CN113950055A - Application configuration method and system and mobile terminal - Google Patents

Application configuration method and system and mobile terminal Download PDF

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Publication number
CN113950055A
CN113950055A CN202111173260.5A CN202111173260A CN113950055A CN 113950055 A CN113950055 A CN 113950055A CN 202111173260 A CN202111173260 A CN 202111173260A CN 113950055 A CN113950055 A CN 113950055A
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target
mobile terminal
host
application
vehicle
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CN202111173260.5A
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CN113950055B (en
Inventor
刘碧波
陶首佳
周全
张云翼
庾京
周文欢
陈锐
宋美茹
张书中
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Ecarx Hubei Tech Co Ltd
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Hubei Ecarx Technology Co Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W12/00Security arrangements; Authentication; Protecting privacy or anonymity
    • H04W12/60Context-dependent security
    • H04W12/69Identity-dependent
    • H04W12/71Hardware identity
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L63/00Network architectures or network communication protocols for network security
    • H04L63/08Network architectures or network communication protocols for network security for authentication of entities
    • H04L63/0876Network architectures or network communication protocols for network security for authentication of entities based on the identity of the terminal or configuration, e.g. MAC address, hardware or software configuration or device fingerprint
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W12/00Security arrangements; Authentication; Protecting privacy or anonymity
    • H04W12/009Security arrangements; Authentication; Protecting privacy or anonymity specially adapted for networks, e.g. wireless sensor networks, ad-hoc networks, RFID networks or cloud networks
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W12/00Security arrangements; Authentication; Protecting privacy or anonymity
    • H04W12/06Authentication
    • H04W12/068Authentication using credential vaults, e.g. password manager applications or one time password [OTP] applications
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W12/00Security arrangements; Authentication; Protecting privacy or anonymity
    • H04W12/06Authentication
    • H04W12/069Authentication using certificates or pre-shared keys
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W12/00Security arrangements; Authentication; Protecting privacy or anonymity
    • H04W12/08Access security

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  • Engineering & Computer Science (AREA)
  • Computer Security & Cryptography (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Power Engineering (AREA)
  • Computer Hardware Design (AREA)
  • Computing Systems (AREA)
  • General Engineering & Computer Science (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Telephone Function (AREA)

Abstract

The application discloses an application configuration method, an application configuration system and a mobile terminal. Wherein, the method comprises the following steps: establishing connection with a target host, and acquiring first MAC address information of the target host; determining the type of a target host according to the first MAC address information, and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes; and calling a target application configuration corresponding to the target working mode, wherein the target application configuration comprises an application with a use permission in the target working mode. The application method and the mobile terminal solve the technical problem that under different use scenes, resources are wasted due to the fact that the application in the mobile terminal is not matched with the scenes.

Description

Application configuration method and system and mobile terminal
Technical Field
The present application relates to the technical field of application resource configuration, and in particular, to an application configuration method, system and mobile terminal.
Background
With the rise of the concept of the intelligent cabin, the intelligent car central control system not only meets the basic car body control, but also continuously enhances the entertainment audio-visual function in the user ecology, and the application on the intelligent mobile phone is widely adapted to the car-mounted mobile terminal based on the same Android frame. From the application ecology perspective, a large amount of overlapping exists between the two applications, and in most scenes, the vehicle-mounted mobile terminal can be mutually replaced with the smart phone in the audio-visual entertainment layer; in hardware, physical keys which can be sensed by a user are all optimized and replaced by touch soft keys, the control of the vehicle body is highly centralized by a central control system, the requirements on vehicle body animation and audio and video are enriched, the requirements on a System On Chip (SOC) are higher and higher, and various performances of the SOC are gradually close to those of a mainstream mobile phone and even exceed those of most flat equipment. Based on the convergence of hardware and ecology with a smart phone or a tablet device, the vehicle-mounted mobile terminal has feasibility of being used in families and outdoors.
However, the applications in the current vehicle-mounted mobile terminal are mainly configured for the vehicle control function, and when the vehicle-mounted mobile terminal is applied to other scenes, part of the applications are not used, but still occupy system hardware resources, which causes resource waste.
In view of the above problems, no effective solution has been proposed.
Disclosure of Invention
The embodiment of the application provides an application configuration method, an application configuration system and a mobile terminal, and aims to at least solve the technical problem that resources are wasted due to application which is not matched with a scene in the mobile terminal under different use scenes.
According to an aspect of an embodiment of the present application, there is provided an application configuration method, including: establishing connection with a target host, and acquiring first MAC address information of the target host; determining the type of the target host according to the first MAC address information, and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes; and calling a target application configuration corresponding to the target working mode, wherein the target application configuration comprises an application with a use permission in the target working mode.
Optionally, the target host type includes: the system comprises a vehicle-mounted host used for controlling vehicle functions or a home host used for controlling home equipment functions; the target operating mode includes: the home entertainment system comprises a vehicle-mounted mode corresponding to the vehicle-mounted host, a home mode corresponding to the home host, or an outdoor mode providing an outdoor entertainment function.
Optionally, determining second MAC address information of the mobile terminal; performing white list verification according to the first MAC address information and the second MAC address information to obtain a first verification result; when the first check result is successful, performing key certificate check according to the first MAC address information and the second MAC address information to obtain a second check result; and determining the connection level of the mobile terminal and the target host according to the first check result and the second check result.
