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CN110795149B - Terminal platform operation method, device, equipment and readable storage medium - Google Patents

Terminal platform operation method, device, equipment and readable storage medium Download PDF

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Publication number
CN110795149B
CN110795149B CN201910956198.3A CN201910956198A CN110795149B CN 110795149 B CN110795149 B CN 110795149B CN 201910956198 A CN201910956198 A CN 201910956198A CN 110795149 B CN110795149 B CN 110795149B
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China
Prior art keywords
preset
module
terminal platform
dam
equipment
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CN201910956198.3A
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CN110795149A (en
Inventor
袁荣江
谢碧清
夏杰
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Shenzhen Zhengtong Electronics Co Ltd
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Shenzhen Zhengtong Electronics Co Ltd
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Priority to CN201910956198.3A priority Critical patent/CN110795149B/en
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F8/00Arrangements for software engineering
    • G06F8/70Software maintenance or management
    • G06F8/76Adapting program code to run in a different environment; Porting
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F9/00Arrangements for program control, e.g. control units
    • G06F9/06Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
    • G06F9/44Arrangements for executing specific programs
    • G06F9/4401Bootstrapping
    • G06F9/4411Configuring for operating with peripheral devices; Loading of device drivers
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F9/00Arrangements for program control, e.g. control units
    • G06F9/06Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
    • G06F9/44Arrangements for executing specific programs
    • G06F9/445Program loading or initiating
    • G06F9/44505Configuring for program initiating, e.g. using registry, configuration files
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D10/00Energy efficient computing, e.g. low power processors, power management or thermal management

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  • Engineering & Computer Science (AREA)
  • Software Systems (AREA)
  • Theoretical Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Computer Security & Cryptography (AREA)
  • Telephonic Communication Services (AREA)

Abstract

The invention discloses a terminal platform operation method, a device, equipment and a readable storage medium, wherein the terminal platform operation method comprises the following steps: acquiring a preset first configuration file, loading the preset first configuration file through a preset Monitor process to start a preset starting and monitoring process, and determining a DAM module corresponding to the preset starting and monitoring process based on an operating system of the terminal platform to call a device to be accessed corresponding to the terminal platform. The technical problem that a terminal platform is difficult to be compatible and transplanted among different operating systems in the prior art is solved.

Description

Terminal platform operation method, device, equipment and readable storage medium
Technical Field
The present invention relates to the field of terminal technologies, and in particular, to a method, an apparatus, a device, and a readable storage medium for operating a terminal platform.
Background
With the increasing popularity of financial terminals, the financial terminals are in an increasingly important position in daily life of people, at present, the operating systems operated by the terminal platform are usually single operating systems, such as a Windows operating system, a Linux operating system, an Android operating system and the like, corresponding to the terminal platform in the financial terminals, and the existing terminal platform products have technical framework design limitations, and the terminal platform framework design is not fully considered with interface designs of the terminal platform, application programs and hardware drivers at first, that is, a unified and reproducible software interface is not formed, so that the terminal platform is difficult to be compatible and transplanted between different operating systems, and therefore, the technical problems of difficult compatibility and transplantation of the terminal platform between different operating systems exist in the prior art.
Disclosure of Invention
The invention mainly aims to provide a terminal platform running method, a device, equipment and a readable storage medium, and aims to solve the technical problem that a terminal platform is difficult to be compatible and transplanted among different operating systems in the prior art.
To achieve the above object, an embodiment of the present invention provides a terminal platform operation method, where the terminal platform operation method is applied to a terminal platform operation device, and the terminal platform operation method includes:
acquiring a preset first configuration file, and loading the preset first configuration file through a preset Monitor process to start a preset starting and monitoring process;
and determining the DAM module corresponding to the preset starting and monitoring process based on the operating system of the terminal platform so as to call the equipment to be accessed corresponding to the terminal platform.
Optionally, the operating system comprises a first operating system, the DAM module comprises a first DAM module based on the first operating system,
the step of determining, based on the operating system where the terminal platform is located, that the DAM module corresponding to the monitoring process is started in advance to call the device to be accessed corresponding to the terminal platform includes:
Determining that the preset starting and monitoring process corresponds to the first DAM module based on a first operating system where the terminal platform is located;
reading a preset second configuration file through a DAMService module in the first DAM module to load a preset DAM equipment management module and start a preset Websocket service program;
based on the preset Websocket service program, connecting the application on the terminal platform with the preset DAM equipment management module, and issuing an equipment calling instruction corresponding to the application according to a preset logic name;
determining a calling channel corresponding to the equipment calling instruction through the preset DAM equipment management module based on the preset second configuration file;
and calling a preset driving module through the calling channel so as to enable the equipment to be accessed to the terminal platform, and returning an equipment calling result to the application.
Optionally, the calling channel comprises a custom channel, the custom channel comprises a flow management dynamic library,
the step of calling a preset driving module through the calling channel to access the equipment to be accessed to the terminal platform comprises the following steps:
determining a custom standard interface module of the flow management dynamic library based on a command ID number in the equipment call instruction;
And calling a device access standard interface and a platform docking standard interface in the custom standard interface module, and docking the device access standard interface with the platform docking standard interface through a preset driving module so as to access the device to be accessed to the terminal platform.
Optionally, the step of determining the custom standard interface module of the flow management dynamic library based on the command ID number in the device call instruction includes:
acquiring command function parameters of the custom standard interface, and identifying the command function to acquire naming parameters corresponding to the command function;
and packaging the command function and the naming parameters to obtain the custom standard interface.
