CN113163008A - Connection intelligent management method and device of network service system and related equipment thereof - Google Patents

Abstract

The embodiment of the invention discloses a connection intelligent management method, a device and related equipment of a network service system, wherein the connection intelligent management method is applied to the network service system comprising a load balancer and an access layer and comprises the following steps: when an access request of an intelligent terminal is received, request information is obtained; establishing data connection with the intelligent terminal based on the request information, wherein the data connection comprises connection formed by the intelligent terminal, an access layer and a load balancer; acquiring recording information associated with the request information, wherein the recording information comprises historical connection associated with the request information before data connection is established, and the historical connection represents connection formed by an access layer and a load balancer; and if the historical connection is determined to be in a connected state according to the recorded information, disconnecting the historical connection. By the embodiment, the condition that the access layer is occupied due to the fact that the historical connection is still kept in the connected state after the data connection is established can be avoided, and therefore the stability of the network service system is improved.

Description

Connection intelligent management method and device of network service system and related equipment thereof

Technical Field

The present invention relates to the field of network connection technologies, and in particular, to a method and an apparatus for intelligently managing a connection of a network service system, and a device related thereto.

Background

In recent years, to meet the demands of users, existing electronic devices increasingly rely on support provided by networks to implement various functions. For example, more and more manufacturers choose to place a module with data and data processing functions in a server, the electronic device establishes communication connection with the server through data connection, and the electronic device can send data to the server and obtain data of the server, so that the configuration requirements of the electronic device can be reduced.

Therefore, as the number of electronic devices accessing the server increases, the functional requirements of the server are more diversified, so that the information transmission between the electronic devices and the server is more frequent, and the pressure on the information processing and information transmission of the server is also increased. Based on the above situation, the stability of the server is seriously tested, and the server often fails to operate normally when processing a large amount of data.

Disclosure of Invention

In view of the foregoing problems, embodiments of the present invention provide a method and an apparatus for intelligently managing connection of a network service system, and related devices thereof, so as to solve the problem of poor stability of a server in the prior art.

In a first aspect, an embodiment of the present invention provides an intelligent connection management method for a network service system, which is applied to a network service system including a load balancer and an access stratum, and the intelligent connection management method includes: when receiving an access request of an intelligent terminal, acquiring request information of the intelligent terminal; establishing data connection with the intelligent terminal based on the request information, wherein the data connection comprises connection formed by the intelligent terminal, an access layer and a load balancer; acquiring recording information associated with the request information, wherein the recording information comprises historical connection associated with the request information before data connection is established, and the historical connection represents connection formed by an access layer and a load balancer; and if the historical connection is determined to be in a connected state according to the recorded information, disconnecting the historical connection.

In a second aspect, an embodiment of the present invention provides an intelligent connection management apparatus for a network service system, which is applied to a network service system including a load balancer and an access stratum, and the intelligent connection management apparatus includes an information acquisition module, a data connection establishment module, a recorded information acquisition module, and a historical connection disconnection module. The information acquisition module is used for acquiring request information of the intelligent terminal when receiving an access request of the intelligent terminal. The data connection establishing module is used for establishing data connection with the intelligent terminal based on the request information, and the data connection comprises connection formed by the intelligent terminal, the access layer and the load balancer. The recording information acquisition module is used for acquiring recording information associated with the request information, the recording information comprises historical connection associated with the request information before data connection is established, and the historical connection represents connection formed by the access layer and the load balancer. And the historical connection disconnection module is used for disconnecting the historical connection if the historical connection is determined to be in a connected state according to the recording information.

In a third aspect, an embodiment of the present invention provides an electronic device, including one or more processors and a memory; one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the connection intelligence management method for a network services system described above.

In a fourth aspect, an embodiment of the present invention provides a computer-readable storage medium, where a program code is stored in the computer-readable storage medium, where the method for intelligently managing connection of a network service system is executed when the program code runs.

The embodiment of the invention provides a connection intelligent management method, a device and related equipment of a network service system, through the implementation of the connection intelligent management method, whether the historical connection associated with an intelligent terminal is in a connected state can be inquired based on the request information of the intelligent terminal after the intelligent terminal is successfully connected with an access layer, if so, the connection between a load balancer and the access layer can be disconnected, thereby, the historical connection of the load balancer and the access layer which are still connected after the intelligent terminal is connected with the load balancer and the access layer can be avoided, the access layer in the network service system is eliminated from being repeatedly occupied, the load of the access layer is reduced, the stability of the network service system is improved, meanwhile, because the historical connection is inquired and disconnected after a new data connection is established, therefore, the network service system does not need to be in a state of monitoring historical connection in real time, and occupied computing resources are less.