Optionally, checking whether the first MAC address information is in a white list set by the mobile terminal; sending the second MAC address information to the target host, wherein the target host is used for verifying whether the second MAC address information is in a white list set by the target host; when the first MAC address information exists in a white list set by the mobile terminal and the second MAC address information exists in the white list set by the target host, determining that the first verification result is successful; otherwise, determining that the first verification result is verification failure.
Optionally, when the first verification result is a verification failure, the mobile terminal and the target host maintain a first-level connection state, where in the first-level connection state, the mobile terminal obtains network traffic through the target host; when the first verification result is successful and the second verification result is failed, establishing a second-level connection state between the mobile terminal and the target host, wherein in the second-level connection state, the mobile terminal controls part of vehicle functions or part of household equipment functions through the target host; and when the first verification result is successful verification and the second verification result is successful verification, the mobile terminal and the target host establish a third-level connection state, wherein in the third-level connection state, the mobile terminal controls all vehicle functions or all household equipment functions through the target host. Alternatively,
optionally, when the type of the target host is the in-vehicle host, determining the type of the mobile terminal according to the second MAC address information, where the type of the mobile terminal includes: the system comprises a first type mobile terminal with partial vehicle function control authority or a second type mobile terminal with all vehicle function control authority; when the type of the mobile terminal is the first type of mobile terminal, the mobile terminal and the target host establish the second-level connection state; and when the type of the mobile terminal is the second type of mobile terminal, the mobile terminal and the target host establish the third-level connection state.
Optionally, determining that an initial working mode of the mobile terminal is the vehicle-mounted mode; if the first verification result is verification failure, responding to a switching instruction of a target object, and switching the target working mode of the mobile terminal into the outdoor mode; if the first verification result is successful verification, the second verification result is successful verification, and the target host type is the home host, responding to a switching instruction of the target object, and switching the target working mode of the mobile terminal to the home mode; otherwise, determining the target working mode of the mobile terminal as the vehicle-mounted mode.
Optionally, applications in the mobile terminal are classified to obtain vehicle-mounted applications for controlling vehicles, home applications for controlling home devices and outdoor applications for outdoor entertainment functions; when the target working mode is the vehicle-mounted mode, the target application configuration at least comprises the vehicle-mounted application and does not comprise the home application; when the target working mode is the home mode, the target application configuration at least comprises the home application and does not comprise the vehicle-mounted application; and when the target working mode is the outdoor mode, the target application configuration comprises the outdoor application and does not comprise the vehicle-mounted application and the family application.
According to another aspect of the embodiments of the present application, there is also provided a mobile terminal, including: the connection module is used for establishing connection with a target host and acquiring first MAC address information of the target host; the determining module is used for determining the type of the target host according to the first MAC address information and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes; and the configuration module is used for calling the target application configuration corresponding to the target working mode, wherein the target application configuration comprises the application with the use permission in the target working mode.
According to another aspect of the embodiments of the present application, there is also provided an application configuration system, including: the system comprises a target host, a mobile terminal and a server, wherein the target host is used for establishing connection with the mobile terminal and providing first MAC address information of the target host, and different types of target hosts are used for providing different control functions; the mobile terminal is used for establishing connection with the target host and acquiring the first MAC address information; determining the type of the target host according to the first MAC address information, and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes; and calling a target application configuration corresponding to the target working mode, wherein the target application configuration comprises an application with a use permission in the target working mode.
In the embodiment of the application, the mobile terminal firstly establishes connection with a target host and acquires first MAC address information of the target host; then, determining the type of a target host according to the first MAC address information, and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes; and then calling the target application configuration corresponding to the target working mode, wherein the target application configuration comprises the application with the use permission in the target working mode. The mobile terminal confirms the application scene used through the MAC address information of the connected host and selects the corresponding working mode, only the application corresponding to the application scene needs to be configured in the working mode without configuring all the applications, so that the user requirements are met, the system resources are saved, and the technical problem of resource waste caused by the application which is not matched with the scene in the mobile terminal in different use scenes is solved.
Drawings
The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:
FIG. 1 is a schematic diagram of an application configuration system according to an embodiment of the present application;
FIG. 2 is a schematic structural diagram of an in-vehicle application system according to an embodiment of the present application;
FIG. 3 is a flow chart illustrating a method for configuring an application according to an embodiment of the present application;
fig. 4 is a schematic structural diagram of a mobile terminal according to an embodiment of the present application.
Detailed Description
In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
Example 1
In order to solve the problem of resource waste caused by unreasonable application resource allocation in the current mobile terminal, the embodiment of the application provides an application allocation system, in the system, the mobile terminal can switch application ecology according to a use scene, and allocate corresponding application, so that limited hardware resources can simultaneously meet the use requirements of different scenes such as in-car, home and outdoor.
Fig. 1 is a schematic structural diagram of an alternative application configuration system according to an embodiment of the present application, and as shown in fig. 1, the system includes at least a target host 10 and a mobile terminal 12, where:
and a target host 10 for establishing a connection with the mobile terminal, providing first MAC address information of the target host, wherein different types of target hosts are used for providing different control functions.
