, the program product of the present invention is not limited thereto, and in this document, a readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device.
The computer readable signal medium may include a data signal propagated in baseband or as part of a carrier wave with readable program code embodied therein. Such a propagated data signal may take any of a variety of forms, including, but not limited to, electro-magnetic, optical, or any suitable combination of the foregoing. A readable signal medium may also be any readable medium that is not a readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device.
Program code embodied on a readable medium may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.
Program code for carrying out operations of the present invention may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, C++ or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computing device, partly on the user's device, as a stand-alone software package, partly on the user's computing device, partly on a remote computing device, or entirely on the remote computing device or server. In the case of remote computing devices, the remote computing device may be connected to the user computing device through any kind of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or may be connected to an external computing device (e.g., connected via the Internet using an Internet service provider).
It should be noted that although in the above detailed description several modules or units of a device for action execution are mentioned, such a division is not mandatory. Indeed, the features and functionality of two or more modules or units described above may be embodied in one module or unit in accordance with embodiments of the present disclosure. Conversely, the features and functions of one module or unit described above may be further divided into a plurality of modules or units to be embodied.
Furthermore, although the steps of the methods in the present disclosure are depicted in a particular order in the drawings, this does not require or imply that the steps must be performed in that particular order, or that all illustrated steps be performed, to achieve desirable results. Additionally or alternatively, certain steps may be omitted, multiple steps combined into one step to perform, and/or one step decomposed into multiple steps to perform, etc.
From the above description of embodiments, those skilled in the art will readily appreciate that the example embodiments described herein may be implemented in software, or may be implemented in software in combination with the necessary hardware. Thus, the technical solution according to the embodiments of the present disclosure may be embodied in the form of a software product, which may be stored in a non-volatile storage medium (may be a CD-ROM, a U-disk, a mobile hard disk, etc.) or on a network, including several instructions to cause a computing device (may be a personal computer, a server, a mobile terminal, or a network device, etc.) to perform the method according to the embodiments of the present disclosure.
Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

Claims (8)

1. A control method of a handheld mobile terminal, comprising:
The handheld mobile terminal for logistics scanning operation is in a networking state, and the reference time is configured based on a time synchronization signal sent by the server;
the handheld mobile terminal is in an offline state, and the offline time of the handheld mobile terminal is determined in response to the acquired operation instruction;
Based on the relation between the offline time and the reference time, determining the processing mode of the operation instruction specifically comprises the following steps: intercepting the operation instruction when the offline time is detected to be earlier than or equal to the reference time, and generating interception prompt information in response to the operation of intercepting the operation instruction; executing the operation instruction when the offline time is detected to be later than the reference time, wherein the handheld mobile terminal is provided with a monitoring module which is used for monitoring whether the offline time is tampered or not in an offline state based on the touch screen operation of the handheld mobile terminal;
And responding to the interception prompt information, generating a time restoration interface, wherein the time restoration interface is configured with restoration authorities so as to receive input time restoration operation after verifying the user identity with the restoration authorities.
2. The control method according to claim 1, wherein the executing the operation instruction when the off-line time is detected to be later than the reference time, further comprises:
When the offline time is detected to be later than the reference time, detecting whether a modification operation on the offline time is acquired from the offline time;
Intercepting the operation instruction when the modification operation is detected and acquired;
and executing the operation instruction when the modification operation is not detected to be not acquired.
3. The control method according to claim 1, wherein executing the operation instruction when the off-line time is detected to be later than the reference time, further comprises:
Uploading an offline operation log generated in the offline state to the server when the handheld mobile terminal recovers the networking state, detecting whether the offline time is modified or not based on the offline operation log by the server, and generating operation abnormality information of the handheld mobile terminal when the offline time is detected to be modified; and
And receiving the operation abnormality information fed back by the server.
4. The control method according to claim 1, characterized by further comprising:
receiving a time recovery operation based on the time recovery interface;
and responding to the time recovery operation, and performing calibration operation on the offline time based on the reference time so as to allow the operation instruction to be executed when the calibration operation is completed.
5. The control method according to any one of claims 1 to 4, wherein the handheld mobile terminal is in a networking state, and the reference time is configured based on a time synchronization signal sent by a server, specifically comprising:
the handheld mobile terminal is in a networking state, and continuously receives a time synchronization signal sent by the server based on a preset synchronization period;
And when the hand-held mobile terminal is detected to be switched from the networking state to the offline state, marking the time synchronization signal received last time as the reference time.
6. A control apparatus, characterized by comprising:
the receiving module is used for configuring reference time based on a time synchronization signal sent by the server when the handheld mobile terminal for logistics scanning operation is in a networking state;
The determining module is used for determining the offline time of the handheld mobile terminal in response to the acquired operation instruction when the handheld mobile terminal is in an offline state;
The determining module is further configured to: based on the relation between the offline time and the reference time, determining the processing mode of the operation instruction specifically comprises the following steps: intercepting the operation instruction when the offline time is detected to be earlier than or equal to the reference time, and generating interception prompt information in response to the operation of intercepting the operation instruction; executing the operation instruction when the offline time is detected to be later than the reference time, wherein the handheld mobile terminal is provided with a monitoring module which is used for monitoring whether the offline time is tampered or not in an offline state based on the touch screen operation of the handheld mobile terminal;
And responding to the interception prompt information, generating a time restoration interface, wherein the time restoration interface is configured with restoration authorities so as to receive input time restoration operation after verifying the user identity with the restoration authorities.
7. An electronic device, comprising:
A processor; and
A memory for storing executable instructions of the processor;
wherein the processor is configured to execute the control method of any one of claims 1-5 via execution of the executable instructions.
8. A computer-readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the control method of any one of claims 1 to 5.
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