CN108712280B - Network function management method and device, storage medium and intelligent terminal - Google Patents

Abstract

The embodiment of the application discloses a network function management method, a network function management device, a storage medium and an intelligent terminal. The method comprises the following steps: when a use request of a first network function is detected, state information of a second network function which is different from the first network function is obtained; determining the number of target intelligent terminals according to the state information, wherein the target intelligent terminals comprise external intelligent terminals which establish communication connection with the current intelligent terminals through the second network function; and managing the first network function and the second network function according to the number, avoiding the situation that the use of the first network function is forbidden due to use conflict under the scene that the second network function is opened but data transmission does not occur, and improving the utilization rate of the WiFi channel.

Description

Network function management method and device, storage medium and intelligent terminal

Technical Field

The embodiment of the application relates to a wireless communication technology, in particular to a network function management method, a network function management device, a storage medium and an intelligent terminal.

Background

In general, an intelligent terminal supporting WiFi communication may have a Soft AP function or a WiFi point-to-point connection function, and the two functions are independent and mutually exclusive. That is to say, when the intelligent terminal provides the WiFi bridging function, if the WiFi point-to-point connection function is to be used at this moment, the use conflict may occur to the WiFi point-to-point connection function and the WiFi bridging function, and then, the phenomenon that both the two types of functions cannot be used may occur, and the utilization rate of the WiFi channel is reduced.

Disclosure of Invention

The embodiment of the application provides a network function management method, a network function management device, a storage medium and an intelligent terminal, which can optimize technical schemes in related technologies and improve the utilization rate of a WiFi channel.

In a first aspect, an embodiment of the present application provides a method for managing a network function, including:

when a use request of a first network function is detected, state information of a second network function of a different type from the first network function is acquired, wherein the types of the first network function and the second network function respectively comprise a soft AP function or a WiFi point-to-point connection function of accessing an access point through software;

determining the number of target intelligent terminals according to the state information, wherein the target intelligent terminals comprise external intelligent terminals which establish communication connection with the current intelligent terminals through the second network function;

and managing the first network function and the second network function according to the number.

In a second aspect, an embodiment of the present application further provides an apparatus for managing a network function, where the apparatus includes:

the system comprises an information acquisition module, a first network function and a second network function, wherein the information acquisition module is used for acquiring state information of the second network function which is different from the first network function when a use request of the first network function is detected, and the types of the first network function and the second network function respectively comprise a soft AP function or a WiFi point-to-point connection function of accessing an access point through software;

the quantity determining module is used for determining the quantity of target intelligent terminals according to the state information, wherein the target intelligent terminals comprise external intelligent terminals which establish communication connection with the current intelligent terminals through the second network function;

and the function management module is used for managing the first network function and the second network function according to the number.

In a third aspect, an embodiment of the present application further provides a computer-readable storage medium, on which a computer program is stored, and the computer program, when executed by a processor, implements the method for managing a network service according to the first aspect.

In a fourth aspect, an embodiment of the present application further provides an intelligent terminal, including a memory, a processor, and a computer program stored on the memory and executable on the processor, where the processor executes the computer program to implement the method for managing a network service according to the first aspect.

The embodiment of the application provides a management scheme of network functions, which is characterized in that when a use request of a first network function is detected, state information of a second network function different from the first network function is acquired; if the second network function is in an open state, counting the number of target intelligent terminals which establish communication connection with the current intelligent terminal through the second network function; and managing the closing and starting of the first network function and the second network function according to the number, avoiding the situation that the use of the first network function is forbidden due to use conflict under the scene that the second network function is opened but data transmission does not occur, and improving the utilization rate of the WiFi channel.

Drawings

Fig. 1 is a flowchart of a method for managing network functions according to an embodiment of the present application;

fig. 2 is a flowchart of another management method for network functions according to an embodiment of the present application;

fig. 3 is a flowchart of a method for managing network functions according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a network function management apparatus according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of an intelligent terminal provided in an embodiment of the present application;

fig. 6 is a block diagram of a smart phone according to an embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures.

Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the steps as a sequential process, many of the steps can be performed in parallel, concurrently or simultaneously. In addition, the order of the steps may be rearranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

It should be noted that, when the first network function is the soft AP function of accessing the access point through the software program, the second network function is the WiFi point-to-point connection function. Similarly, when the first network function is a WiFi point-to-point connection function, the second network function is a soft AP function that implements access to an access point through a software program.

The soft AP function represents a function of implementing Access Point through a software program, including but not limited to a WiFi bridging function and a personal hotspot. The WiFi bridging function may be that the main client establishes a private sub-lan with a relatively clean and safe wireless air environment in a set space, and is responsible for data transmission with the sub-clients participating in the sub-lan. The personal hotspot may be a wireless Access Point (AP) accessed by the current intelligent terminal through a WiFi module, and may be accessed to the internet through the AP. The WiFi point-to-point connection function can be realized by directly establishing a TCP/IP link between two intelligent terminals supporting the WiFi function without participation of an AP. For example, WiFi direct (or referred to as WLAN direct), WiFi display, OPPO mutual transmission, DLNA (Digital Living Network Alliance), and NFC Beam of MTK platform are all implemented based on WiFi point-to-point connection function. It should be noted that names of other functions implemented by different intelligent terminal manufacturers based on the WiFi point-to-point connection function may be different, and are not necessarily the above-listed ones.

It should be noted that the Soft AP implementation flow includes: and detecting the current state of the WiFi, if the WiFi is being switched on or is switched on, switching off the WiFi and recording the state, so that when the soft AP is switched off, the state of switching on the WiFi is automatically recovered. And loading a driver corresponding to the Soft AP, and after the driver is loaded successfully, migrating the system to an mDriverLoadedState state. The SoftApStartingState detects the validity of the parameters passed by the upper layer, calls startSoftApWithConfig to configure the SofAp, and opens the SoftAP function after the configuration is completed. And when detecting a use request of the softAP function sent by the external intelligent terminal, the target intelligent terminal verifies the AP name and the password, and if the verification is passed, the external intelligent terminal is allowed to access the target intelligent terminal through the softAP function.