Drawings

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. 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 invention.

Fig. 1 shows a schematic diagram of an application environment suitable for the embodiment of the present application.

Fig. 2 shows a schematic diagram of an intelligent terminal suitable for use in the embodiment of the present application.

Fig. 3 is a flowchart illustrating a connection intelligent management method of a network service system according to an embodiment of the present application.

Fig. 4 is another flowchart illustrating a connection intelligence management method for a network service system according to an embodiment of the present application.

Fig. 5 is a flowchart illustrating a step of determining whether load information meets an access condition based on configuration utilization in the method illustrated in fig. 4.

Fig. 6 is a flowchart illustrating a step of determining whether the load information meets the access condition based on the number of smart terminals connected to the access layer in the method illustrated in fig. 4.

Fig. 7 is a flowchart illustrating a step of determining whether the load information meets the access condition based on the access frequency in the method illustrated in fig. 4.

Fig. 8 is a flowchart illustrating a step of determining whether the load information meets the access condition based on the request frequency in the method illustrated in fig. 4.

Fig. 9 shows a functional block diagram of a connection intelligent management device of a network service system according to an embodiment of the present invention.

Fig. 10 shows a functional block diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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 invention.

In recent years, with the continuous development of information and communication technologies, data processing performance and communication quality of a server are greatly improved. In order to reduce the cost of processing data by the intelligent terminal, the intelligent terminal generally sends the data to be processed to the server, and the server responds based on the data to generate feedback information and send the feedback information to the intelligent terminal, so that the server can be used as a center-of-gravity hub for data processing of the intelligent terminal. Although the current mode that the server processes data and the intelligent terminal is mainly responsible for receiving and sending data can reduce the requirement on the data processing performance of the intelligent terminal, the mode has higher requirements on the communication quality between the server and the intelligent terminal and the data processing capacity of the server, so that the stability of the server is weaker.

Based on this, the inventor of the present invention has conducted a great deal of research and found that when a server responds to data sent by an intelligent terminal, an access layer, a load balancer, and the intelligent terminal in the server generally process a connection state, so that a complete connection path is formed, and after the intelligent terminal is disconnected from the load balancer, the connection state between the load balancer and the access layer may be processed, so that the number of connections of the access layer in the connection server is increased, and thus the load of the server is increased. Therefore, the inventor finds that the server detects the connection state between a certain intelligent terminal and the load balancer in real time, and when the intelligent terminal and the load balancer are in the disconnection state, historical data connection formed between an access layer and the load balancer in the server can be cut off, so that the load of the server is reduced. Although the detection mode can monitor and cut off the connection between the access layer and the load balancer in the server in real time, the mode needs to monitor the connection state of the data connection formed between the intelligent terminal and the load balancer in real time when the server establishes the data connection with the intelligent terminal, and data processing resources in the server can be further used in practical application.

In order to better solve the above-described problems, the present inventors continued to research and develop to improve the stability of the server. Further, the inventor proposes a connection intelligent management method of a network service system of the present invention, the connection intelligent management method being applied to a network service system including a load balancer and an access stratum, the connection intelligent management method including: when receiving an access request of an intelligent terminal, acquiring request information of the intelligent terminal; establishing data connection with the intelligent terminal based on the request information, wherein the data connection comprises connection formed by the intelligent terminal, an access layer and a load balancer; acquiring recording information associated with the request information, wherein the recording information comprises historical connection associated with the request information before data connection is established, and the historical connection represents connection formed by an access layer and a load balancer; and if the historical connection is determined to be in a connected state according to the recorded information, disconnecting the historical connection. By implementing the connection intelligent management method, after the intelligent terminal is successfully connected with the access layer, whether the historical connection associated with the intelligent terminal is in a connected state or not can be inquired based on the request information of the intelligent terminal, if so, the connection between the load balancer and the access layer can be disconnected, therefore, the situation that the load balancer is still connected with the access layer after the intelligent terminal is connected with the load balancer and the access layer is avoided, the access layer in the network service system is prevented from being occupied, the load of the access layer is reduced, the stability of the network service system is improved, meanwhile, the historical connection is inquired and disconnected after new data connection is established, the network service system does not need to be in a state of monitoring the historical connection in real time, and occupied computing resources are less.

First, an application environment of the connection intelligent management method of the network service system provided by the embodiment of the present invention is introduced.

Referring to fig. 1, fig. 1 is a schematic view illustrating an application scenario of a connection intelligent management method of a network service system according to an embodiment of the present invention, where the connection intelligent management method may be applied to a network service system 100, and the network service system 100 may include a load balancer 120 and an access stratum 110.