Generally, the types of target hosts mainly include: the system comprises a vehicle-mounted host used for controlling vehicle functions or a home host used for controlling home equipment functions. Each target host has a fixed MAC address and is not allowed to be modified, while having a key certificate file built into it.
The mobile terminal 12 is used for establishing connection with a target host and acquiring first MAC address information; determining the type of a target host according to the first MAC address information, and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes; and calling a target application configuration corresponding to the target working mode, wherein the target application configuration comprises an application with a use permission in the target working mode.
Corresponding to the type of the target host, the target working mode mainly comprises: the in-vehicle mode corresponding to the in-vehicle host, or the home mode corresponding to the home host, may also be an outdoor mode that provides only an outdoor entertainment function.
Taking a vehicle-mounted scene as an example, fig. 2 shows a schematic structural diagram of an optional vehicle-mounted application system, which mainly includes two parts, namely a vehicle-mounted host and a mobile terminal, wherein the vehicle-mounted host is usually fixed inside a vehicle-mounted instrument desk, and performs information interaction with the mobile terminal through a backbone communication network (usually in wireless connection), and the mobile terminal can be connected with the vehicle-mounted host or an outdoor public WIFI hotspot through the channel; optionally, the two devices can also perform information interaction through an auxiliary communication network (usually wired connection), for some important vehicle control signals, backup communication can be performed through the auxiliary network, when external interference causes the wireless communication signals of the backbone network to be abnormal, the wired communication of the auxiliary network can ensure normal use of the vehicle-mounted mode, and meanwhile, the wired connection can also be used for charging the mobile terminal.
Specifically, as shown in fig. 2, a "wireless network switch" is usually provided in the mobile terminal, and a wireless network state may be set ON or OFF, and when the state is ON, a wireless network available nearby may be searched; meanwhile, a wireless network connection signal indication icon is also arranged in the mobile terminal, and after wireless connection is established, if the icon is highlighted, the wireless network connection state is normal; if the icon is grey, the wireless network signal difference is represented, and the communication is abnormal; the icon remains grayed out when no wireless connection is established. In addition, a mode selection function can be further arranged in the mobile terminal, and is used for manually switching the working mode (such as a vehicle-mounted mode, a home mode or an outdoor mode) of the mobile terminal, reallocating hardware resources, and limiting and starting applications according to scenes; the "HOME" is used to return to the terminal display main interface, and the "return" is used to return to a display interface on the terminal.
The host side is usually provided with a white list, the white list can be set through the cloud server and is imported into the host through the network for storage, and of course, the mobile terminal can also be provided with a corresponding white list. After the mobile terminal and the vehicle-mounted host complete password matching, establishing a first-level connection, wherein the connection mode only supports obtaining of a traffic channel of a public network in a vehicle; then, the vehicle-mounted host can identify the MAC address information of the mobile terminal and carry out white list verification, and if the white list verification is passed, secondary connection for controlling part of vehicle functions can be established; and then, the key certificate can be continuously verified, and after the key certificate is verified, a three-level connection for controlling all vehicle functions can be established.
In addition to the application configuration system described above, the embodiments of the present application also provide an application configuration method, it should be noted that the steps shown in the flowchart of the drawings may be executed in a computer system such as a set of computer executable instructions, and although a logical order is shown in the flowchart, in some cases, the steps shown or described may be executed in an order different from the order shown.
Fig. 3 is a schematic flowchart of an alternative application configuration method according to an embodiment of the present application, and as shown in fig. 2, the method at least includes steps S302-S306, where:
step S302, connection is established with the target host, and first MAC address information of the target host is obtained.
As mentioned above, a "wireless network switch" is a soft switch in a mobile terminal setting, and a wireless network switch is first turned on to make a wireless connection, while a host side usually defaults to turn on the wireless connection. After the mobile terminal starts the wireless connection function, it starts to search the external wireless network signal source, which can be specifically divided into the following two cases:
when the wireless connection is carried out with the target host for the first time, a user can manually select a target signal source corresponding to a Service Set Identifier (SSID) of the target host, manually input a wireless connection password and request to establish connection with the target host; after the target host computer verifies that the wireless connection password passes, the mobile terminal establishes primary connection with the target host computer, and stores the SSID of the target host computer and the wireless connection password as a list file in a key value pair mode; and meanwhile, first MAC address information of the target host is obtained.
If wireless connection with a target host is not performed for the first time, after a plurality of surrounding signal sources are searched, the mobile terminal can read a stored list file according to a last-in first-out mode and perform polling matching with the plurality of signal sources according to the list file, wherein the list file comprises SSIDs of the plurality of hosts corresponding to the plurality of signal sources and a plurality of wireless connection passwords corresponding to the plurality of SSIDs; and then, taking the host corresponding to the successfully matched signal source as a target host, establishing primary connection with the target host, and simultaneously acquiring first MAC address information of the target host.
Step S304, determining the type of the target host according to the first MAC address information, and determining the target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes.
In some optional embodiments of the present application, after the first MAC address information of the target host is obtained, whether the target host is a vehicle-mounted host or a home host may be determined according to the first MAC address information; then, second MAC address information of the mobile terminal can be determined; then, white list verification is carried out according to the first MAC address information and the second MAC address information to obtain a first verification result; when the first check result is that the check is successful, the secret key certificate can be checked according to the first MAC address information and the second MAC address information to obtain a second check result; and finally, determining the connection level of the mobile terminal and the target host according to the first check result and the second check result.