The implementation process of the WiFi point-to-point connection function comprises the following steps: creating a BroadcastReceiver class for monitoring the change of the WiFi point-to-point connection state of the system; calling a discover peers () method to initialize the searching operation of the peer points, and generating a peer point list according to the result of the searching operation; the following function wifi directmanager.

In the related art, the smart terminal usually provides a Soft AP function or a WiFi peer-to-peer connection function, but the two functions are mutually exclusive, that is, when the Soft AP function is turned on but is not used by an external smart terminal (that is, no data packet is transmitted from the current smart terminal to the external smart terminal through the Soft AP function), if a request for using the WiFi peer-to-peer connection function is detected, the Soft AP function may be turned on, so that the request cannot be responded. That is, even if there is a WiFi channel that is idle at this time, the usage request is not responded, resulting in a low utilization rate of the WiFi channel.

Based on the technical problem, the application provides a management scheme of network functions, which can optimize the schemes in the related technology and improve the utilization rate of WiFi channels.

Fig. 1 is a flowchart of a method for managing network functions according to an embodiment of the present application, where the method may be performed by a management device of a network service, where the device may be implemented by software and/or hardware, and may be generally integrated in an intelligent terminal. As shown in fig. 1, the method includes:

step 110, when a request for using a first network function is detected, obtaining status information of a second network function of a different type from the first network function.

The first network function may be a soft AP function (WiFi bridge or personal hotspot) or a WiFi point-to-point connection function, and the second network function may be a WiFi point-to-point connection function or a soft AP function (WiFi bridge or personal hotspot). Taking the WiFi bridging function as an example, the usage request includes an enabling event requesting to enable the WiFi bridging function. Similarly, taking the personal hotspot function as an example, the usage request includes an enabling event requesting the enablement of the personal hotspot function. Further, for the WiFi point-to-point connection function, the request for use includes an initiating event or a request for connection event of the WiFi point-to-point connection function.

Illustratively, the status information of the WiFi point-to-point connection function is acquired when an enabling event of the WiFi bridging function is received. Alternatively, the status information of the WiFi bridging function is obtained when an initiating event or a connection request event of the WiFi point-to-point connection function is detected. It should be noted that the state information here may include an open state/a closed state, and may further include a function identifier stored in association with a terminal identifier of an external smart terminal in the open state. For example, if the soft AP function is detected to be started, it is determined according to a set period whether there is an operation of communicating with an external smart terminal through the second network function. Whether an operation of communicating with an external intelligent terminal through a second network function exists or not can be judged in the following way: firstly, reading a preset identification bit according to a set period. When the current intelligent terminal establishes communication connection with an external intelligent terminal, the value of the preset identification bit is automatically set to 1, otherwise, the value of the preset identification bit is 0. And when the value of the preset identification bit is read to be 1, determining that the operation of communicating with the external intelligent terminal through the second network function exists. And when the value of the preset identification bit is read to be 0, determining that no operation of communicating with an external intelligent terminal through a second network function exists. And secondly, monitoring whether the two WiFi channels have transmission operation of data packets or not, and if so, determining that the operation of communicating with an external intelligent terminal through a second network function exists. And if the operation of communicating with the external intelligent terminal through the second network function exists, the function identification of the second network function and the terminal identification of the external intelligent terminal are stored in an associated manner and serve as the state information of the second network function.

And step 120, determining the number of the target intelligent terminals according to the state information.

It should be noted that the target intelligent terminal includes an external intelligent terminal that establishes a communication connection with the current intelligent terminal through the second network function.

And if the soft AP function is detected to be opened, acquiring a terminal identifier of a target intelligent terminal which establishes communication with the current intelligent terminal through the soft AP function, storing the terminal identifier and the function identifier by associating a preset white list, and storing the preset white list in a preset cache.

Illustratively, when a use request of the WiFi point-to-point connection function is detected, a preset white list in a preset cache is inquired according to a function identifier of the soft AP function, a terminal identifier of an external intelligent terminal which establishes communication with a current intelligent terminal through the soft AP function is determined, and the number of the terminal identifiers is counted to serve as the number of target intelligent terminals. And if the soft AP function of the current intelligent terminal is continuously connected by different external intelligent terminals, respectively recording the terminal identification of each external intelligent terminal, and accumulating.

Similarly, if the WiFi point-to-point connection function is detected to be turned on, the terminal identification of the target intelligent terminal which establishes communication with the current intelligent terminal through the WiFi point-to-point connection function is obtained, the terminal identification and the function identification are stored in a preset white list in an associated mode, and the preset white list is stored in a preset cache.

Optionally, when a use request of the soft AP function is detected, the terminal identifier of the external intelligent terminal associated with the WiFi point-to-point connection function is queried according to the function identifier of the WiFi point-to-point connection function, and the number of the terminal identifiers is counted as the number of the target intelligent terminals.

And step 130, managing the first network function and the second network function according to the number.

And judging whether the quantity is smaller than a preset value. The preset value may be a default value of the system, for example, the preset value may be 1, that is, the soft AP function or the WiFi point-to-point connection function is in an open state, but there is no operation of communicating with the external intelligent terminal through the soft AP function or the WiFi point-to-point connection function.

For example, if the number is smaller than a preset value, that is, the number of external intelligent terminals with which the soft AP function is turned on but with which communication connection is established is 0, if a request for using the WiFi point-to-point connection function is detected, the soft AP function is turned off, and the WiFi point-to-point connection function is started in response to the request for using the WiFi point-to-point connection function.