In this embodiment, when the intelligent terminal 300 establishes a data connection with the server 200, the intelligent terminal 300 may be connected with the load balancer 120 and the access stratum 110 in sequence, so that the intelligent terminal 300 may establish a connection with the server 200. The load balancer 120 can balance the requests of the intelligent terminal 300, thereby expanding the bandwidth of the server 200, increasing the throughput, enhancing the network data processing capability, and improving the flexibility and availability of the network. The load balancer 120 may be formed based on a software load balancing scheme or a hardware load balancing scheme, and the type of the load balancer 120 is not particularly limited herein. For example, when load balancer 120 is formed based on a software-based load balancing scheme, one or more additional software may be installed on the corresponding operating system of server 200 to implement load balancing. As shown in fig. 1, when the load balancer 120 is formed based on a hardware load balancing scheme, the hardware load balancer 120 may be installed between the server 200 and an external network, and at this time, the load balancer 120 is independent of an operating system of the server 200, and diversified load balancing strategies may be added to the load balancer 120 to meet the requirements of different scenarios.

In this embodiment, the access layer 110 may receive a data request sent by the intelligent terminal 300, and send the data request to a corresponding service layer, so that the service layer can process the data request according to a set service logic. It should be noted that, in one server 200 or a cluster of servers 200, the number of access layers 110 may be one or more, and the number of access layers 110 is not particularly limited herein.

In the embodiment of the present invention, the intelligent terminal 300 may be connected to the access stratum 110 through the load balancer 120, so that the intelligent terminal 300 and the server 200 can perform interactive communication. The intelligent terminal 300 can realize the functions of system information acquisition, information input, information relay, information output, centralized control, remote control, linkage control and the like. The intelligent terminal 300 can also perform data interaction with products such as an intelligent interactive terminal in a wireless manner. The intelligent terminal 300 also has a wireless routing function, excellent wireless performance, network security and coverage area. It should be noted that fig. 1 only shows an application environment by way of example, and the number of the intelligent terminals 300 in the figure may be increased or decreased according to needs.

Referring to fig. 2, the intelligent terminal 300 may be a device capable of transmitting information to the server 200 through wireless communication or/and wired communication. For example, the smart terminal 300 may include one or more of various devices such as a smart home control panel, a smart speaker, a smart television, a smart phone, a smart tablet, a notebook Computer, a Personal Computer (PC), a Personal Digital Assistant (PDA), a Mobile Internet Device (MID), a wearable Device (e.g., a smart watch, a smart bracelet, and smart glasses), and the like. Additionally, in some examples, the operating system run by the smart terminal 300 may include, but is not limited to, an Android operating system, an IOS operating system, a Symbian operating system, a UNIX operating system, a Linux operating system, a QNX operating system, a Black Berry operating system, a Windows Phone 8 operating system, and so forth.

In some examples, the smart terminal 300 may include a control device body, wherein the control device body may be a cylinder, a regular frame, an irregular frame, or the like, optionally, as a manner, the control device body is a regular frame, for example, a rectangular parallelepiped, a square, or the like, and one side of the control device body may be provided with a fixing portion through which the control device body is fixed to a target object, for example, a wall, a door, a floor, or the like.

Further, the smart terminal 300 may further include at least one physical key, and the at least one physical key is disposed on the control device body. The smart terminal 300 may further include at least one virtual key provided on the control device body. Specifically, the control device body may include a touch screen, and at least one virtual key is disposed on the touch screen, where the touch screen is used for displaying the screen information output by the smart terminal 300 and for a user to perform a touch operation, for example, touch the at least one virtual key. The physical keys and the virtual keys can be associated with different operation instructions to realize different operations.

In the embodiment of the present invention, the server 200 may be implemented by an independent server or a server cluster composed of a plurality of servers. In addition, the server 200 may be a cloud server, and may also be a traditional machine room server.

According to the network service system, the embodiment of the invention provides an intelligent connection management method for the network service system, the intelligent connection management method is applied to the network service system, and the network service system can comprise a load balancer and an access layer. The following describes a specific connection intelligent management method for a network service system. Based on the above-described application environment and system, embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 3, the connection intelligent management method for a network service system according to an embodiment of the present invention is applied to a network service system including a load balancer and an access stratum, and once triggered, the flow of the method in the embodiment may automatically run through the network server system, where each step may be performed sequentially according to the sequence in the flowchart, or multiple steps may be performed simultaneously according to the actual situation, which is not limited herein. The connection intelligent management method of the network service system may include the following steps S11 to S14.

Step S11: and when receiving an access request of the intelligent terminal, acquiring request information of the intelligent terminal.

