CN109871221B

CN109871221B - System for quickly installing and deploying mobile application software for mobile terminal equipment

Info

Publication number: CN109871221B
Application number: CN201910104099.2A
Authority: CN
Inventors: 金鑫; 田丹; 丁冠东; 杨骋; 田佳禾; 王成华
Original assignee: CETC 28 Research Institute
Current assignee: CETC 28 Research Institute
Priority date: 2019-02-01
Filing date: 2019-02-01
Publication date: 2022-02-08
Anticipated expiration: 2039-02-01
Also published as: CN109871221A

Abstract

The invention discloses a system for quickly installing and deploying mobile application software for mobile terminal equipment, which aims at the problems that mobile terminal modules deployed in the environment of narrow-band high-error-rate channels such as Beidou channel and the like can only be manually installed, and the installation and deployment workload is large, the efficiency is low, the consumed time is long and the like under the condition that the number of the modules and the terminals to be installed is large. The invention designs a batch installation system for application modules of a mobile terminal. The system realizes the capability of quickly completing the installation and deployment operations of the mobile terminal under the offline condition without a network and the one-key downloading, updating and installation of the modules under the condition with the network. The Beidou terminal installation method has the characteristics of plug and play, one-key batch installation, one-key batch updating and the like, greatly reduces the workload of the Beidou terminal installation, saves the time, labor and material cost, and improves the working efficiency. Meanwhile, experience is accumulated for rapid installation and deployment of the Beidou mobile terminal.

Description

System for quickly installing and deploying mobile application software for mobile terminal equipment

Technical Field

The invention belongs to the field of mobile informatization, and particularly relates to a system for quickly installing and deploying mobile application software for mobile terminal equipment.

Background

In recent years, the number of Beidou mobile terminals is found to increase explosively year by year, for example, in mobile application, the acquisition, preprocessing and information aggregation of multipoint data can be easily realized by deploying a large number of terminals. The Beidou mobile terminal can solve the problems of cooperative communication and real-time control of target positions in emergency, at ordinary times and in remote areas. However, the mobile terminal has the characteristics of large quantity, fast iteration and scattered distribution, and particularly, the mobile terminal is applied in the environment of narrow-band channels with high error rate such as Beidou channel and the like, and can only be manually installed by a client. However, if the installation and deployment are performed under the condition that the number of applications and terminals to be installed is large, the installation and deployment are time-consuming and labor-consuming. Through investigation and comparison, existing installation modes in the market all have certain problems, and the existing project requirements cannot be completely met. One is the excessive reliance on networked application stores. Many applications must be downloaded through a mobile 3G/4G web application store to be installed; secondly, it is difficult to merge with the project system. The current project system has an independent software warehouse, and the installation mode on the market is difficult to access and use.

Therefore, there is a need for an installation mode that can implement automatic batch installation and update, and can be perfectly integrated with a project system to solve the current problems, thereby saving labor and time cost to the maximum extent.

Disclosure of Invention

At present, under the condition that a mobile phone terminal does not have an application which can be communicated with a server, the installation of the application of the mobile terminal can only adopt an operation mode of manually clicking installation after copying an installation package, so that the operation is complex, and time and labor are wasted. According to the system, the installation mode of the application in the android operating system environment is researched, the technology of simultaneous installation of multiple devices, one-key installation and batch installation of multiple applications is successfully broken through by means of the multi-interface line concentration conversion expander, and the complex mode of the traditional installation operation is broken through.

The system comprises a software warehouse server (1), a PC client module (2), a HUB multi-interface line concentration conversion expander (3) and a mobile terminal device (4);

the software warehouse server (1) is connected with the PC client module (2) through a wired network;

the PC client module (2) is connected with the mobile terminal equipment (4) through a HUB multi-interface line concentration conversion expander (3);

the software warehouse server (1) comprises a foreground display module, a background management module, an FTP file service module and a database service module;

the foreground display module and the background management module acquire page display data from the database service module in a database service access mode, and perform data interaction with the FTP file service module in an FTP file uploading and downloading mode.