If the number exceeds a preset value, namely the number of external intelligent terminals which are turned on by the soft AP function and establish communication connection with the soft AP function is larger than or equal to 1, and if the using request of the WiFi point-to-point connection function is detected at the moment, a preset strategy is adopted for processing. The preset strategy can be processed in a processing mode defined by an android system, or the use request is not responded, or the preset strategy is processed according to the priority relation between the soft AP function and the WiFi point-to-point connection function, and the like.

If the number is smaller than the preset value, that is, the number of the external intelligent terminals with which the WiFi point-to-point connection function is opened but communication connection is established is 0, if the use request of the soft AP function is detected, the WiFi point-to-point connection function is closed, the use request of the soft AP function is responded, and the soft AP function is started.

If the number exceeds a preset value, namely the number of the external intelligent terminals with the WiFi point-to-point connection function opened and the communication connection established with the WiFi point-to-point connection function is larger than or equal to 1, and if the use request of the soft AP function is detected at the moment, a preset strategy is adopted for processing. The preset strategy can be processed in a processing mode defined by an android system, or the use request is not responded, or the preset strategy is processed according to the priority relation between the soft AP function and the WiFi point-to-point connection function, and the like.

It should be noted that the priority relationship between the first network function and the second network function may be determined through a preset white list. For example, the priority relationship between the soft AP function and the WiFi point-to-point connection function may be determined through a preset white list. WiFi point-to-point connection functions with priority higher than that of the Soft AP function are stored in the preset white list. The preset white list can store a WiFi point-to-point connection function with a higher priority than the WiFi bridging function and a WiFi point-to-point connection function with a higher priority than the personal hotspot function. Or, two preset white lists are adopted to respectively store the WiFi point-to-point connection function with the priority higher than the WiFi bridging function and the WiFi point-to-point connection function with the priority higher than the personal hotspot function. It should be noted that, the WiFi point-to-point connection function with a priority higher than the soft AP function is stored in the preset white list, and may be identification information such as a process name of the WiFi point-to-point connection function.

If the number exceeds a preset numerical value, inquiring a preset white list according to the function identification of the WiFi point-to-point connection function, and determining the priority relation between the soft AP function and the WiFi point-to-point connection function according to an inquiry result. For example, if the WiFi point-to-point connection function belongs to the preset white list, it is determined that the priority of the WiFi point-to-point connection function is higher than the priority of the soft AP function.

Optionally, the intelligent terminal may provide a user with a switch option of the preset white list, for example, add a switch button of the preset white list on the setting page. And if the opening instruction aiming at the switch button is detected, determining to start a preset white list, and if not, forbidding the preset white list.

Optionally, the modification right of the preset white list may be opened to the user, including an addition right or a deletion right. For example, if WiFi direct connection or OPPO mutual transmission is stored in the preset white list, it is considered that the priority of the two WiFi point-to-point connection services is higher than the WiFi bridging function. And if the user operation of adding the WiFi display to the preset white list is detected, responding to the user operation and adding the WiFi display to the preset white list. Optionally, when the user operation of adding the WiFi display to the preset white list is detected, the identity of the user corresponding to the user operation may also be verified. Illustratively, when an adding operation of adding a service included in the WiFi point-to-point connection function to a preset white list is detected, or a service included in the WiFi point-to-point connection function is deleted from the preset white list, a face image is obtained by shooting a face of a user through a camera. And matching the facial image with a preset reference facial image of a user with an operation authority, if the matching is successful, determining that the user has a modification authority of a preset white list, otherwise, determining that the user does not have the modification authority of the preset white list. And the intelligent terminal judges whether to respond to the user operation of adding or deleting the service in the preset white list according to the identity verification result.

Alternatively, the first network function and the second network function which are sorted according to the priority are stored in the preset white list. The preset white list is inquired according to the identification information of the first network function and the second network function respectively, so that the priority relation between the first network function and the second network function can be determined.

Illustratively, the second network function is turned off when the priority of the first network function is higher than the priority of the second network function, and the first network function is started in response to the request for use of the first network function. Optionally, before the second network function is closed, the method may further include acquiring identity information of the user, performing an authentication operation according to the identity information, and if the authentication is passed, closing the second network function. The identity information includes a face or an iris, etc. For example, a face image is obtained by photographing a face of a user with a camera. And matching the face image with a preset reference face image, and if the matching is successful, determining that the authentication is passed. Correspondingly, when the priority of the first network function is lower than that of the second network function, the second network function is enabled to maintain the starting state, and the prompt message that the current channel is occupied is output.

According to the technical scheme of the embodiment, when a use request of a first network function is detected, state information of a second network function different from the first network function is acquired; if the second network function is in an open state, counting the number of target intelligent terminals which establish communication connection with the current intelligent terminal through the second network function; and managing the closing and starting of the first network function and the second network function according to the number, avoiding the situation that the use of the first network function is forbidden due to use conflict under the scene that the second network function is opened but data transmission does not occur, and improving the utilization rate of the WiFi channel.

Fig. 2 is a flowchart of another network function management method according to an embodiment of the present application. As shown in fig. 2, the method includes:

step 201, when detecting the use request of the WiFi point-to-point connection function, acquiring the state information of the soft AP function.

And detecting a switch option corresponding to the soft AP function, and judging whether the soft AP function is opened or not according to the state of the switch option. When detecting that the switch option corresponding to the soft AP is opened, judging that the soft AP function is started, judging whether the operation of communicating with an external intelligent terminal through the soft AP function exists according to a set period, if so, associating and storing a function identifier of the soft AP function and a terminal identifier of the external intelligent terminal, and using the function identifier as state information of the soft AP function. The function identification of the soft AP function and the terminal identification of the external intelligent terminal can be stored in a preset white list in an associated mode.