Specifically, when checking a white list, firstly checking whether first MAC address information is in the white list set by the mobile terminal; meanwhile, the mobile terminal sends the second MAC address information to the target host, and the target host is used for verifying whether the second MAC address information is in a white list set by the target host; if the first MAC address information exists in a white list set by the mobile terminal and the second MAC address information exists in a white list set by the target host, determining that the first verification result is successful; otherwise, determining that the first verification result is verification failure.
When the mobile terminal and the host are produced and off-line, a unique key certificate file is implanted, and the key certificate file generally includes two types: the vehicle-mounted certificate file and the family certificate file, and the key certificate file can be bound and authenticated through a unified background or cloud server.
Therefore, when the secret key certificate is verified, the mobile terminal firstly obtains a first secret key certificate built in the target host and verifies the first secret key certificate; meanwhile, a second secret key certificate corresponding to the target host and built in the mobile terminal is determined according to the first MAC address information, the second secret key certificate is sent to the target host, and the target host is used for verifying the second secret key certificate. For example, if the target host is a vehicle-mounted host, the mobile terminal calls a vehicle-mounted certificate file in advance, requests the vehicle-mounted host to prepare a corresponding vehicle-mounted certificate file, and then performs key certificate verification respectively; if the target host is the home host, the mobile terminal calls the home certificate file in advance, requests the home host to prepare the corresponding home certificate file, and then performs key certificate verification respectively. When the first secret key certificate is successfully verified and the target host successfully verifies the second secret key certificate, determining that the second result is successful in verification; otherwise, determining that the second result is verification failure.
After the white list verification and the key certificate verification are sequentially completed, the working mode of the mobile terminal can be determined according to the verification result. In some optional embodiments of the present application, it may be determined that the initial operating mode of the mobile terminal is the vehicle-mounted mode, and if the first verification result is a verification failure, the target operating mode of the mobile terminal is switched to the outdoor mode in response to the switching instruction of the target object; if the first verification result is successful, the second verification result is successful, the target host type is a home host, and the target working mode of the mobile terminal is switched to the home mode in response to the switching instruction of the target object; otherwise, determining that the target working mode of the mobile terminal is the vehicle-mounted mode.
Specifically, the default mobile terminal works in a vehicle-mounted mode; when the white list is not checked, a popup window can remind a user whether the current working mode needs to be switched to an outdoor mode, if the user selects no, the target working mode is kept in a vehicle-mounted mode, and if the user selects yes or the operation is not carried out within a preset time (such as 5s), the target working mode is switched to the outdoor mode; when the white list verification and the key certificate verification are both passed, if the type of the target host is the home host, a popup can remind a user whether to switch the current working mode to the home mode, if the user selects no, the target working mode is kept in the vehicle-mounted mode, and if the user selects yes or does not operate within the preset time, the target working mode is switched to the home mode; and under the other conditions, determining that the target working mode of the mobile terminal is the vehicle-mounted mode.
Optionally, when the first verification result is that the verification is successful and the type of the target host is the home host, the target working mode of the mobile terminal may be switched to the home mode in response to a switching instruction of the target object. If the white list is verified to be passed and the target host is the home host, the popup can remind the user whether the current working mode needs to be switched to the home mode, if the user selects no, the target working mode is kept in the vehicle-mounted mode, and if the user selects yes or the operation is not performed within the preset time, the target working mode is switched to the home mode.
In some optional embodiments of the present application, after completing the white list verification and the key certificate verification in sequence, the connection level between the mobile terminal and the target host may also be determined according to a verification result, specifically:
and when the first verification result is verification failure, namely the white list verification fails, which indicates that the target host is an unauthenticated vehicle-mounted host or a household host and lacks security, the mobile terminal and the target host keep a first-level connection state, and the mobile terminal can only acquire network traffic through the target host in the connection state.
When the first verification result is successful verification and the second verification result is failed verification, namely the white list verification is passed but the key certificate verification is not passed, the certain safety is indicated, a second-stage connection state is established between the mobile terminal and the target host, and the mobile terminal controls part of vehicle functions or part of household equipment functions through the target host in the connection state. For example, in the vehicle mode, the mobile terminal may control vehicle entertainment functions, such as bluetooth, audio playing, and the like; in the home mode, the mobile terminal can control part of the household equipment with lower security level, and the specific safety level of the household equipment can be defined by a user.
And when the first verification result is successful verification and the second verification result is successful verification, namely the white list verification and the secret key certificate verification are passed, the safety is higher, and the mobile terminal and the target host establish a third-level connection state, wherein in the third-level connection state, the mobile terminal controls all vehicle functions or all household equipment functions through the target host.
Optionally, when the type of the target host is the in-vehicle host, the type of the mobile terminal may be further determined according to the second MAC address information, where the type of the mobile terminal includes: the system comprises a first type mobile terminal with partial vehicle function control authority or a second type mobile terminal with all vehicle function control authority; when the type of the mobile terminal is a first type mobile terminal, the mobile terminal and the target host establish a second-level connection state; and when the type of the mobile terminal is the second type of mobile terminal, establishing a third-level connection state between the mobile terminal and the target host.