The software warehouse server (1) is used as a data calculation storage center of a cloud end and provides functions of uploading and downloading data and interacting with a database;

the PC client module (2) is used as a data interaction module between the software warehouse server (1) and the mobile terminal device (4), is deployed on a PC, and provides functions of acquiring data from the software warehouse server (1) and pushing data to the mobile terminal device (4);

the HUB multi-interface line concentration conversion expander (3) provides a one-to-many function of connecting the mobile terminal equipment (4) for the PC client module (2), and is important equipment for improving the data transmission efficiency of the PC client module (2) to the mobile terminal equipment (4);

the mobile terminal equipment (4) is the final receiver of the data, and the deployment speed is the standard for checking the invention;

the working process of the software warehouse server (1) specifically comprises the following steps:

step a1, the software warehouse server (1) sends the uploaded and packaged installation package file and data file to the FTP file service module through the background management module, records corresponding version information and icon information, and updates software information data in the database service module in a database service access mode;

step a2, the background management module controls the visible authority of the uploaded installation package, wherein the visible authority comprises a complete visible authority, a partial visible authority and an invisible authority;

a3, a foreground display module acquires the latest installation package information from a database service module and displays the latest installation package information through the foreground display module, and a user can acquire an installation package in a visible range according to own visible authority and search and inquire a required target installation package and corresponding version information;

step a4, when the user finds the corresponding target installation package, the installation package data can be downloaded; at this time, the foreground display module calls the FTP file service module to download the installation package data to the local part of the user.

The PC client module (2) comprises an installation package information analysis module, a mobile terminal equipment information analysis module and an APP installation updating module;

the installation package information analysis module extracts key data and displays the key data to a user by performing data analysis on the installation package information; the mobile terminal equipment information analysis module uses a JAVA SOCKET monitoring port for connection under the condition that a connection terminal opens a debugging mode, uses a forward command of adb to acquire specific local port information, acquires a sequence code of each equipment as a unique identifier and displays the sequence code in a foreground interface of a PC client module (2); the APP installation updating module provides the user with the capability of selecting installation and deployment of specific mobile terminal equipment through the install command of the adb.

The mobile terminal equipment information analysis module is used for automatically detecting terminal equipment on the HUB multi-interface HUB conversion expander, acquiring a sequence code of each equipment as a unique identifier and displaying the sequence code in a foreground interface of the PC client module (2);

the user can select to install and deploy the specific mobile terminal equipment through the APP installation and update module.

Based on the PC client module (2), the deployment mode of the system comprises an offline mode and an online mode, wherein the offline mode comprises the following steps:

step b1, importing the installation package: in an offline mode, a local installation package file in a PC is required to be selected and manually imported into an APP installation package of a mobile application, an installation package information analysis module analyzes the instantiation data of the installation package information through a RandomAccess File class, and the content data of the installation package is extracted and displayed to a user;

step b2, multi-terminal access: when more than two mobile terminal devices (4) are accessed into a PC (personal computer) through a HUB multi-interface line concentration conversion expander (3), a mobile terminal device information analysis module automatically detects the terminal devices on the HUB multi-interface line concentration conversion expander, monitors port connection by using JAVA SOCKET under the condition that a connection terminal is in a debugging mode, acquires specific local port information by using a forward command of adb, acquires a sequence code of each device as a unique identifier and displays the sequence code in a terminal list;

step b3, installing and deploying: after the information analysis module of the mobile terminal equipment monitors through SOKCKET and PUSH obtains all mobile terminal equipment connected with a PC, a user selects and copies an installation package from a computer end to a mobile phone end through an APP installation and update module by using a PUSH command of adb, and installs and deploys specific mobile terminal equipment by using install command installation software; if not all the projects need to be installed, manually selecting the project to be installed;

the online mode includes the steps of:

step c1, uploading the installation package: in an online mode, an APP installation package of mobile application software performs FTP data uploading operation through a background management module, the uploaded content comprises the APP installation package, the belonged classification, the icon, the author and the version information, and after the uploading is completed, the authority of the installation package can be set to control the visible range;