Optionally, the operating system includes a second operating system, the DAM module includes a second DAM module based on the second operating system,
the step of determining, based on the operating system where the terminal platform is located, that the DAM module corresponding to the monitoring process is started in advance to call the device to be accessed corresponding to the terminal platform includes:
determining the second DAM module corresponding to the preset starting and monitoring process based on a second operating system where the terminal platform is located;
Reading a preset second configuration file through a DAMService module in the second DAM module, loading a preset DAM equipment management module and starting a preset Websocket service program;
based on the preset Websocket service program, connecting the application on the terminal platform with the preset DAM equipment management module, and issuing an equipment calling instruction corresponding to the application according to a preset logic name;
the device calling instruction is sent to a preset network access manager module through the preset DAM device management module, so that the device calling instruction is sent to a preset manufacturer service module through the preset network access manager module;
and calling a preset driving module through the preset manufacturer service module based on the equipment calling instruction so as to enable the equipment to be accessed corresponding to the equipment calling instruction to be accessed to the terminal platform, and returning an equipment calling result to the application.
Optionally, the starting and monitoring process comprises a Browser module and a damspardevice module,
the step of obtaining the preset first configuration file and loading the preset first configuration file through a preset Monitor process to start a preset starting and monitoring process comprises the following steps:
Reading a preset second configuration file through the DAMService module, loading the preset configuration library, and starting a preset Websocket service;
reading a preset third configuration file through the Browser module, loading the preset application home page, and starting network state detection of a terminal server corresponding to the terminal platform;
when the network state detection is passed, establishing Websocket connection corresponding to the preset Websocket service of the Browser module and the DAMService module;
and after the Websocket is successfully connected, detecting each hardware module in the preset configuration library through the Browser module.
Optionally, the start and monitor process includes a TMSCient module,
after the Websocket is successfully connected, the step of detecting each hardware module in the preset configuration library through the preset Browser module includes:
reading a preset fourth configuration file through the TMSCient module, and connecting the preset TMS server;
and monitoring the state information of each device connected with the terminal platform through the TMSCient module, and uploading the state information to the TMS server at fixed time.
The invention also provides a terminal platform operation device, which is applied to terminal platform operation equipment and comprises:
The starting module is used for acquiring a preset first configuration file, and loading the preset first configuration file through a preset Monitor process so as to start a preset starting and monitoring process;
and the calling module is used for determining the DAM module corresponding to the preset starting and monitoring process based on the operating system where the terminal platform is located so as to call the equipment to be accessed corresponding to the terminal platform.
Optionally, the calling module includes:
the first determining unit is used for determining that the preset starting and monitoring process corresponds to the first DAM module based on a first operating system where the terminal platform is located;
the first loading unit is used for reading a preset second configuration file through a DAMService module in the first DAM module so as to load a preset DAM equipment management module and start a preset Websocket service program;
the first issuing unit is used for connecting the application on the terminal platform with the preset DAM equipment management module based on the preset Websocket service program and issuing an equipment calling instruction corresponding to the application according to a preset logic name;
the first calling unit is used for determining a calling channel corresponding to the equipment calling instruction through the preset DAM equipment management module based on the preset second configuration file;
And the second calling unit is used for calling a preset driving module through the calling channel so as to enable the equipment to be accessed to the terminal platform and returning an equipment calling result to the application.
Optionally, the second calling unit includes:
a calling subunit, configured to determine a custom standard interface module of the flow management dynamic library based on a command ID number in the device calling instruction;
and the access subunit is used for calling the equipment access standard interface and the platform butt-joint standard interface in the custom standard interface module, and carrying out butt-joint on the equipment access standard interface and the platform butt-joint standard interface through a preset driving module so as to access the equipment to be accessed into the terminal platform.
Optionally, the second calling unit further includes:
the identification subunit acquires command function parameters of the custom standard interface, identifies the command function and acquires naming parameters corresponding to the command function;
and the packaging subunit is used for packaging the command function and the naming parameter to obtain the custom standard interface.
Optionally, the calling module includes:
The second determining unit is used for determining the second DAM module corresponding to the preset starting and monitoring process based on a second operating system where the terminal platform is located;
the second loading unit is used for reading a preset second configuration file through a DAMService module in the second DAM module so as to load a preset DAM equipment management module and start a preset Websocket service program;
the second issuing unit is used for connecting the application on the terminal platform with the preset DAM device management module based on the preset Websocket service program and issuing a device calling instruction corresponding to the application according to a preset logic name;
the sending unit is used for sending the equipment calling instruction to a preset network access manager module through the preset DAM equipment management module so as to send the equipment calling instruction to a preset manufacturer service module through the preset network access manager module;
and the third calling module is used for calling a preset driving module through the preset manufacturer service module based on the equipment calling instruction so as to enable the equipment to be accessed corresponding to the equipment calling instruction to be accessed to the terminal platform, and returning an equipment calling result to the application.
Optionally, the terminal platform running device includes:
the first loading module is used for reading a preset second configuration file through the DAMService module, loading the preset configuration library and starting a preset Websocket service;
the second loading module is used for reading a preset third configuration file through the Browser module, loading the preset application home page and starting network state detection of a terminal server corresponding to the terminal platform;
a first connection module, configured to establish Websocket connection corresponding to the preset Websocket service of the Browser module and the DAMService module after the network state detection passes;
and the detection module is used for detecting each hardware module in the preset configuration library through the Browser module after the Websocket is successfully connected.
Optionally, the terminal platform running device includes:
the second connection module is used for reading a preset fourth configuration file through the TMSCient module and connecting a preset TMS server;
and the monitoring module is used for monitoring the state information of each device connected with the terminal platform through the TMSCient module and uploading the state information to the TMS server at regular time.
The invention also provides a terminal platform operation device, which comprises: the terminal platform operation method comprises a memory, a processor and a program of the terminal platform operation method, wherein the program of the terminal platform operation method is stored in the memory and can be operated on the processor, and the program of the terminal platform operation method can realize the steps of the terminal platform operation method when being executed by the processor.
The present invention also provides a readable storage medium, on which a program for implementing a terminal platform operation method is stored, the program for implementing the steps of the terminal platform operation method as described above when being executed by a processor.