Specifically, after the white list verification and the key certificate verification are both passed, the identity information of the mobile terminal can be determined, if the mobile terminal is a commonly-used driving mobile terminal or a second-class mobile terminal such as other authorized mobile terminals, the mobile terminal has all vehicle function control authorities, and a third-level connection state can be established with the target host; if the mobile terminal is the first type mobile terminal with uncertain identity, the mobile terminal only has partial vehicle function control authority, and can only establish the second-level connection state with the target host, even for safety consideration, the mobile terminal can be set to establish the first-level connection state only.
Step S306, calling the target application configuration corresponding to the target working mode, wherein the target application configuration comprises the application with the use permission in the target working mode.
After the target working mode is determined, system application resources can be automatically configured according to the corresponding application ecology, and the occupancy rate of the system resources is reduced by forbidding some applications which are not suitable for the current mode, so that the mobile terminal can be used in various scenes, and meanwhile, the fluency and the portability of the system are effectively guaranteed with lower hardware cost, and the use satisfaction degree of a user is improved.
Specifically, applications in the mobile terminal may be classified first to obtain a vehicle-mounted application for controlling a vehicle, a home application for controlling home equipment, and an outdoor application for an outdoor entertainment function. Wherein, on-vehicle application mainly includes: vehicle body setting, vehicle-mounted air conditioner control, vehicle-mounted navigation control, vehicle-mounted voice control and other applications related to vehicle control; the home applications mainly include: the application of household equipment control, such as voice control, air conditioner control, television control, home theater control, home camera control and the like, relates to the household equipment control; outdoor applications mainly include: weather forecast, map navigation, entertainment audio-visual, live broadcast and other outdoor entertainment applications. Optionally, other customized applications, such as WeChat, QQ, games, etc., are also included according to the performance of the mobile terminal SOC.
In different working modes, a core application (namely, an application which must be configured), a prohibited application (namely, an application which is prohibited from being configured) and an optional application (namely, an application which can be selected to be configured according to user requirements) can be respectively set, wherein:
when the target working mode is the vehicle-mounted mode, the target application configuration at least includes the vehicle-mounted application and does not include the home application, specifically, the core application in the vehicle-mounted mode includes the vehicle-mounted application, the prohibited application includes the home application, and the selectable application includes the custom application.
When the target working mode is the home mode, the target application configuration at least includes the home application and does not include the in-vehicle application, specifically, the core application in the home mode includes the home application, the prohibited application includes the in-vehicle application, and the selectable application includes the custom application.
When the target working mode is the outdoor mode, the target application configuration includes an outdoor application, and does not include a vehicle-mounted application and a home application, specifically, the core application in the outdoor mode includes the outdoor application, the prohibited application includes the vehicle-mounted application and the home application, and the optional application includes the custom application.
It should be noted that after the mobile terminal configures the corresponding application according to the target operating mode, not all applications have the usage right, and the connection level between the mobile terminal and the target host needs to be referred to. For example, when the white list is not checked, the user does not select to switch the target operating mode to the outdoor mode, and the mobile terminal still operates in the vehicle-mounted mode at this time, that is, the configured applications mainly include the vehicle-mounted application and the custom application, but because the mobile terminal and the target host are in the first-level connection state, network traffic can only be acquired through the vehicle-mounted host, that is, the vehicle-mounted application cannot control the vehicle function at this time, and only networking applications such as WeChat and QQ in the custom application can be actually used.
In the embodiment of the application, the mobile terminal firstly establishes connection with a target host and acquires first MAC address information of the target host; then, determining the type of a target host according to the first MAC address information, and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes; and then calling the target application configuration corresponding to the target working mode, wherein the target application configuration comprises the application with the use permission in the target working mode. The mobile terminal confirms the application scene used through the MAC address information of the connected host and selects the corresponding working mode, only the application corresponding to the application scene needs to be configured in the working mode without configuring all the applications, so that the user requirements are met, the system resources are saved, and the technical problem of resource waste caused by the application which is not matched with the scene in the mobile terminal in different use scenes is solved.
Example 2
According to an embodiment of the present application, there is also provided a mobile terminal for implementing the application configuration method, as shown in fig. 4, the apparatus includes a connection module 40, a determination module 42, and a configuration module 44, where:
and the connection module 40 is configured to establish a connection with the target host and obtain first MAC address information of the target host.
A "wireless network switch" is a soft switch in a mobile terminal setting, and the wireless network switch is first turned on to make a wireless connection, while the host side typically defaults to turning on the wireless connection. After the mobile terminal starts the wireless connection function, it starts to search the external wireless network signal source, which can be specifically divided into the following two cases:
when the wireless connection is carried out with the target host for the first time, a user can manually select a target signal source corresponding to a Service Set Identifier (SSID) of the target host, manually input a wireless connection password and request to establish connection with the target host; after the target host computer verifies that the wireless connection password passes, the mobile terminal establishes primary connection with the target host computer, and stores the SSID of the target host computer and the wireless connection password as a list file in a key value pair mode; and meanwhile, first MAC address information of the target host is obtained.
If wireless connection with a target host is not performed for the first time, after a plurality of surrounding signal sources are searched, the mobile terminal can read a stored list file according to a last-in first-out mode and perform polling matching with the plurality of signal sources according to the list file, wherein the list file comprises SSIDs of the plurality of hosts corresponding to the plurality of signal sources and a plurality of wireless connection passwords corresponding to the plurality of SSIDs; and then, taking the host corresponding to the successfully matched signal source as a target host, establishing primary connection with the target host, and simultaneously acquiring first MAC address information of the target host.