In this embodiment, when the access layer receives the request field, it may be considered that the access request of the intelligent terminal is received. The manner for determining whether the request field belongs to the access request may be specifically determined based on a preset data connection protocol, for example, whether the access request of the intelligent terminal is received may be determined based on a request header, a uniform resource locator address, and the like in the request field.

In this embodiment, the request information may include information for establishing a data connection with the access stratum. When the intelligent terminal sends the access request, the access request may carry request information, that is, whether the access request of the intelligent terminal is received and the request information of the intelligent terminal is acquired may be determined to be synchronously executed.

Step S12: and establishing data connection with the intelligent terminal based on the request information, wherein the data connection comprises connection formed by the intelligent terminal, the access layer and the load balancer.

In this embodiment, the intelligent terminal may establish a connection with the access stratum through the load balancer. In some examples, the request information may also include device information of the smart terminal. The device information may be used to characterize the identity of the smart terminal. For example, the device information may be a device identifier of the intelligent terminal, an account registered by a program running on the intelligent terminal, or an account automatically allocated by the server to the intelligent terminal. When the request information contains the equipment information, the server can verify whether the intelligent terminal is a connectable equipment or not based on the equipment information; if so, determining that the intelligent terminal is in a login-capable state; if not, determining that the intelligent terminal is in a login-incapable state.

In this embodiment, a data connection may be established with the intelligent terminal based on the device information in the request information, and a session process corresponding to the device information may be configured for the intelligent terminal. In some examples, the session progress corresponding to the type of the device information may be configured for the smart terminal based on the type of the device information. For example, the type of the device information includes type a, type B, and type C, the type of the session process corresponding to type a is a, the type of the session process corresponding to type B is B, and the type of the session process corresponding to type C is C, and when the type of the obtained device information is type B, the session process of type B is configured for the intelligent terminal corresponding to the device information.

In other examples, a session process corresponding to the device information may be configured for the intelligent terminal based on the device information and pre-stored information in the server. For example, pre-stored information in the server may be obtained first, and the device information may be obtained by querying the pre-stored information; if the equipment information is inquired in the pre-stored information, configuring a session process for the intelligent terminal; and if the pre-stored information is not inquired in the pre-stored information, determining that the session process cannot be configured for the intelligent terminal.

In some examples, if the session progress cannot be configured for the intelligent terminal, guidance information may be fed back to the intelligent terminal, where the guidance information is used to instruct a user to operate so that request information sent by the intelligent terminal meets a condition for establishing a data connection between the intelligent terminal and the access stratum.

In some examples, when a plurality of intelligent terminals send access requests simultaneously and acquire device information of the plurality of intelligent terminals, a corresponding session process may be configured for each intelligent terminal corresponding to the device information based on each device information.

Step S13: and acquiring record information associated with the request information, wherein the record information comprises historical connection associated with the request information before establishing data connection, and the historical connection represents connection formed by the access layer and the load balancer.

In this embodiment, the historical connection may be a connection left by the access stratum and the load balancer before the data connection is established with the intelligent terminal based on the current request information, and the connection between the intelligent terminal and the load balancer corresponding to the historical connection is in a disconnected state. For example, in the existing intelligent terminal F, the intelligent terminal F establishes a new data connection with the network service system at 10:00, a data connection may be formed between the intelligent terminal F, the load balancer, and the access layer before 10:00, after the connection between the intelligent terminal F and the load balancer is disconnected, the load balancer is still in a connection state based on the connection established between the intelligent terminal F and the network service system, and at this time, the connection established between the load balancer and the network service system based on the intelligent terminal F is regarded as a historical connection. It should be noted that, for a certain intelligent terminal, one or more historical connections corresponding to the intelligent terminal may be provided.

In this embodiment, record information associated with the device information in the request information may be queried, where the record information may include records of data connections formed by the past intelligent terminal, the past access stratum, and the past load balancer. For example, it may be used in a server to store a history of the connections of the access stratum to the load balancer.

In some examples, log information associated with the request information may be queried, a historical connection formed between the load balancer and the access stratum may be obtained based on the log information, and the historical connection may be marked. When the number of the access layers is multiple, historical connections between the multiple access layers and the load balancer can be respectively obtained, and the access layers related to the historical connections are marked. When the number of the access interfaces in the access layer is multiple, historical connections between the multiple access interfaces and the load balancer can be respectively obtained, and the access interfaces related to the historical connections are marked. Thus, historical connections can be processed based on the results of the tagging.

Step S14: and if the historical connection is determined to be in a connected state according to the recorded information, disconnecting the historical connection.