step c2, the user logs in: a user logs in a PC client module (2) to complete the acquisition of information of an installation package, acquires APP data in an authority range through a Webservice interface calling mode according to the authority of the user and downloads a corresponding installation package through an FTP file service module;

step c3, multi-terminal access: when more than two mobile terminal devices (4) are accessed into a PC (personal computer) through a HUB multi-interface line concentration conversion expander (3), a mobile terminal device information analysis module monitors the terminal devices accessed into the HUB multi-interface line concentration conversion expander (3) through SOCKET (SOCKET set), and obtains a sequence code of each device as a unique identifier to be displayed in a terminal list;

step c4, install update: the mobile terminal device information analysis module obtains current installation package information of each connected terminal through a shell pm list packages-i command of the adb shell, and obtains a version number. And c, instantiating and analyzing the software installation package information downloaded in the step c2 by using a random Access File class, acquiring version number information in the analyzed information, comparing the terminal installed software version number of the specific software with the software version number acquired by a PC (personal computer) by depending on a version registration list, and judging whether the software is installed for the first time, updated or not, and rolling back the update state and displaying.

Some explanations involved in the present invention are as follows:

APP: and (5) carrying out android program.

JAVA: android develops computer programming languages.

SOCKET: the inter-program bi-directional communication connection implements sockets for data exchange.

adb: the Android Debug Bridge is named Android Debug Bridge.

forward command: adb get info command.

local port: a local port.

install command: and installing the command.

RandomAccessFile class: random read and write.

Push command: adb loads the command.

adb shell: adb debug mode.

The shell pm list package-i command: and acquiring a command of the program package name in the adb.

Has the advantages that: the invention designs a set of mobile terminal multi-scene installation, deployment and installation system, which realizes the capability of quickly completing installation and deployment operations of the mobile terminal under the off-line condition without a network and the application of one-key downloading, updating and installation under the condition with the network, greatly reduces the workload of terminal installation, saves the time, labor and material cost and improves the working efficiency. Meanwhile, experience is accumulated for rapid installation and deployment of the mobile terminal.

Drawings

The foregoing and other advantages of the invention will become more apparent from the following detailed description of the invention when taken in conjunction with the accompanying drawings.

FIG. 1 is a block diagram of a system architecture;

FIG. 2 is a system composition diagram;

FIG. 3 is a diagram of a mobile center service module composition;

FIG. 4 is a diagram of a mobile device access module composition;

fig. 5 is a flow diagram of mobile device access management module operation.

Detailed Description

The invention is further explained below with reference to the drawings and the embodiments.

a1, the software warehouse server (1) sends the uploaded and packaged unified communication installation package file and data file to the FTP file service module through the background management module, records corresponding version information and icon information, and updates software information data in the database service module in a database service access mode;

a3, a foreground display module acquires the latest unified communication installation package information from a database service module and displays the latest unified communication installation package information through the foreground display module, and a user can acquire an installation package in a visible range according to own visible authority and search and inquire a required target installation package and corresponding version information;

step a4, when the user finds the corresponding uniform communication target installation package, the installation package data can be downloaded; at this time, the foreground display module calls the FTP file service module to download the installation package data to the local part of the user.

the user can select to carry out installation deployment to the handheld mobile terminal equipment of military use (use big dipper 6S handheld type user machine in this embodiment) through APP installation update module.

step b1, importing the installation package: in an off-line mode, a software installation package for unified communication, situation guarantee and log service is manually imported into a PC (personal computer) to be accessed to the terminal equipment, and an imported software list can be checked in a PC client module (2);

step b2, multi-terminal access: the total updating requirement is 300 military hand-held mobile terminals, one PC can be used, one PC can be accessed into 10 stations (10 HUB multi-interface HUBs are arranged on the site) at a time, and the one-key updating operation needs to be repeated thirty times. After the equipment is accessed, an accessed terminal list can be checked in a PC client module (2) on the PC;

step b3, installing and deploying: clicking the fully-selected terminal equipment in the PC client module (2), and then installing software or updating the software which can be accessed into 10 pieces of equipment at the moment by one key; if not all the projects need to be installed, manually selecting the project to be installed;

the online mode includes the steps of:

step c1, uploading the installation package: under the online mode, the APP installation packages of unified communication, situation guarantee and log service are selected and uploaded through the desktop end.