And a determining module 42, configured to determine a type of the target host according to the first MAC address information, and determine a target operating mode of the mobile terminal according to the type of the target host, where different types of target hosts correspond to different target operating modes.
In some optional embodiments of the present application, after the first MAC address information of the target host is obtained, whether the target host is a vehicle-mounted host or a home host may be determined according to the first MAC address information; then, second MAC address information of the mobile terminal can be determined; then, white list verification is carried out according to the first MAC address information and the second MAC address information to obtain a first verification result; when the first check result is that the check is successful, the secret key certificate can be checked according to the first MAC address information and the second MAC address information to obtain a second check result; and finally, determining the connection level of the mobile terminal and the target host according to the first check result and the second check result.
Specifically, when checking a white list, firstly checking whether first MAC address information is in the white list set by the mobile terminal; meanwhile, the mobile terminal sends the second MAC address information to the target host, and the target host is used for verifying whether the second MAC address information is in a white list set by the target host; if the first MAC address information exists in a white list set by the mobile terminal and the second MAC address information exists in a white list set by the target host, determining that the first verification result is successful; otherwise, determining that the first verification result is verification failure.
When the mobile terminal and the host are produced and off-line, a unique key certificate file is implanted, and the key certificate file generally includes two types: the vehicle-mounted certificate file and the family certificate file, and the key certificate file can be bound and authenticated through a unified background or cloud server.
Therefore, when the secret key certificate is verified, the mobile terminal firstly obtains a first secret key certificate built in the target host and verifies the first secret key certificate; meanwhile, a second secret key certificate corresponding to the target host and built in the mobile terminal is determined according to the first MAC address information, the second secret key certificate is sent to the target host, and the target host is used for verifying the second secret key certificate. For example, if the target host is a vehicle-mounted host, the mobile terminal calls a vehicle-mounted certificate file in advance, requests the vehicle-mounted host to prepare a corresponding vehicle-mounted certificate file, and then performs key certificate verification respectively; if the target host is the home host, the mobile terminal calls the home certificate file in advance, requests the home host to prepare the corresponding home certificate file, and then performs key certificate verification respectively. When the first secret key certificate is successfully verified and the target host successfully verifies the second secret key certificate, determining that the second result is successful in verification; otherwise, determining that the second result is verification failure.
After the white list verification and the key certificate verification are sequentially completed, the working mode of the mobile terminal can be determined according to the verification result. In some optional embodiments of the present application, it may be determined that the initial operating mode of the mobile terminal is the vehicle-mounted mode, and if the first verification result is a verification failure, the target operating mode of the mobile terminal is switched to the outdoor mode in response to the switching instruction of the target object; if the first verification result is successful, the second verification result is successful, the target host type is a home host, and the target working mode of the mobile terminal is switched to the home mode in response to the switching instruction of the target object; otherwise, determining that the target working mode of the mobile terminal is the vehicle-mounted mode.
Specifically, the default mobile terminal works in a vehicle-mounted mode; when the white list is not checked, a popup window can remind a user whether the current working mode needs to be switched to an outdoor mode, if the user selects no, the target working mode is kept in a vehicle-mounted mode, and if the user selects yes or the operation is not carried out within a preset time (such as 5s), the target working mode is switched to the outdoor mode; when the white list verification and the key certificate verification are both passed, if the type of the target host is the home host, a popup can remind a user whether to switch the current working mode to the home mode, if the user selects no, the target working mode is kept in the vehicle-mounted mode, and if the user selects yes or does not operate within the preset time, the target working mode is switched to the home mode; and under the other conditions, determining that the target working mode of the mobile terminal is the vehicle-mounted mode.
Optionally, when the first verification result is that the verification is successful and the type of the target host is the home host, the target working mode of the mobile terminal may be switched to the home mode in response to a switching instruction of the target object. If the white list is verified to be passed and the target host is the home host, the popup can remind the user whether the current working mode needs to be switched to the home mode, if the user selects no, the target working mode is kept in the vehicle-mounted mode, and if the user selects yes or the operation is not performed within the preset time, the target working mode is switched to the home mode.
In some optional embodiments of the present application, after completing the white list verification and the key certificate verification in sequence, the connection level between the mobile terminal and the target host may also be determined according to a verification result, specifically:
and when the first verification result is verification failure, namely the white list verification fails, which indicates that the target host is an unauthenticated vehicle-mounted host or a household host and lacks security, the mobile terminal and the target host keep a first-level connection state, and the mobile terminal can only acquire network traffic through the target host in the connection state.
When the first verification result is successful verification and the second verification result is failed verification, namely the white list verification is passed but the key certificate verification is not passed, the certain safety is indicated, a second-stage connection state is established between the mobile terminal and the target host, and the mobile terminal controls part of vehicle functions or part of household equipment functions through the target host in the connection state. For example, in the vehicle mode, the mobile terminal may control vehicle entertainment functions, such as bluetooth, audio playing, and the like; in the home mode, the mobile terminal can control part of the household equipment with lower security level, and the specific safety level of the household equipment can be defined by a user.