Alternatively, when the switch option corresponding to the soft AP is detected to be opened, the soft AP function is judged to be started, whether the operation of communicating with an external intelligent terminal through the soft AP function exists is judged according to a set period, if yes, the connection number is determined according to the terminal identification of the external intelligent terminal, and the state of the switch option corresponding to the soft AP and the connection number are used as the state information of the soft AP function. It should be noted that, if the number of times of the continuous occurrence of the condition that the connection number is equal exceeds the set number threshold, it indicates that the external intelligent terminal connected to the current intelligent terminal is relatively stable, the determination period is extended, so as to reduce power consumption.

And step 202, determining the number of target intelligent terminals according to the state information.

And step 203, judging whether the quantity is smaller than a preset value, if not, executing step 204, otherwise, executing step 206.

Step 204, determining whether the WiFi point-to-point connection function belongs to a preset white list, if so, executing step 205, otherwise, executing step 207.

Illustratively, when the soft AP function is in an on state and the current intelligent terminal is connected to an external intelligent terminal through the soft AP function, a preset white list is queried according to a function identifier of the WiFi point-to-point connection function, and whether the WiFi point-to-point connection function belongs to the preset white list is determined, wherein the preset white list stores therein the WiFi point-to-point connection function having a higher priority than the soft AP function, and optionally, the preset white list may store therein the WiFi point-to-point connection function having a higher priority than the WiFi bridge function and the WiFi point-to-point connection function having a higher priority than the personal hotspot function. And if the point-to-point connection function belongs to the preset white list according to the WiFi, determining that the priority of the point-to-point connection function of the WiFi is higher than that of the soft AP function.

Step 205, determining that the priority of the WiFi point-to-point connection function is higher than the priority of the soft AP function.

And if the WiFi point-to-point connection function belongs to a preset white list, determining that the priority of the WiFi point-to-point connection function is higher than that of the soft AP function. That is, when the soft AP function currently in an open state is the WiFi bridging function, if the WiFi point-to-point connection function belongs to the preset white list, it is determined that the priority of the WiFi point-to-point connection function is higher than that of the WiFi bridging function. When the soft AP function in the current open state is the personal hotspot function, if the WiFi point-to-point connection function belongs to a preset white list, the priority of the WiFi point-to-point connection function is determined to be higher than that of the personal hotspot function.

And step 206, closing the soft AP function, responding to the use request of the WiFi point-to-point connection function, and starting the WiFi point-to-point connection function.

On the one hand, when the soft AP function is in an open state but the current intelligent terminal is not connected with the external intelligent terminal through the soft AP function, the soft AP function is controlled to be closed. And responding to an initiating event or a connection requesting event of the WiFi point-to-point connection function, and automatically starting the WiFi point-to-point connection function.

On the other hand, when the soft AP function is in an open state and the current intelligent terminal is connected with the external intelligent terminal through the soft AP function, if the priority of the WiFi point-to-point connection function is higher than that of the soft AP function, the soft AP function is controlled to be closed, and the broadcast of the closed soft AP function is sent to inform other intelligent terminals that the soft AP function is closed. In addition, the WiFi point-to-point connection function is automatically started in response to an initiating event or a connection requesting event of the WiFi point-to-point connection function.

It should be noted that, in some examples, if the intelligent terminal itself initiates the WiFi display service, the OPPO interchange service request sent by another intelligent terminal is also received, if there is no operation of communicating with the external intelligent terminal through the WiFi bridging function, the preset white list is matched, and it is determined whether to start the OPPO interchange service or the WiFi display service according to the priority ranking of the WiFi point-to-point connection function in the preset white list. It should be noted that, at this time, the preset white list stores the WiFi point-to-point connection function with a higher priority than the WiFi bridging function, and the stored WiFi point-to-point connection functions are sorted according to the priority.

If the intelligent terminal initiates a WiFi display service, OPPO mutual transmission service requests sent by other intelligent terminals are received, if the operation of communication with an external intelligent terminal through a WiFi bridging function exists, a preset white list is matched, the OPPO mutual transmission is determined to belong to the preset white list, the WiFi display does not belong to the preset white list, the WiFi bridging function is closed, and the OPPO mutual transmission is started.

And step 207, determining that the priority of the WiFi point-to-point connection function is lower than that of the soft AP function.

And if the WiFi point-to-point connection function does not belong to a preset white list, determining that the priority of the WiFi point-to-point connection function is lower than that of the soft AP function.

And step 208, maintaining the soft AP function in an open state, and outputting the prompt information that the current WiFi channel is occupied.

And when the priority of the WiFi point-to-point connection function is lower than that of the soft AP function, refusing to respond to the use request of the WiFi point-to-point connection function, and maintaining the soft AP function in an open state. The user can be reminded that the current WiFi channel is occupied by the soft AP function in a pop-up window mode, and the WiFi point-to-point connection function can be started only by closing the soft AP function. And clicking the pop-up window to directly enter a setting interface so that a user can close the soft AP function on the setting interface, and the operation flow of the user is simplified. Optionally, when it is detected that the user clicks a confirmation key in the pop-up window, the pop-up box is closed, and the soft AP function is automatically closed.

For example, when the soft AP function is in an open state and the current intelligent terminal is connected to the external intelligent terminal through the soft AP function, if a request for initiating the OPPO mutual transmission is detected, the preset white list is queried, and whether the preset white list contains the OPPO mutual transmission service is determined according to a query result. If yes, determining that the priority of the service is higher than the soft AP function, automatically closing the soft AP function, namely automatically disconnecting the network connection between the intelligent terminal and other intelligent terminals, and not being used as a repeater or AP for accessing other intelligent terminals to the Internet, and automatically executing the OPPO mutual transmission service, for example, canceling the occupation authority of the soft AP function to a WiFi channel, enabling the OPPO mutual transmission to occupy the channel, and executing the OPPO mutual transmission service.