Step c2, the user logs in: and the user logs in the PC client module (2) and downloads the corresponding installation package.

Step c3, multi-terminal access: the total updating requirement is that 100 military handheld mobile terminals are updated, one PC can be used, one PC can be accessed into 10 stations (10 HUB multi-interface HUBs are arranged on the site) at a time, and one-key updating operation needs to be repeated ten times. After the equipment is accessed, an accessed terminal list can be checked in a PC client module (2) on the PC;

step c4, install update: and checking the version number information of the terminal equipment in the PC client module (2), and comparing the version number of the software installed in the terminal of the specific software with the version number of the software acquired by the PC according to a version registration list to obtain the following table. If the software is installed for the first time, loading the latest installation package information and prompting installation, if not, loading and displaying the installed version, the new version and the old version, and optionally installing, wherein the versions are shown in the table 1:

TABLE 1

Unified communications version	Update time
		V2.0	2018.11.11
V1.9 (installed)	2018.09.17
		V1.5	2018.04.08
V1.4	2018.02.05

Examples of the embodiments

As shown in fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5, the system is mainly used for batch installation and update of the mobile terminals APP, and can implement plug and play, one-key batch installation, one-key batch update, and the like, thereby meeting the requirement of batch upgrade and deployment of the mobile terminals. The system consists of two parts, namely hardware and software. The system hardware comprises a server, a client PC, a HUB multi-interface HUB conversion expander and the like. The system comprises a software warehouse server and a PC client module.

1. Software warehouse server

The software warehouse server consists of a foreground display module, a background management module, an FTP file service and a database service. The system mainly comprises a mobile application uploading sub-module, a mobile application updating and maintaining sub-module, a mobile application downloading sub-module, a mobile application inquiring sub-module and a mobile application authority management sub-module.

The mobile application uploading sub-module: the method mainly comprises the steps that a user uploads mobile applications through a background management module, the uploaded applications are classified, and the corresponding applications are uploaded to a designated directory so as to be managed and maintained and set the user authority.

The mobile application update maintenance submodule: updating operation can be carried out on the mobile application uploaded to the software warehouse server, and the application is upgraded to the latest version so that a user can download and update the application; editing the installation package, and modifying the uploaded related information of the name, version, author and the like of the installation package; and deleting the installation package under the specified application or the specified directory according to the requirement.

The mobile application downloading submodule comprises: mainly an application downloading module of the software warehouse server. The uploaded application is stored in a file server and provides a software warehouse of a B/S framework or a PC client module of a C/S framework for downloading. In an application store, a user sees the application in the authority range on a webpage according to the own authority, views and downloads the application, and simultaneously views the latest resource and the latest resource.

A mobile application query submodule: and providing various queries for the uploaded applications by utilizing a foreground display module, wherein the queries comprise fuzzy query according to application names, accurate query according to publishers and query according to uploading time.

The mobile application authority management submodule comprises: the applications that can be seen by the user depend on their own rights. The software warehouse server configures the user authority, and the user can see all the applications in the type by setting the application type visible to the user.

2. PC client module

The PC client module is used as a medium among the software warehouse server, the mobile application installation package and the mobile terminal equipment, is deployed on the PC and consists of an installation package information analysis module, a mobile terminal equipment information analysis module and an APP installation and update module.

The mobile terminal equipment information analysis module:

in the process of large-scale installation and deployment of mobile terminals, batch terminals are connected with a computer through a multi-interface hub converter. The access management module can acquire the model and serial number information of the connected terminal and display the model and serial number information in a list form. The serial number of the mobile terminal is essentially the serial number of the USB device, and the device manufacturer generates this serial number by some algorithm or depending on the hardware ID of the device, and the serial number is no longer changed once it is determined, and can be used as the unique identifier of the device. When the mobile terminal equipment is connected with a computer through a USB interface, the serial number of the current connecting equipment can be acquired through the ADB (android Debug bridge) function of the mobile terminal. And the user can manually select one or more terminals through the acquired terminal information, and the selected terminals are subjected to APP installation and updating operation.