And when the first verification result is successful verification and the second verification result is successful verification, namely the white list verification and the secret key certificate verification are passed, the safety is higher, and the mobile terminal and the target host establish a third-level connection state, wherein in the third-level connection state, the mobile terminal controls all vehicle functions or all household equipment functions through the target host.
Optionally, when the type of the target host is the in-vehicle host, the type of the mobile terminal may be further determined according to the second MAC address information, where the type of the mobile terminal includes: the system comprises a first type mobile terminal with partial vehicle function control authority or a second type mobile terminal with all vehicle function control authority; when the type of the mobile terminal is a first type mobile terminal, the mobile terminal and the target host establish a second-level connection state; and when the type of the mobile terminal is the second type of mobile terminal, establishing a third-level connection state between the mobile terminal and the target host.
Specifically, after the white list verification and the key certificate verification are both passed, the identity information of the mobile terminal can be determined, if the mobile terminal is a commonly-used driving mobile terminal or a second-class mobile terminal such as other authorized mobile terminals, the mobile terminal has all vehicle function control authorities, and a third-level connection state can be established with the target host; if the mobile terminal is the first type mobile terminal with uncertain identity, the mobile terminal only has partial vehicle function control authority, and can only establish the second-level connection state with the target host, even for safety consideration, the mobile terminal can be set to establish the first-level connection state only.
And a configuration module 44, configured to invoke a target application configuration corresponding to the target operating mode, where the target application configuration includes an application having a usage right in the target operating mode.
After the target working mode is determined, system application resources can be automatically configured according to the corresponding application ecology, and the occupancy rate of the system resources is reduced by forbidding some applications which are not suitable for the current mode, so that the mobile terminal can be used in various scenes, and meanwhile, the fluency and the portability of the system are effectively guaranteed with lower hardware cost, and the use satisfaction degree of a user is improved.
Specifically, applications in the mobile terminal may be classified first to obtain a vehicle-mounted application for controlling a vehicle, a home application for controlling home equipment, and an outdoor application for an outdoor entertainment function. Wherein, on-vehicle application mainly includes: vehicle body setting, vehicle-mounted air conditioner control, vehicle-mounted navigation control, vehicle-mounted voice control and other applications related to vehicle control; the home applications mainly include: the application of household equipment control, such as voice control, air conditioner control, television control, home theater control, home camera control and the like, relates to the household equipment control; outdoor applications mainly include: weather forecast, map navigation, entertainment audio-visual, live broadcast and other outdoor entertainment applications. Optionally, other customized applications, such as WeChat, QQ, games, etc., are also included according to the performance of the mobile terminal SOC.
In different working modes, a core application (namely, an application which must be configured), a prohibited application (namely, an application which is prohibited from being configured) and an optional application (namely, an application which can be selected to be configured according to user requirements) can be respectively set, wherein:
when the target working mode is the vehicle-mounted mode, the target application configuration at least includes the vehicle-mounted application and does not include the home application, specifically, the core application in the vehicle-mounted mode includes the vehicle-mounted application, the prohibited application includes the home application, and the selectable application includes the custom application.
When the target working mode is the home mode, the target application configuration at least includes the home application and does not include the in-vehicle application, specifically, the core application in the home mode includes the home application, the prohibited application includes the in-vehicle application, and the selectable application includes the custom application.
When the target working mode is the outdoor mode, the target application configuration includes an outdoor application, and does not include a vehicle-mounted application and a home application, specifically, the core application in the outdoor mode includes the outdoor application, the prohibited application includes the vehicle-mounted application and the home application, and the optional application includes the custom application.
It should be noted that after the mobile terminal configures the corresponding application according to the target operating mode, not all applications have the usage right, and the connection level between the mobile terminal and the target host needs to be referred to. For example, when the white list is not checked, the user does not select to switch the target operating mode to the outdoor mode, and the mobile terminal still operates in the vehicle-mounted mode at this time, that is, the configured applications mainly include the vehicle-mounted application and the custom application, but because the mobile terminal and the target host are in the first-level connection state, network traffic can only be acquired through the vehicle-mounted host, that is, the vehicle-mounted application cannot control the vehicle function at this time, and only networking applications such as WeChat and QQ in the custom application can be actually used.
It should be noted that, in the embodiment of the present application, each module in the mobile terminal corresponds to the implementation step of the application configuration method in embodiment 1 one to one, and since the detailed description is already performed in embodiment 1, some details that are not shown in this embodiment may refer to embodiment 1, and are not described herein again.
Example 3
According to an embodiment of the present application, a non-volatile storage medium is further provided, where the non-volatile storage medium includes a stored program, and when the program runs, a device in which the non-volatile storage medium is located is controlled to execute the above application configuration method.
Optionally, the apparatus in which the non-volatile storage medium is controlled when the program is running executes the following steps: establishing connection with a target host, and acquiring first MAC address information of the target host; determining the type of a target host according to the first MAC address information, and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes; and calling a target application configuration corresponding to the target working mode, wherein the target application configuration comprises an application with a use permission in the target working mode.
The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments.
In the above embodiments of the present application, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.
In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, a division of a unit may be a division of a logic function, and an actual implementation may have another division, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or may not be executed. In addition, the shown or discussed mutual coupling or direct coupling or connection may be an indirect coupling or connection through some interfaces, units or modules, and may be in an electrical or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method of the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.