The method comprises the steps of firstly obtaining a preset first configuration file, loading the preset first configuration file through a preset Monitor process to start a preset starting and monitoring process, and further determining a DAM module corresponding to the preset starting and monitoring process based on an operating system of the terminal platform to call to-be-accessed equipment corresponding to the terminal platform. That is, the method includes the steps of firstly obtaining a preset first configuration file, loading the preset first configuration file through a preset Monitor process, starting a preset starting and monitoring process corresponding to a preset starting and monitoring process, and then determining a DAM module based on an operating system where the terminal platform is located so as to call equipment to be accessed corresponding to the terminal platform. That is, after the preset starting and monitoring process is started, the corresponding DAM module can be determined based on the operating system where the terminal platform is located, and then the device access of different operating systems is realized through the DAM module, so that the terminal platform can operate in different operating systems, and the technical problem that the terminal platform is difficult to be compatible and transplanted between different operating systems in the prior art is solved.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.
In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to a person skilled in the art that other drawings can be obtained from these drawings without inventive effort.
FIG. 1 is a flowchart of a first embodiment of a method for operating a terminal platform according to the present invention;
FIG. 2 is a flowchart of a second embodiment of the terminal platform operation method of the present invention;
FIG. 3 is a flowchart of a third embodiment of the terminal platform operation method of the present invention;
FIG. 4 is a schematic diagram of a device architecture of a hardware operating environment involved in a method according to an embodiment of the present invention.
The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.
Detailed Description
It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.
The invention provides a terminal platform operation method, which is applied to terminal platform operation equipment, and in a first embodiment of the terminal platform operation method, referring to fig. 1, the terminal platform operation method comprises the following steps:
step S10, a preset first configuration file is obtained, and the preset first configuration file is loaded through a preset Monitor process so as to start a preset starting and monitoring process;
in this embodiment, it should be noted that, the preset Monitor process is a daemon of a platform application corresponding to the terminal platform running method, when the platform application fails to start, the daemon may be used for normal running of the daemon, the preset first configuration file includes a set of settings and files of the environment required for the preset start and Monitor process to start and run, for example, program items, execution window hiding or displaying, start program delay setting, file deletion format setting, deletion period setting, etc., where the preset start and Monitor process includes a Browser module, a tms client module, a damser module, a transmission channel module, etc., where the Browser module is used for loading a platform application page, the tms client module is used for monitoring a state of a device connected to the terminal platform, and the damser module, the tms client module, and the msser module need to register on the transmission channel module so as to facilitate communication between the modules, that is, the transmission channel module is used for communication between the modules.
Acquiring a preset first configuration file, loading the preset first configuration file through a preset Monitor process to start a preset starting and monitoring process, specifically, starting the preset Monitor process, extracting the preset first configuration file from a database of the terminal platform, further reading the preset first configuration file in the preset Monitor process to obtain environment settings and file sets required by starting and running the preset starting and monitoring process, and finally starting the preset starting and monitoring process.
Step S20, determining the DAM module corresponding to the preset starting and monitoring process based on the operating system of the terminal platform so as to call the equipment to be accessed corresponding to the terminal platform.
In this embodiment, it should be noted that, the operating system includes an Android operating system, a Windows operating system, a Linux operating system, and the like, the DAM module includes a DAM module based on the Android operating system, a DAM module based on the Windows operating system, and a DAM module based on the Linux operating system, and the device to be accessed includes devices such as a card reader, a card issuer, a card swiping device, and a printer.
And determining the DAM module corresponding to the preset starting and monitoring process based on the operating system of the terminal platform so as to call the equipment to be accessed corresponding to the terminal platform, specifically, determining the DAM module based on the operating system of the terminal platform, further loading a preset DAM equipment management module according to the DAMService module in the preset starting and monitoring process, and establishing communication with the equipment to be accessed through the equipment management module, namely calling the equipment to be accessed corresponding to the terminal platform.
Wherein the operating system comprises a second operating system, the DAM module comprises a second DAM module based on the second operating system,
the step of determining, based on the operating system where the terminal platform is located, that the DAM module corresponding to the monitoring process is started in advance to call the device to be accessed corresponding to the terminal platform includes:
step S21, determining the second DAM module corresponding to the preset starting and monitoring process based on a second operating system where the terminal platform is located;
in this embodiment, it should be noted that, the second operating system includes an Android operating system, the second DAM module includes a DAM module based on the Android operating system, the second DAM module corresponding to the preset starting and monitoring process is determined based on the second operating system where the terminal platform is located, specifically, the operating system where the terminal platform is located is detected to be the second operating system by the preset detector, and further, the second DAM module corresponding to the preset starting and monitoring process is selected in the terminal platform.
Step S22, reading a preset second configuration file through a DAMService module in the second DAM module, loading a preset DAM equipment management module and starting a preset Websocket service program;
In this embodiment, it should be noted that, the DAMService module may read a preset second configuration file, load a module library, a plug-in library, and the like, and the preset Websocket service program may be used to establish Websocket connection, where the Websocket is a two-way communication protocol, and is mainly characterized in that the terminal platform server is allowed to send information to the client.
Reading a preset second configuration file through a DAMService module in the second DAM module, loading a preset DAM equipment management module and starting a preset Websocket service program, specifically, reading the preset second configuration file through the DAMService module in the second DAM module, loading environment settings and file sets required by starting and running the preset DAM equipment management module, and starting the preset DAM equipment management module, and further starting the preset Websocket service program.
Step S23, based on the preset Websocket service program, connecting the application on the terminal platform with the preset DAM equipment management module, and issuing an equipment calling instruction corresponding to the application according to a preset logic name;
in this embodiment, it should be noted that, the application is located at a client, the preset DAM device management module is located at a server, and the preset logical name is an identifier of the device call instruction, that is, a system corresponding to the terminal platform may identify the preset logical name, further determine a device call instruction corresponding to the preset logical name, where information in the device call instruction includes an address and a type of a device to be accessed, a called device function, and the like.