If the current intelligent terminal is connected with the external intelligent terminal through the soft AP function, if a using request for initiating the WiFi display service is detected, inquiring a preset white list, and judging whether the preset white list contains the WiFi display service according to an inquiring result. If not, determining that the priority of the WiFi display service is lower than that of the soft AP function, refusing to respond to the using request of the WiFi display service, enabling the soft AP function to maintain an open state, and reminding a user through a pop-up box that the current WiFi channel is occupied by the soft AP function, and requesting to close the soft AP function first and then use the WiFi point-to-point connection function.

If the current intelligent terminal is connected with the external intelligent terminal through the soft AP function, if WiFi direct connection service requests sent by other intelligent terminals are received through WiFi broadcast packets, a preset white list is inquired, and whether WiFi direct connection service is contained in the preset white list or not is judged according to an inquiry result. If yes, determining that the priority of the WiFi direct connection service is higher than the soft AP function, automatically closing the soft AP function, namely automatically disconnecting the network connection between the intelligent terminal and other intelligent terminals, not serving as a repeater or AP of other intelligent terminals for accessing the Internet, and automatically executing the WiFi direct connection service.

It can be understood that when the WiFi point-to-point connection function is in an open state and the current intelligent terminal is connected with the external intelligent terminal through the WiFi point-to-point connection function, if the use request of the soft AP function is detected, whether the WiFi channel is preferentially used by the WiFi point-to-point connection function or the soft AP function is preferentially used by the WiFi channel is judged in a similar mode. The WiFi point-to-point connection function is in an open state, but when the current intelligent terminal is not connected with an external intelligent terminal through the WiFi point-to-point connection function, the WiFi point-to-point connection function can be automatically closed, a use request of the soft AP function is responded, and the soft AP function is automatically opened.

According to the technical scheme, when the soft AP function is in an open state but not connected, the use request of the WiFi point-to-point connection function is detected, the soft AP function can be closed, the WiFi channel is preferentially distributed to the WiFi point-to-point connection function for use, it is ensured that a user can use the soft AP function under the condition, and the channel utilization rate is improved. In addition, when the soft AP function is in an open and connected state, the priority relationship between the soft AP function and the WiFi point-to-point connection function is determined through a preset white list, whether a use request of the WiFi point-to-point connection function is responded is determined according to the priority relationship, and the problems that in the related technology, the WiFi point-to-point connection function and the WiFi bridge function are in use conflict and cannot be controlled are solved.

Fig. 3 is a flowchart of a method for managing network functions according to an embodiment of the present application, where as shown in fig. 3, the method includes:

and 301, acquiring a use request of the Soft AP function.

Step 302, obtaining status information of the WiFi point-to-point connection function.

And when a starting event of the Soft AP function is detected, reading the state information of the WiFi point-to-point connection function by a preset cache. It should be noted that, after the WiFi peer-to-peer connection function is started, a counter is started to record the number of target intelligent terminals. And the target intelligent terminal comprises an external intelligent terminal which establishes communication connection with the current intelligent terminal through the second network function. And detecting whether an operation of communicating with an external intelligent terminal through a WiFi point-to-point connection function exists or not according to a set period. If so, acquiring a terminal identifier of the external intelligent terminal, storing the terminal identifier and the function identifier in a correlated manner, adding 1 to the counter, and storing the count value of the counter in a preset cache. And if detecting that a new external intelligent terminal establishes communication with the current intelligent terminal through the WiFi point-to-point connection function, accumulating 1 by the counter.

And step 303, determining the number of external intelligent terminals establishing communication connection with the current intelligent terminal through the WiFi point-to-point connection function according to the state information.

And step 304, judging whether the quantity is smaller than a preset value, if not, executing step 305, otherwise, executing step 308.

And 305, acquiring a first function identifier of the soft AP function and a second function identifier of the WiFi point-to-point connection function.

According to an initiating event of a WiFi point-to-point connection function initiated by the intelligent terminal or a received request service of the WiFi point-to-point connection function, determining a second function identifier of the WiFi point-to-point connection function in an open state, and determining which one of WiFi direct connection, WiFi display, OPPO mutual transmission, DLNA or NFC Beam, it can be understood that the WiFi point-to-point connection function is not limited to the listed ones.

And acquiring a first function identification of the soft AP function which sends the use request, and determining which one of the WiFi bridging function and the personal hotspot is. It is understood that the soft AP function is not limited to the WiFi bridging function and the personal hotspot function, but may be other functions.

Step 306, querying a preset white list according to the first function identifier and the second function identifier, and determining a priority relationship between the first network function and the second network function.

Illustratively, the preset white list is queried according to the first function identifier and the second function identifier, and the priority relation between the WiFi point-to-point connection function and the soft AP function is determined. The priority sequence of the soft AP function and the WiFi point-to-point connection function is stored in the preset white list, namely the WiFi point-to-point connection function and the soft AP function which are sorted according to the priority are stored in the preset white list.

It should be noted that, the modification right of the preset white list is opened to the user. For example, when an updating operation input by a user is detected, a white list updating event is triggered to be executed. And acquiring the priority sequence of the WiFi point-to-point connection function and the Soft AP function contained in the updating operation, and updating the preset white list according to the priority sequence. Optionally, before triggering execution of the white list update event, the identity of the user corresponding to the update operation may be verified, so as to avoid occurrence of a false update.

Step 307, judging whether the priority of the Soft AP function is higher than that of the WiFi point-to-point connection function, if so, executing step 308, otherwise, executing step 309.

Whether the priority of the Soft AP function is higher than that of the WiFi point-to-point connection function or not can be known according to the priority relation between the WiFi point-to-point connection function and the Soft AP function. If the priority of the Soft AP function is higher than that of the WiFi point-to-point connection function, step 308 is executed, otherwise, step 309 is executed.