The foregoing is only a preferred embodiment of the present application and it should be noted that those skilled in the art can make several improvements and modifications without departing from the principle of the present application, and these improvements and modifications should also be considered as the protection scope of the present application.

Claims (10)

1. An application configuration method, comprising:
establishing connection with a target host, and acquiring first MAC address information of the target host;
determining the type of the target host according to the first MAC address information, and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes;
and calling a target application configuration corresponding to the target working mode, wherein the target application configuration comprises an application with a use permission in the target working mode.
2. The method of claim 1,
the target host type includes: the system comprises a vehicle-mounted host used for controlling vehicle functions or a home host used for controlling home equipment functions;
the target operating mode includes: the home entertainment system comprises a vehicle-mounted mode corresponding to the vehicle-mounted host, a home mode corresponding to the home host, or an outdoor mode providing an outdoor entertainment function.
3. The method of claim 2, wherein after determining the target host type from the first MAC address information, the method further comprises:
determining second MAC address information of the mobile terminal;
performing white list verification according to the first MAC address information and the second MAC address information to obtain a first verification result;
when the first check result is successful, performing key certificate check according to the first MAC address information and the second MAC address information to obtain a second check result;
and determining the connection level of the mobile terminal and the target host according to the first check result and the second check result.
4. The method of claim 3, wherein performing a white list check according to the first MAC address information and the second MAC address information to obtain a first check result, comprises:
checking whether the first MAC address information is in a white list set by the mobile terminal;
sending the second MAC address information to the target host, wherein the target host is used for verifying whether the second MAC address information is in a white list set by the target host;
when the first MAC address information exists in a white list set by the mobile terminal and the second MAC address information exists in the white list set by the target host, determining that the first verification result is successful; otherwise, determining that the first verification result is verification failure.
5. The method according to claim 3, wherein determining the connection level between the mobile terminal and the target host according to the first and second verification results comprises:
when the first verification result is verification failure, the mobile terminal and the target host keep a first-level connection state, wherein in the first-level connection state, the mobile terminal obtains network traffic through the target host;
when the first verification result is successful and the second verification result is failed, establishing a second-level connection state between the mobile terminal and the target host, wherein in the second-level connection state, the mobile terminal controls part of vehicle functions or part of household equipment functions through the target host;
and when the first verification result is successful verification and the second verification result is successful verification, the mobile terminal and the target host establish a third-level connection state, wherein in the third-level connection state, the mobile terminal controls all vehicle functions or all household equipment functions through the target host.
6. The method of claim 5, wherein when the first verification result is verification success and the second verification result is verification success, the method further comprises:
when the type of the target host is the vehicle-mounted host, determining the type of the mobile terminal according to the second MAC address information, wherein the type of the mobile terminal comprises: the system comprises a first type mobile terminal with partial vehicle function control authority or a second type mobile terminal with all vehicle function control authority;
when the type of the mobile terminal is the first type of mobile terminal, the mobile terminal and the target host establish the second-level connection state;
and when the type of the mobile terminal is the second type of mobile terminal, the mobile terminal and the target host establish the third-level connection state.
7. The method of claim 3, wherein determining the target operating mode of the mobile terminal according to the target host type comprises:
determining that the initial working mode of the mobile terminal is the vehicle-mounted mode;
if the first verification result is verification failure, responding to a switching instruction of a target object, and switching the target working mode of the mobile terminal into the outdoor mode;
if the first verification result is successful verification, the second verification result is successful verification, and the target host type is the home host, responding to a switching instruction of the target object, and switching the target working mode of the mobile terminal to the home mode;
otherwise, determining the target working mode of the mobile terminal as the vehicle-mounted mode.
8. The method of claim 7, wherein invoking a target application configuration corresponding to the target operating mode comprises:
classifying the applications in the mobile terminal to obtain vehicle-mounted applications for controlling vehicles, home applications for controlling household equipment and outdoor applications for outdoor entertainment functions;
when the target working mode is the vehicle-mounted mode, the target application configuration at least comprises the vehicle-mounted application and does not comprise the home application;
when the target working mode is the home mode, the target application configuration at least comprises the home application and does not comprise the vehicle-mounted application;
and when the target working mode is the outdoor mode, the target application configuration comprises the outdoor application and does not comprise the vehicle-mounted application and the family application.
9. A mobile terminal, comprising:
the connection module is used for establishing connection with a target host and acquiring first MAC address information of the target host;
the determining module is used for determining the type of the target host according to the first MAC address information and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes;
and the configuration module is used for calling the target application configuration corresponding to the target working mode, wherein the target application configuration comprises the application with the use permission in the target working mode.
10. An application configuration system, comprising:
the system comprises a target host, a mobile terminal and a server, wherein the target host is used for establishing connection with the mobile terminal and providing first MAC address information of the target host, and different types of target hosts are used for providing different control functions;
the mobile terminal is used for establishing connection with the target host and acquiring the first MAC address information; determining the type of the target host according to the first MAC address information, and determining a target working mode of the mobile terminal according to the type of the target host, wherein different types of target hosts correspond to different target working modes; and calling a target application configuration corresponding to the target working mode, wherein the target application configuration comprises an application with a use permission in the target working mode.
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