And connecting the application on the terminal platform with the preset DAM device management module based on the preset Websocket service program, issuing a device call instruction corresponding to the application according to a preset logic name, specifically, establishing Websocket connection between the application of the client and the preset DAM device management module of the server based on the preset Websocket service program, determining the device call instruction corresponding to the preset logic name based on the preset logic name, and further issuing the device call instruction.
Step S24, the device calling instruction is sent to a preset network access manager module through the preset DAM device management module, so that the device calling instruction is sent to a preset manufacturer service module through the preset network access manager module;
in this embodiment, the preset network access manager module is located at a server end of the terminal platform.
The device calling instruction is sent to a preset network access manager module through the preset DAM device management module, so that the device calling instruction is sent to a preset manufacturer service module through the preset network access manager module, specifically, the preset DAM device management module sends the device calling instruction to the preset network access manager module through a transmission channel in the transmission channel module, further, the preset network access manager module converts the device calling instruction into network data message form information, wherein the network data message refers to a data unit exchanged and transmitted in a network, the network data message comprises information such as information of a sender, an IP address and the like, the network data message can be used for encrypting and sending the device calling instruction, and further, the network data message corresponding to the device calling instruction is sent to the preset manufacturer service module through the preset network access manager module, wherein the manufacturer service module is located at a service end.
Step S26, based on the device calling instruction, calling a preset driving module through the preset manufacturer service module so as to enable the device to be accessed corresponding to the device calling instruction to be accessed to the terminal platform, and returning a device calling result to the application.
In this embodiment, the vendor service module needs to parse the network data packet to obtain the device call instruction.
Based on the device calling instruction, a preset driving module is called through the preset manufacturer service module to enable the device to be accessed corresponding to the device calling instruction to be accessed to the terminal platform, and a device calling result is returned to the application, specifically, the manufacturer service module analyzes the network data message to obtain the device calling instruction, according to the device information and the device function information corresponding to the device calling instruction, a device access interface of the device to be accessed is called to be in butt joint with the terminal platform interface, communication between the terminal platform and the device to be accessed is established, namely, the device to be accessed corresponding to the device calling instruction is accessed to the terminal platform, further, the device calling result is returned from the manufacturer service module to the client corresponding to the application, specifically, the manufacturer service module sends the device calling result to the network access module in a network data message mode, the network access module returns the device calling result to a preset M device management module in a callback mode, and the preset DAM device management module returns the application calling result to the client corresponding to the application platform through the Websot.
In this embodiment, a preset first configuration file is first obtained, and the preset first configuration file is loaded through a preset Monitor process to start a preset starting and monitoring process, so that a DAM module corresponding to the preset starting and monitoring process is determined based on an operating system where the terminal platform is located, and a device to be accessed corresponding to the terminal platform is called. That is, in this embodiment, the obtaining of the preset first configuration file is first performed, and then the preset first configuration file is loaded through the preset Monitor process, the preset starting corresponding to the preset starting and monitoring process is performed, and then the determination of the DAM module is performed based on the operating system where the terminal platform is located, so as to invoke the device to be accessed corresponding to the terminal platform. That is, after the preset starting and monitoring process is started, the corresponding DAM module can be determined based on the operating system where the terminal platform is located, and then the device access in different operating systems is realized through the DAM module, so that the terminal platform can operate in different operating systems, and the technical problem that the terminal platform is difficult to be compatible and transplanted between different operating systems in the prior art is solved.
Further, referring to fig. 2, in another embodiment of the terminal platform operation method according to the first embodiment of the present application, the operating system includes a first operating system, the DAM module includes a first DAM module based on the first operating system,
the step of determining, based on the operating system where the terminal platform is located, that the DAM module corresponding to the monitoring process is started in advance to call the device to be accessed corresponding to the terminal platform includes:
step A10, determining that the preset starting and monitoring process corresponds to the first DAM module based on a first operating system where the terminal platform is located;
in this embodiment, it should be noted that, the first operating system includes a Windows operating system and a Linux operating system, the first DAM module includes a DAM module based on the Windows operating system and a DAM module based on the Linux operating system,
and determining the first DAM module corresponding to the preset starting and monitoring process based on a first operating system of the terminal platform, specifically, detecting the operating system of the terminal platform as the first operating system through a preset detector, and further selecting the first DAM module corresponding to the preset starting and monitoring process in the terminal platform.
Step A20, reading a preset second configuration file through a DAMService module in the first DAM module to load a preset DAM equipment management module and start a preset Websocket service program;
in this embodiment, it should be noted that, the DAMService module may read a preset second configuration file, load a module library, a plug-in library, and the like, and the preset Websocket service program may be used to establish Websocket connection, where the Websocket is a two-way communication protocol, and is mainly characterized in that the terminal platform server is allowed to send information to the client.
Reading a preset second configuration file through a DAMService module in the first DAM module, loading the preset DAM equipment management module and starting a preset Websocket service program, specifically, reading the preset second configuration file through the DAMService module in the first DAM module, loading environment settings and file sets required by starting and running the preset DAM equipment management module, and starting the preset DAM equipment management module, and further starting the preset Websocket service program.
Step A30, based on the preset Websocket service program, connecting the application on the terminal platform with the preset DAM equipment management module, and issuing an equipment calling instruction corresponding to the application according to a preset logic name;
In this embodiment, it should be noted that, the application is located at a client, the preset DAM device management module is located at a server, and the preset logical name is an identifier of the device call instruction, that is, a system corresponding to the terminal platform may identify the preset logical name, further determine a device call instruction corresponding to the preset logical name, where information in the device call instruction includes an address and a type of a device to be accessed, a called device function, and the like.