The installation package information analysis module:

the installation package information analysis module can acquire the information of the APP to be installed. In the offline mode, the APP performs data import in a local import mode, and information required for displaying the mobile application, such as an icon, a name, modification time and the like, can be acquired through the local installation package. In the online mode, the APP information is obtained through the software warehouse server, and besides basic information such as icons and names, information such as versions and authors can be obtained. The mobile applications are presented to the user in the form of a list.

The APP installation updates the module:

when the mobile device access management module detects that a mobile terminal is accessed and the mobile application APP is imported, the mobile terminal application can be installed, deployed or updated. And comparing the version information, and respectively carrying out module installation and updating operations.

Comparison with other methods:

as shown in table 2, compared with the conventional mobile terminal installation mode, the present invention makes a significant breakthrough in terms of batch deployment. The traditional mode usually only supports single equipment detection and application installation, and the invention relies on an industrial-grade HUB multi-interface line concentration conversion expander and can support simultaneous access of a large number of terminals; under the support of the mobile equipment access management module, all accessed terminals can be detected simultaneously, and the functions of one-key installation package injection and batch installation and deployment are completed. On the other hand, compared with the traditional mode, the invention has low dependence degree on the network, can well complete the injection and installation work of the application in the off-line mode, greatly reduces the application threshold, and improves the applicability and the popularization range of the system.

TABLE 2

The present invention provides a system for deploying mobile application software for a mobile terminal device, and a method and a way for implementing the technical solution are many, and the above description is only a preferred embodiment of the present invention, and it should be noted that, for a person skilled in the art, a number of improvements and modifications may be made without departing from the principle of the present invention, and these improvements and modifications should also be regarded as the protection scope of the present invention. All the components not specified in the present embodiment can be realized by the prior art.

Claims

1. A system for deploying mobile application software aiming at rapid installation of mobile terminal equipment is characterized by comprising a software warehouse server (1), a PC client module (2), a HUB multi-interface line concentration conversion expander (3) and the mobile terminal equipment (4);

the foreground display module and the background management module acquire page display data from the database service module in a database service access mode and perform data interaction with the FTP file service module in an FTP file uploading and downloading mode;

the HUB multi-interface line concentration conversion expander (3) provides a one-to-many function of connecting the mobile terminal equipment (4) for the PC client module (2);

the mobile terminal device (4) is the final recipient of the data;

2. The system according to claim 1, wherein the PC client module (2) comprises an installation package information analysis module, a mobile terminal device information analysis module and an APP installation update module;

the installation package information analysis module extracts key data and displays the key data to a user by performing data analysis on the installation package information; the mobile terminal equipment information analysis module uses JAVASOCKET to monitor port connection under the condition that a connection terminal opens a debugging mode, uses forward command of adb to acquire specific local port information, acquires a sequence code of each equipment as a unique identifier and displays the sequence code in a foreground interface of a PC client module (2); the APP installation updating module provides a user with the capability of selecting installation and deployment of specific mobile terminal equipment through an install command of adb;

3. The system according to claim 2, characterized in that the deployment mode of the system comprises both an offline mode and an online mode, based on the PC client module (2), wherein the offline mode comprises the following steps:

the online mode includes the steps of:

step c4, install update: the mobile terminal equipment information analysis module acquires current installation package information of each connected terminal through a shell pm list packages-i command of an adb shell and acquires a version number; and c, instantiating and analyzing the software installation package information downloaded in the step c2 by using a random Access File class, acquiring version number information in the analyzed information, comparing the terminal installed software version number of the specific software with the software version number acquired by a PC (personal computer) by depending on a version registration list, and judging whether the software is installed for the first time, updated or not, and rolling back the update state and displaying.