And step 308, closing the WiFi point-to-point connection function, responding to the use request of the Soft AP function, and starting the Soft AP function.

On the one hand, when the WiFi point-to-point connection function is in an open state but the current intelligent terminal is not connected with an external intelligent terminal through the WiFi point-to-point connection function, the WiFi point-to-point connection function is controlled to be closed. And responding to the use request of the soft AP function, and automatically starting the soft AP function.

On the other hand, when the WiFi point-to-point connection function is in an open state and the current intelligent terminal is connected with an external intelligent terminal through the WiFi point-to-point connection function, if the priority of the Soft AP function is higher than that of the WiFi point-to-point connection function, the WiFi point-to-point connection function is controlled to be closed, and a broadcast of the closed WiFi point-to-point connection function is sent to inform other intelligent terminals that the WiFi point-to-point connection function is closed. In addition, the Soft AP function is automatically started in response to the starting event of the Soft AP function.

Step 309, maintaining the WiFi point-to-point connection function in a start state, and outputting a prompt message that the current WiFi channel is occupied.

And when the priority of the Soft AP function is lower than that of the WiFi point-to-point connection function, refusing to respond to the starting event of the Soft AP function, and maintaining the WiFi point-to-point connection function in a starting state. The user can be reminded that the current WiFi channel is occupied by the WiFi point-to-point connection function in a pop-up window or voice mode, and the Soft AP function can be started only by closing the WiFi point-to-point connection function.

According to the technical scheme, when the WiFi point-to-point connection function is in the state of being opened but not connected, the use request of the Soft AP function is detected, the WiFi point-to-point connection function can be closed, the WiFi channel is preferentially distributed to the Soft AP function to be used, the fact that a user can use the WiFi point-to-point connection function under the situation is guaranteed, and the channel utilization rate is improved. In addition, when the WiFi point-to-point connection function is in an open and connected state, the priority relation between the Soft AP function and the WiFi point-to-point connection function is determined through a preset white list, whether a use request of the Soft AP function is responded is determined according to the priority relation, and the problems that in the related technology, the WiFi point-to-point connection function and the Soft AP function are in use conflict and cannot be controlled are solved.

Fig. 4 is a schematic structural diagram of a network function management apparatus according to an embodiment of the present application. The device can be realized by software and/or hardware, can be integrated in an intelligent terminal, and is used for executing the management method of the network function provided by the embodiment of the application. As shown in fig. 4, the apparatus includes:

an information obtaining module 410, configured to obtain, when a request for using a first network function is detected, status information of a second network function of a different type from the first network function, where the types of the first network function and the second network function respectively include a soft AP function or a WiFi peer-to-peer connection function that an access point is accessed through software;

a number determining module 420, configured to determine the number of target intelligent terminals according to the state information, where the target intelligent terminals include external intelligent terminals that establish communication connection with a current intelligent terminal through the second network function;

a function management module 430, configured to manage the first network function and the second network function according to the number.

The technical scheme of the embodiment provides a management device for network functions, which avoids the situation that the use of a first network function is forbidden due to use conflict under the situation that a second network function is opened but data transmission does not occur, and improves the utilization rate of a WiFi channel.

Optionally, the method further includes:

the state recording module is used for judging whether an operation of communicating with an external intelligent terminal through the second network function exists according to a set period if the second network function is detected to be started; and if so, the function identification of the second network function and the terminal identification of the external intelligent terminal are stored in an associated manner to serve as the state information of the second network function.

Optionally, the function management module 430 is specifically configured to:

and if the number is smaller than a preset value, closing the second network function, responding to the use request of the first network function, and starting the first network function.

Optionally, the function management module 430 includes:

a priority determining submodule, configured to determine a priority relationship between the first network function and the second network function if the number exceeds a preset value;

and the function management submodule is used for managing the first network function and the second network function according to the priority relation.

Optionally, the priority determining sub-module is specifically configured to:

inquiring a preset white list according to the function identifier of the WiFi point-to-point connection function, and judging whether the WiFi point-to-point connection function belongs to the preset white list, wherein the WiFi point-to-point connection function with the priority higher than that of the soft AP function is stored in the preset white list;

if yes, determining that the priority of the WiFi point-to-point connection function is higher than that of the soft AP function.

Optionally, the priority determining sub-module is specifically configured to:

acquiring a first function identifier of the first network function and a second function identifier of the second network function;

and querying a preset white list according to the first function identifier and the second function identifier, and determining the priority relationship between the first network function and the second network function, wherein the preset white list stores the priority sequence of the first network function and the second network function.

Optionally, the function management submodule is specifically configured to:

when the priority of the first network function is higher than that of the second network function, closing the second network function, responding to the use request of the first network function, and starting the first network function;

and when the priority of the first network function is lower than that of the second network function, maintaining the second network function in a starting state, and outputting the occupied prompt information of the current channel.

Optionally, the method further includes:

the authentication module is used for acquiring the identity information of the user before the second network function is closed and executing authentication operation according to the identity information;

and if the authentication is passed, closing the second network function.

Embodiments of the present application also provide a storage medium containing computer-executable instructions, which when executed by a computer processor, perform a method for managing network functions, the method including:

when a use request of a first network function is detected, state information of a second network function of a different type from the first network function is acquired, wherein the types of the first network function and the second network function respectively comprise a soft AP function or a WiFi point-to-point connection function of accessing an access point through software;

determining the number of target intelligent terminals according to the state information, wherein the target intelligent terminals comprise external intelligent terminals which establish communication connection with the current intelligent terminals through the second network function;

and managing the first network function and the second network function according to the number.