And connecting the application on the terminal platform with the preset DAM device management module based on the preset Websocket service program, issuing a device call instruction corresponding to the application according to a preset logic name, specifically, establishing Websocket connection between the application of the client and the preset DAM device management module of the server based on the preset Websocket service program, determining the device call instruction corresponding to the preset logic name based on the preset logic name, and further issuing the device call instruction.
Step A40, determining a calling channel corresponding to the device calling instruction through the preset DAM device management module based on the preset second configuration file;
In this embodiment, it should be noted that, the preset second configuration file includes a call channel corresponding to the device call instruction, where in the first DAM module, if the first operating system is a Windows operating system, the call channel includes a custom channel and a WOSA channel, and if the operating system is a Linux operating system, the call channel includes a custom channel and an LFS channel.
And determining a calling channel corresponding to the equipment calling instruction through the preset DAM equipment management module based on the preset second configuration file, specifically, receiving the channel type information through the preset DAM equipment management module based on the equipment calling channel type information in the preset second configuration file, further, determining the calling channel corresponding to the equipment instruction, and issuing the equipment calling instruction to the calling channel.
And step A50, calling a preset driving module through the calling channel so as to enable the equipment to be accessed to the terminal platform, and returning an equipment calling result to the application.
In this embodiment, it should be noted that the preset driving module refers to a module for establishing communication between a device to be accessed and a terminal platform, the custom channel includes a flow management dynamic library, the WOSA channel includes a WOSA platform, and the LFS channel includes an LFS platform.
And calling a preset driving module through the calling channel to enable the equipment to be accessed to the terminal platform, and returning an equipment calling result to the application, wherein if the calling channel is a custom channel, specifically, the custom channel comprises custom standard interfaces of various equipment to be accessed, the corresponding custom standard interfaces in the equipment to be accessed are obtained based on the equipment to be accessed corresponding to the equipment calling instruction, and interface butt joint is carried out on the terminal platform and the equipment to be accessed through the preset driving module based on the custom standard interfaces, namely, communication between the equipment to be accessed and the terminal platform is established, and the equipment to be accessed is accessed to the terminal platform.
If the calling channel is a WOSA channel or an LFS channel, and the WOSA platform or the LFS platform includes an API layer, an SPI layer and a managaer layer, firstly, calling an API interface corresponding to the terminal platform through the API layer, and then, the managaer layer determines an SPI interface of a device to be accessed corresponding to the API interface by receiving configuration information, where a correspondence between the API interface and the SPI interface is defined in the configuration information, and further, interfacing the API interface and the SPI interface through a driving module, that is, establishing communication between the device to be accessed and the terminal platform, and accessing the device to be accessed to the terminal platform.
Further, the device calling result is returned from the calling channel to the client corresponding to the application, specifically, the calling channel returns the device calling result to a preset DAM device management module in a callback mode, and the preset DAM device management module returns the device calling result to the application of the client through Websocket.
Wherein, in step A50, the calling channel comprises a custom channel, the custom channel comprises a flow management dynamic library,
the step of calling a preset driving module through the calling channel to access the equipment to be accessed to the terminal platform comprises the following steps:
step A51, determining a custom standard interface module of the flow management dynamic library based on a command ID number in the device call instruction;
in this embodiment, it should be noted that the command ID number refers to a character string for identifying the custom standard interface module, and each command ID number corresponds to a custom standard interface module.
And step A52, calling a device access standard interface and a platform docking standard interface in the custom standard interface module, and docking the device access standard interface with the platform docking standard interface through a preset driving module so as to access the device to be accessed to the terminal platform.
In this embodiment, it should be noted that the custom standard interface module includes a custom standard interface, and the custom standard interface is a standardized and unified interface, where the custom standard interface includes an open device interface, an execute command interface, a cancel operation interface, a close device interface, and the like, and all the open device interfaces, execute command interfaces, cancel operation interfaces, close device interfaces, and the like, which correspond to the devices to be accessed are the same, and the custom standard interface includes a platform docking standard interface provided by a platform server and a device access standard interface provided by a vendor server.
And calling a device access standard interface and a platform interfacing standard interface in the custom standard interface module, interfacing the device access standard interface with the platform interfacing standard interface through a preset driving module to enable the device to be accessed to the terminal platform, specifically, calling the device access standard interface and the platform interfacing standard interface in the custom standard interface module, interfacing the device access standard interface with the platform interfacing standard interface through the driving module, and establishing communication between the terminal platform and the device to be accessed, namely, enabling the device to be accessed to the terminal platform.
The step of determining the custom standard interface module of the flow management dynamic library based on the command ID number in the device call instruction comprises the following steps:
step B10, obtaining command function parameters of the custom standard interface, and identifying the command function to obtain naming parameters corresponding to the command function;
obtaining command function parameters of the custom standard interface, identifying the command function parameters, and obtaining naming parameters corresponding to the command function, wherein the command function parameters comprise an inlet parameter, an outlet parameter, a return value and the like, specifically, obtaining the inlet parameter, the outlet parameter and the return value corresponding to the command function parameters of the custom standard interface, namely, defining the inlet parameter, the outlet parameter and the return value, further, identifying the command function parameters, namely, naming the command function parameters, obtaining naming parameters corresponding to the command function and a command ID number, wherein the command ID number is used for identifying the custom standard interface.
And step B20, packaging the command function and the naming parameter to obtain the custom standard interface.
In this embodiment, the command function and the naming parameter are encapsulated to obtain the custom standard interface, and specifically, the command function and the naming parameter are input into a preset encapsulation template to obtain an encapsulation module corresponding to the encapsulation template, that is, to obtain the custom standard interface.
The embodiment determines that the preset starting and monitoring process corresponds to the first DAM module based on a first operating system where the terminal platform is located, further reads a preset second configuration file through a DAM device module in the first DAM module to load a preset DAM device management module and start a preset Websocket service program, further connects an application on the terminal platform with the preset DAM device management module based on the preset Websocket service program, issues a device call instruction corresponding to the application according to a preset logical name, then determines a call channel corresponding to the device call instruction through the preset DAM device management module based on the preset second configuration file, and finally calls a preset driving module through the call channel to enable the device to be accessed to the terminal platform and return a device call result to the application. That is, in this embodiment, a first DAM module based on a Windows operating system is first determined, and then a preset DAM device management module is started through a DAM device module, and the preset DAM device management module is connected with the application, further, a device calling instruction is issued through the preset DAM device management module, and a calling channel corresponding to the device calling instruction is determined based on the second configuration file, and finally, a preset driving module is called based on the calling channel, and the device to be accessed corresponding to the device calling instruction is accessed to the terminal platform. That is, the present embodiment provides a DAM module based on a Windows operating system, which can stably run in the Windows operating system, and lays a foundation for solving the technical problem that in the prior art, a terminal platform is difficult to be compatible and transplanted between different operating systems.
Further, referring to fig. 3, in another embodiment of the terminal platform operation method according to the first embodiment and the second embodiment of the present application, the starting and monitoring process includes a Browser module and a damspardevice module,
the step of obtaining the preset first configuration file and loading the preset first configuration file through a preset Monitor process to start a preset starting and monitoring process comprises the following steps:
step S30, reading a preset second configuration file through the DAMService module, loading the preset configuration library, and starting a preset Websocket service;
in this embodiment, it should be noted that, the configuration library includes a module library, a plug-in library, a service library, and the like, the preset second configuration file is read by the DAMService module, the preset configuration library is loaded, and the preset Websocket service is started, specifically, the preset second configuration file is read by the DAMService module, and the configuration library and the environment settings and the file set required by the preset Websocket service are loaded, so as to load the preset configuration library, and the preset Websocket service is started.
Step S40, reading a preset third configuration file through the Browser module, loading the preset application home page, and starting network state detection of a terminal server corresponding to the terminal platform;
In this embodiment, the Browser module reads a preset third configuration file, loads the preset application home page, and starts network state detection of a terminal server corresponding to the terminal platform, specifically, the Browser module reads the preset third configuration file, loads the preset application home page and environment settings and file sets required by the network state detection, loads the preset application home page, and starts network state detection of the terminal server corresponding to the terminal platform.
Step S50, after the network state detection is passed, establishing a Websocket connection corresponding to the preset Websocket service of the Browser module and the DAMService module;
in this embodiment, after the network state detection is passed, a Websocket connection corresponding to the preset Websocket service of the Browser module and the DAMService module is established, and specifically, after the network state detection is passed, a bidirectional communication connection between a platform server corresponding to the DAMService module and an application client corresponding to the Browser module is established, that is, a Websocket connection corresponding to the preset Websocket service of the Browser module and the DAMService module is established.
And step S60, detecting each hardware module in the preset configuration library through the Browser module after the Websocket is successfully connected.
In this embodiment, after the Websocket connection is successful, each hardware module in the preset configuration library is detected by the Browser module, specifically, after the Websocket connection is successful, each hardware module in the preset configuration library is detected by the Browser module, if no fault is detected, a user operation is waited, and if a fault is detected, an error code is returned.
Step S70, reading a preset fourth configuration file through the TMSCient module, and connecting a preset TMS server;
in this embodiment, the TMS server is connected to the preset fourth configuration file through the TMS client module, specifically, the TMS client module reads the preset fourth configuration file, loads the environment setting and the file set required for connecting the preset TMS server to connect the preset TMS server, where the TMS client module is located at the client, and the TMS server is located at the background management server, that is, connects the platform server and the background management server.
And step S80, monitoring the state information of each device connected with the terminal platform through the TMSCient module, and uploading the state information to the TMS server at fixed time.
In this embodiment, the TMS client module monitors status information of each device connected to the terminal platform, and uploads the status information to the TMS server at regular time, specifically, monitors status information of each device connected to the terminal platform, and sends the status information to the TMS server once every other preset time period, where the status information includes information that the device is in a busy state, the device is in an idle state, the device is in an unavailable state, and the like, and the preset time period can be set by a user or a default time period of the system is used.
In this embodiment, the preset second configuration file is read through the DAMService module, the preset configuration library is loaded, a preset Websocket service is started, further, a preset third configuration file is read through the Browser module, the preset application home page is loaded, network state detection of a terminal server corresponding to the terminal platform is started, further, when the network state detection is passed, websocket connection corresponding to the preset Websocket service of the DAMService module and the Browser module is established, and when the Websocket connection is successful, detection is performed on each hardware module in the preset configuration library through the Browser module. That is, in this embodiment, the preset second configuration file is read by the damspardevice module, loading of the preset configuration library is performed, and further, the preset third configuration file is read by the Browser module, loading of the preset application home page and detection of the network state are performed, further, websocket connection is performed between the Browser module and the damspardevice module, and finally, each hardware module in the preset configuration library is detected. That is, before the user operates the terminal platform, the configuration libraries and the application home page of the terminal platform are loaded, the network state and the hardware module are self-checked, a foundation is laid for the stable operation of the terminal platform, and a foundation is laid for solving the technical problem that the terminal platform is difficult to be compatible and transplanted among different operating systems in the prior art.
Referring to fig. 4, fig. 4 is a schematic device structure diagram of a hardware running environment according to an embodiment of the present invention.
As shown in fig. 4, the terminal platform operation device may include: a processor 1001, such as a CPU, memory 1005, and a communication bus 1002. Wherein a communication bus 1002 is used to enable connected communication between the processor 1001 and a memory 1005. The memory 1005 may be a high-speed RAM memory or a stable memory (non-volatile memory), such as a disk memory. The memory 1005 may also optionally be a storage device separate from the processor 1001 described above.
Optionally, the terminal platform operation device may further include a rectangular user interface, a network interface, a camera, an RF (Radio Frequency) circuit, a sensor, an audio circuit, a WiFi module, and the like. The rectangular user interface may include a Display screen (Display), an input sub-module such as a Keyboard (Keyboard), and the optional rectangular user interface may also include a standard wired interface, a wireless interface. The network interface may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface).