Storage medium-any of various types of memory devices or storage devices. The term "storage medium" is intended to include: mounting media such as CD-ROM, floppy disk, or tape devices; computer system memory or random access memory such as DRAM, DDR RAM, SRAM, EDO RAM, Lanbas (Rambus) RAM, etc.; non-volatile memory such as flash memory, magnetic media (e.g., hard disk or optical storage); registers or other similar types of memory elements, etc. The storage medium may also include other types of memory or combinations thereof. In addition, the storage medium may be located in a first computer system in which the program is executed, or may be located in a different second computer system connected to the first computer system through a network (such as the internet). The second computer system may provide program instructions to the first computer for execution. The term "storage medium" may include two or more storage media that may reside in different locations, such as in different computer systems that are connected by a network. The storage medium may store program instructions (e.g., embodied as a computer program) that are executable by one or more processors.

Of course, the storage medium provided in this embodiment of the present application contains computer-executable instructions, and the computer-executable instructions are not limited to the management operations of the network function described above, and may also perform related operations in the management method of the network function provided in any embodiment of the present application.

The embodiment of the application provides an intelligent terminal, an operating system is arranged in the intelligent terminal, and a management device of a network function provided by the embodiment of the application can be integrated in the intelligent terminal. The intelligent terminal can be a smart phone, a PAD (PAD), an intelligent wearable device and the like. Fig. 5 is a schematic structural diagram of an intelligent terminal according to an embodiment of the present application. As shown in fig. 5, the smart terminal includes a memory 510 and a processor 520. The memory 510 is configured to store a computer program, state information of the first network function and the second network function, a preset white list, and the like; the processor 520 reads and executes the computer programs stored in the memory 510. The processor 520, when executing the computer program, performs the steps of: when a use request of a first network function is detected, state information of a second network function of a different type from the first network function is acquired, wherein the types of the first network function and the second network function respectively comprise a soft AP function or a WiFi point-to-point connection function of accessing an access point through software; determining the number of target intelligent terminals according to the state information, wherein the target intelligent terminals comprise external intelligent terminals which establish communication connection with the current intelligent terminals through the second network function; and managing the first network function and the second network function according to the number.

The memory and the processor listed in the above examples are all part of components of the intelligent terminal, and the intelligent terminal may further include other components. Taking a smart phone as an example, a possible structure of the smart terminal is described. Fig. 6 is a block diagram of a smart phone according to an embodiment of the present application. As shown in fig. 6, the smart phone may include: memory 601, a Central Processing Unit (CPU) 602 (also known as a processor, hereinafter CPU), a peripheral interface 603, a Radio Frequency (RF) circuit 605, an audio circuit 606, a speaker 611, a touch screen 612, a power management chip 608, an input/output (I/O) subsystem 609, other input/control devices 610, and an external port 604, which communicate via one or more communication buses or signal lines 607.

It should be understood that the illustrated smartphone 600 is merely one example of a smart terminal, and that the smartphone 600 may have more or fewer components than shown in the figures, may combine two or more components, or may have a different configuration of components. The various components shown in the figures may be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.

The following describes the smart phone integrated with the network function management device according to this embodiment in detail.

A memory 601, the memory 601 being accessible by the CPU602, the peripheral interface 603, and the like, the memory 601 may include high speed random access memory, and may also include non-volatile memory, such as one or more magnetic disk storage devices, flash memory devices, or other volatile solid state storage devices. The memory 601 stores a computer program, and may also store a preset file, a preset white list, and the like.

A peripheral interface 603, said peripheral interface 603 may connect input and output peripherals of the device to the CPU602 and the memory 601.

An I/O subsystem 609, the I/O subsystem 609 may connect input and output peripherals on the device, such as a touch screen 612 and other input/control devices 610, to the peripheral interface 603. The I/O subsystem 609 may include a display controller 6091 and one or more input controllers 6092 for controlling other input/control devices 610. Where one or more input controllers 6092 receive electrical signals from or transmit electrical signals to other input/control devices 610, the other input/control devices 610 may include physical buttons (push buttons, rocker buttons, etc.), dials, slide switches, joysticks, click wheels. It is noted that the input controller 6092 may be connected to any one of: a keyboard, an infrared port, a USB interface, and a pointing device such as a mouse.

A touch screen 612, which touch screen 612 is an input interface and an output interface between the user terminal and the user, displays visual output to the user, which may include graphics, text, icons, video, and the like.

The display controller 6091 in the I/O subsystem 609 receives electrical signals from the touch screen 612 or transmits electrical signals to the touch screen 612. The touch screen 612 detects a contact on the touch screen, and the display controller 6091 converts the detected contact into an interaction with a user interface object displayed on the touch screen 612, that is, to implement a human-computer interaction, where the user interface object displayed on the touch screen 612 may be an icon for running a game, an icon networked to a corresponding network, or the like. It is worth mentioning that the device may also comprise a light mouse, which is a touch sensitive surface that does not show visual output, or an extension of the touch sensitive surface formed by the touch screen.

The RF circuit 605 is mainly used to establish communication between the mobile phone and the wireless network (i.e., network side), and implement data reception and transmission between the mobile phone and the wireless network. Such as sending and receiving short messages, e-mails, etc. In particular, RF circuitry 605 receives and transmits RF signals, also referred to as electromagnetic signals, through which RF circuitry 605 converts electrical signals to or from electromagnetic signals and communicates with a communication network and other devices. RF circuitry 605 may include known circuitry for performing these functions including, but not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC (CODEC) chipset, a Subscriber Identity Module (SIM), and so forth.

The audio circuit 606 is mainly used to receive audio data from the peripheral interface 603, convert the audio data into an electric signal, and transmit the electric signal to the speaker 611.

The speaker 611 is used to convert the voice signal received by the handset from the wireless network through the RF circuit 605 into sound and play the sound to the user.

And a power management chip 608 for supplying power and managing power to the hardware connected to the CPU602, the I/O subsystem, and the peripheral interface.