Those skilled in the art will appreciate that the end platform operating device structure shown in fig. 4 is not limiting of the end platform operating device and may include more or fewer components than shown, or may combine certain components, or a different arrangement of components.
As shown in fig. 4, an operating system, a network communication module, and a terminal platform operating program may be included in the memory 1005, which is a type of computer storage medium. The operating system is a program that manages and controls the terminal platform to run the hardware and software resources of the device, supporting the terminal platform to run the program and other software and/or program operations. The network communication module is used to implement communication between components within the memory 1005 and other hardware and software in the terminal platform operating system.
In the terminal platform operation device shown in fig. 4, the processor 1001 is configured to execute a terminal platform operation program stored in the memory 1005, to implement the steps of the terminal platform operation method described in any one of the above.
The specific implementation manner of the terminal platform operation device of the present invention is basically the same as that of each embodiment of the terminal platform operation method, and will not be described herein.
The invention also provides a terminal platform operation device, which comprises:
the starting module is used for acquiring a preset first configuration file, and loading the preset first configuration file through a preset Monitor process so as to start a preset starting and monitoring process;
And the calling module is used for determining the DAM module corresponding to the preset starting and monitoring process based on the operating system where the terminal platform is located so as to call the equipment to be accessed corresponding to the terminal platform.
Optionally, the calling module includes:
the first determining unit is used for determining that the preset starting and monitoring process corresponds to the first DAM module based on a first operating system where the terminal platform is located;
the first loading unit is used for reading a preset second configuration file through a DAMService module in the first DAM module so as to load a preset DAM equipment management module and start a preset Websocket service program;
the first issuing unit is used for connecting the application on the terminal platform with the preset DAM equipment management module based on the preset Websocket service program and issuing an equipment calling instruction corresponding to the application according to a preset logic name;
the first calling unit is used for determining a calling channel corresponding to the equipment calling instruction through the preset DAM equipment management module based on the preset second configuration file;
and the second calling unit is used for calling a preset driving module through the calling channel so as to enable the equipment to be accessed to the terminal platform and returning an equipment calling result to the application.
Optionally, the second calling unit includes:
a calling subunit, configured to determine a custom standard interface module of the flow management dynamic library based on a command ID number in the device calling instruction;
and the access subunit is used for calling the equipment access standard interface and the platform butt-joint standard interface in the custom standard interface module, and carrying out butt-joint on the equipment access standard interface and the platform butt-joint standard interface through a preset driving module so as to access the equipment to be accessed into the terminal platform.
Optionally, the second calling unit further includes:
the identification subunit acquires command function parameters of the custom standard interface, identifies the command function and acquires naming parameters corresponding to the command function;
and the packaging subunit is used for packaging the command function and the naming parameter to obtain the custom standard interface.
Optionally, the calling module includes:
the second determining unit is used for determining the second DAM module corresponding to the preset starting and monitoring process based on a second operating system where the terminal platform is located;
the second loading unit is used for reading a preset second configuration file through a DAMService module in the second DAM module so as to load a preset DAM equipment management module and start a preset Websocket service program;
The second issuing unit is used for connecting the application on the terminal platform with the preset DAM device management module based on the preset Websocket service program and issuing a device calling instruction corresponding to the application according to a preset logic name;
the sending unit is used for sending the equipment calling instruction to a preset network access manager module through the preset DAM equipment management module so as to send the equipment calling instruction to a preset manufacturer service module through the preset network access manager module;
and the third calling module is used for calling a preset driving module through the preset manufacturer service module based on the equipment calling instruction so as to enable the equipment to be accessed corresponding to the equipment calling instruction to be accessed to the terminal platform, and returning an equipment calling result to the application.
Optionally, the terminal platform running device includes:
the first loading module is used for reading a preset second configuration file through the DAMService module, loading the preset configuration library and starting a preset Websocket service;
the second loading module is used for reading a preset third configuration file through the Browser module, loading the preset application home page and starting network state detection of a terminal server corresponding to the terminal platform;
A first connection module, configured to establish Websocket connection corresponding to the preset Websocket service of the Browser module and the DAMService module after the network state detection passes;
and the detection module is used for detecting each hardware module in the preset configuration library through the Browser module after the Websocket is successfully connected.
Optionally, the terminal platform running device includes:
the second connection module is used for reading a preset fourth configuration file through the TMSCient module and connecting a preset TMS server;
and the monitoring module is used for monitoring the state information of each device connected with the terminal platform through the TMSCient module, and uploading the state information at regular time by the TMS server.
The specific implementation manner of the terminal platform operation device of the present invention is basically the same as that of each embodiment of the terminal platform operation method, and will not be repeated here.
The present invention provides a readable storage medium storing one or more programs executable by one or more processors for implementing the steps of the terminal platform operation method of any one of the above.
The specific implementation manner of the readable storage medium of the present invention is basically the same as the above embodiments of the terminal platform operation method, and will not be repeated here.
The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein, or any application, directly or indirectly, within the scope of the invention.

Claims (8)

1. The terminal platform operation method is characterized by comprising the following steps of:
acquiring a preset first configuration file, and loading the preset first configuration file through a preset Monitor process to start a preset starting and monitoring process;
determining a DAM module corresponding to the preset starting and monitoring process based on an operating system where the terminal platform is located;
reading a preset second configuration file through the DAM module to call the equipment to be accessed corresponding to the terminal platform, wherein the operating system comprises a first operating system and a second operating system, the DAM module comprises a first DAM module based on the first operating system and a second DAM module based on the second operating system, and the step of reading the preset second configuration file through the DAM module to call the equipment to be accessed corresponding to the terminal platform comprises the following steps:
Reading a preset second configuration file through a DAMService module in the first DAM module to load a preset DAM equipment management module and start a preset Websocket service program; based on the preset Websocket service program, connecting the application on the terminal platform with the preset DAM equipment management module, and issuing an equipment calling instruction corresponding to the application according to a preset logic name; determining a calling channel corresponding to the equipment calling instruction through the preset DAM equipment management module based on the preset second configuration file; calling a preset driving module through the calling channel to enable the equipment to be accessed to the terminal platform, and returning an equipment calling result to the application; or (b)
Reading a preset second configuration file through a DAMService module in the second DAM module to load a preset DAM equipment management module and start a preset Websocket service program; based on the preset Websocket service program, connecting the application on the terminal platform with the preset DAM equipment management module, and issuing an equipment calling instruction corresponding to the application according to a preset logic name; the device calling instruction is sent to a preset network access manager module through the preset DAM device management module, so that the device calling instruction is sent to a preset manufacturer service module through the preset network access manager module; and calling a preset driving module through the preset manufacturer service module based on the equipment calling instruction so as to enable the equipment to be accessed corresponding to the equipment calling instruction to be accessed to the terminal platform, and returning an equipment calling result to the application.
2. The method for operating a terminal platform according to claim 1, wherein the calling channel comprises a custom channel, the custom channel comprises a flow management dynamic library,
the step of calling a preset driving module through the calling channel to access the equipment to be accessed to the terminal platform comprises the following steps:
determining a custom standard interface module of the flow management dynamic library based on a command ID number in the equipment call instruction;
and calling a device access standard interface and a platform docking standard interface in the custom standard interface module, and docking the device access standard interface with the platform docking standard interface through a preset driving module so as to access the device to be accessed to the terminal platform.
3. The method for operating a terminal platform according to claim 2, wherein the step of determining the custom standard interface module of the flow management dynamic library based on the command ID number in the device call instruction includes, before:
acquiring command function parameters of the custom standard interface, and identifying the command function to acquire naming parameters corresponding to the command function;
And packaging the command function and the naming parameters to obtain the custom standard interface.
4. The method for operating a terminal platform according to claim 1, wherein the start-up and monitoring process comprises a Browser module and a DAMService module,
the step of obtaining the preset first configuration file and loading the preset first configuration file through a preset Monitor process to start a preset starting and monitoring process comprises the following steps:
reading a preset second configuration file through the DAMService module, loading a preset configuration library, and starting a preset Websocket service;
reading a preset third configuration file through the Browser module, loading a preset application home page, and starting network state detection of a terminal server corresponding to the terminal platform;
when the network state detection is passed, establishing Websocket connection corresponding to the preset Websocket service of the Browser module and the DAMService module;
and after the Websocket is successfully connected, detecting each hardware module in the preset configuration library through the Browser module.
5. The method for operating a terminal platform according to claim 4, wherein the start-up and monitoring process comprises a TMSCient module,
After the Websocket is successfully connected, the step of detecting each hardware module in the preset configuration library through the Browser module includes:
reading a preset fourth configuration file through the TMSCient module, and connecting the preset TMS server;
and monitoring the state information of each device connected with the terminal platform through the TMSCient module, and uploading the state information to the TMS server at fixed time.
6. A terminal platform operation device, wherein the terminal platform operation device is applied to a terminal platform operation device, the terminal platform operation device comprises:
the starting module is used for acquiring a preset first configuration file, and loading the preset first configuration file through a preset Monitor process so as to start a preset starting and monitoring process;
the determining module is used for determining the DAM module corresponding to the preset starting and monitoring process based on an operating system where the terminal platform is located;
the call module is used for reading a preset second configuration file through the DAM module so as to call the equipment to be accessed corresponding to the terminal platform, wherein the operating system comprises a first operating system and a second operating system, the DAM module comprises a first DAM module based on the first operating system and a second DAM module based on the second operating system, and the call module is further used for:
Reading a preset second configuration file through a DAMService module in the first DAM module to load a preset DAM equipment management module and start a preset Websocket service program; based on the preset Websocket service program, connecting the application on the terminal platform with the preset DAM equipment management module, and issuing an equipment calling instruction corresponding to the application according to a preset logic name; determining a calling channel corresponding to the equipment calling instruction through the preset DAM equipment management module based on the preset second configuration file; calling a preset driving module through the calling channel to enable the equipment to be accessed to the terminal platform, and returning an equipment calling result to the application; or (b)
Reading a preset second configuration file through a DAMService module in the second DAM module to load a preset DAM equipment management module and start a preset Websocket service program; based on the preset Websocket service program, connecting the application on the terminal platform with the preset DAM equipment management module, and issuing an equipment calling instruction corresponding to the application according to a preset logic name; the device calling instruction is sent to a preset network access manager module through the preset DAM device management module, so that the device calling instruction is sent to a preset manufacturer service module through the preset network access manager module; and calling a preset driving module through the preset manufacturer service module based on the equipment calling instruction so as to enable the equipment to be accessed corresponding to the equipment calling instruction to be accessed to the terminal platform, and returning an equipment calling result to the application.
7. A terminal platform operation device, characterized in that the terminal platform operation device comprises: a memory, a processor and a program stored on the memory for implementing the terminal platform operation method,
the memory is used for storing a program for realizing a terminal platform operation method;
the processor is configured to execute a program for implementing the terminal platform operation method to implement the steps of the terminal platform operation method according to any one of claims 1 to 5.
8. A readable storage medium, characterized in that it has stored thereon a program for realizing a terminal platform operation method, the program for realizing a terminal platform operation method being executed by a processor to realize the steps of the terminal platform operation method according to any one of claims 1 to 5.
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
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WO2017078985A1 (en) * 2015-11-05 2017-05-11 Dexcom, Inc. Compatibility check for continuous glucose monitoring application
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Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
交警移动执法(警务)平台及终端技术研究;孙旭等;《中国公共安全》;75-82 *

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