The intelligent terminal provided by the embodiment of the application avoids the situation that the use of the first network function is forbidden due to the use conflict under the situation that the second network function is opened but data transmission does not occur, and improves the utilization rate of a WiFi channel.

The management device, the storage medium and the intelligent terminal for the network function provided in the above embodiments can execute the management method for the network function provided in any embodiment of the present application, and have corresponding functional modules and beneficial effects for executing the method. For technical details that are not described in detail in the above embodiments, reference may be made to a method for managing network functions provided in any embodiment of the present application.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present application and the technical principles employed. It will be understood by those skilled in the art that the present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the application. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the appended claims.

Claims (8)

1. A method for managing network functions, comprising:

when a use request of a first network function is detected, state information of a second network function of a different type from the first network function is acquired, wherein the types of the first network function and the second network function respectively comprise a soft AP function or a WiFi point-to-point connection function of accessing an access point through software;

determining the number of target intelligent terminals according to the state information, comprising:

when a use request of a WiFi point-to-point connection function is detected, inquiring a preset white list in a preset cache according to a function identifier of a soft AP function, determining a terminal identifier of an external intelligent terminal which establishes communication connection with a current intelligent terminal through the soft AP function, and counting the number of the terminal identifiers of the external intelligent terminals which establish communication with the current intelligent terminal through the soft AP function as the number of target intelligent terminals;

if the soft AP function of the current intelligent terminal is continuously connected by different external intelligent terminals, respectively recording the terminal identification of each external intelligent terminal, and accumulating;

when a use request of the soft AP function is detected, inquiring a preset white list in a preset cache according to a function identifier of a WiFi point-to-point connection function, determining a terminal identifier of an external intelligent terminal which establishes communication connection with a current intelligent terminal through the WiFi point-to-point connection function, and counting the number of the terminal identifiers of the external intelligent terminals which establish communication with the current terminal through the WiFi point-to-point connection function as the number of target intelligent terminals;

the preset white list is used for associating and storing a terminal identifier of a target intelligent terminal which establishes communication with the current intelligent terminal through a soft AP function and a function identifier of the soft AP function, and associating and storing a terminal identifier of the target intelligent terminal which establishes communication with the current intelligent terminal through a WiFi point-to-point connection function and a function identifier of the WiFi point-to-point connection function;

managing the first network function and the second network function according to the number, comprising:

if the number is smaller than a preset value, closing the second network function, responding to the use request of the first network function, and starting the first network function;

if the number exceeds a preset value, determining the priority relationship between the first network function and the second network function;

and managing the first network function and the second network function according to the priority relation.

2. The method of claim 1, further comprising:

if the second network function is detected to be started, judging whether an operation of communicating with an external intelligent terminal through the second network function exists or not according to a set period;

and if so, the function identification of the second network function and the terminal identification of the external intelligent terminal are stored in an associated manner to serve as the state information of the second network function.

3. The method of claim 1, wherein determining the priority relationship between the first network function and the second network function comprises:

acquiring a first function identifier of the first network function and a second function identifier of the second network function;

and querying a preset white list according to the first function identifier and the second function identifier, and determining the priority relationship between the first network function and the second network function, wherein the preset white list stores the priority sequence of the first network function and the second network function.

4. The method of claim 1, wherein managing the first network function and the second network function according to the priority relationship comprises:

when the priority of the first network function is higher than that of the second network function, closing the second network function, responding to the use request of the first network function, and starting the first network function;

and when the priority of the first network function is lower than that of the second network function, maintaining the second network function in a starting state, and outputting the occupied prompt information of the current channel.

5. The method of claim 4, further comprising, prior to shutting down the second network function:

acquiring identity information of a user, and executing authentication operation according to the identity information;

and if the authentication is passed, closing the second network function.

6. An apparatus for managing network functions, comprising:

the system comprises an information acquisition module, a first network function and a second network function, wherein the information acquisition module is used for acquiring state information of the second network function which is different from the first network function when a use request of the first network function is detected, and the types of the first network function and the second network function respectively comprise a soft AP function or a WiFi point-to-point connection function of accessing an access point through software;

the quantity determining module is used for inquiring a preset white list in a preset cache according to the function identifier of the soft AP function when a using request of the WiFi point-to-point connection function is detected, determining the terminal identifier of an external intelligent terminal which establishes communication connection with the current intelligent terminal through the soft AP function, and counting the quantity of the terminal identifiers of the external intelligent terminals which establish communication with the current intelligent terminal through the soft AP function to serve as the quantity of target intelligent terminals;

if the soft AP function of the current intelligent terminal is continuously connected by different external intelligent terminals, respectively recording the terminal identification of each external intelligent terminal, and accumulating;

when a use request of the soft AP function is detected, inquiring a preset white list in a preset cache according to a function identifier of a WiFi point-to-point connection function, determining a terminal identifier of an external intelligent terminal which establishes communication connection with a current intelligent terminal through the WiFi point-to-point connection function, and counting the number of the terminal identifiers of the external intelligent terminals which establish communication with the current terminal through the WiFi point-to-point connection function as the number of target intelligent terminals;

the preset white list is used for associating and storing a terminal identifier of a target intelligent terminal which establishes communication with the current intelligent terminal through a soft AP function and a function identifier of the soft AP function, and associating and storing a terminal identifier of the target intelligent terminal which establishes communication with the current intelligent terminal through a WiFi point-to-point connection function and a function identifier of the WiFi point-to-point connection function;

the function management module is used for closing the second network function and responding to the use request of the first network function to start the first network function if the number is smaller than a preset value;

if the number exceeds a preset value, determining the priority relationship between the first network function and the second network function;

and managing the first network function and the second network function according to the priority relation.

7. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out a method of managing network functions according to any one of claims 1 to 5.

8. An intelligent terminal comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the method for managing network functions according to any one of claims 1 to 5 when executing the computer program.

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