In this embodiment, the historical connection may be acquired according to the record information, and whether the historical connection is still in a connected state may be queried according to the record information, and when the historical connection is still in a connected state, the historical connection may be disconnected.

In this embodiment, through the implementation of the above steps S11 to S14, after the data connection between the intelligent terminal and the access stratum is successfully established, whether the historical connection associated with the intelligent terminal is in a connected state is queried based on the request information of the intelligent terminal, and if so, the connection between the load balancer and the access stratum can be disconnected, so that the situation that the historical connection between the load balancer and the access stratum still exists after the data connection between the intelligent terminal and the load balancer and the access stratum is established can be avoided, and repeated occupation of the access stratum in the network service system is eliminated, thereby reducing the load of the access stratum and improving the stability of the network service system, so that the connection intelligent management method of the network service system provided in this embodiment is particularly suitable for a scenario where the network service system and the intelligent terminal generate a large amount of new data connection, and avoids repeated occupation of server resources by historical connections left by the intelligent terminal, causing the server to be incapable of normal operation; meanwhile, since the historical connection is inquired and disconnected after the new data connection is established, the network service system does not need to be in a state of monitoring the historical connection in real time, and occupied computing resources are less.

In order to further improve the stability of the network service system, it may be determined whether the intelligent terminal is currently connected to the access layer based on the load information of the network service system, and for this reason, an embodiment of the present application further provides a connection intelligent management method for the network service system, where the connection intelligent management method is applied to the network service system including a load balancer and the access layer, as shown in fig. 4, the connection intelligent management method may include the following steps S21 to S26. The connection intelligent management method of the network service system provided in this embodiment may include the same or similar steps as those in the foregoing embodiments, and for the execution of the same or similar steps, reference may be made to the foregoing description, and details are not repeated in this specification.

Step S21: and when receiving an access request of the intelligent terminal, acquiring request information of the intelligent terminal.

Step S22: and acquiring load information of the network service system.

In this embodiment, the load information may be used to characterize the load degree of the network service system. For example, the load information may include, but is not limited to, processor occupancy, memory occupancy, data transfer rate, and the like.

Step S23: and if the load information meets the preset access condition, executing a step of establishing data connection with the intelligent terminal based on the request information.

Further, the load information may include a configuration parameter, and it may be determined whether the load information satisfies the access condition based on the configuration parameter, wherein the configuration parameter may include a case where resources configured for the network service system are utilized. For example, the configuration parameters may include, but are not limited to, a flash data footprint, a hard disk storage footprint, a rate of transfer, and the like. Based on this, in the present embodiment, as shown in fig. 5, the above step S23 may include the following steps S231 to S233.

Step S231: and determining the current configuration utilization rate according to the configuration parameters.

In some examples, a limit parameter of the resource configured by the network system may be known in advance, for example, the limit parameter may be a maximum data amount of a flash memory, a maximum data amount stored in a hard disk, an available maximum transmission rate, and the like. The configuration utilization may be derived based on a ratio of the configuration parameter to the limit parameter. For example, the maximum data size of the flash memory is 4GB, and the data occupancy of the flash memory is 2GB, and the configuration utilization rate may be 50% at this time.

Step S232: and if the configuration utilization rate is smaller than a preset configuration utilization rate threshold value, determining that the load information meets the access condition.

In this embodiment, the configuration utilization threshold may be determined empirically. In addition, it should be noted that, since the configuration parameters may include different types of parameters, corresponding thresholds may be set for the different types of parameters. For example, the configuration utilization threshold may be 80% when the configuration utilization is used to characterize the utilization of flash memory and 90% when the configuration utilization is used to characterize the utilization of a hard disk.

Step S233: and if the configuration utilization rate is greater than or equal to the configuration utilization rate threshold value, closing a channel accessed to the access layer.

In this embodiment, if the configuration utilization is greater than or equal to the configuration utilization threshold, the load balancer may be restricted from accessing the access stratum in a manner of closing a channel of the access stratum, so that the intelligent terminal that sends the access request cannot be connected to the access stratum.

In this embodiment, through the implementation of the steps S231 to S233, when the configuration utilization of the network service system exceeds the configuration utilization threshold, a new intelligent terminal is prevented from being connected to the access layer, so that the network service system is prevented from running in an overload manner, and the stability of the network service system is further improved.

In order to avoid excessive number of intelligent terminals accessing to a certain access layer in the network service system, whether the load information meets the access condition can be determined based on the number of the access layers; the number of the intelligent terminals may be multiple, the load information may include the number of the intelligent terminals accessing the access stratum, as shown in fig. 6, and the step S23 may further include the following step S234, step S235.

Step S234: and if the number of the intelligent terminals accessed to the access layer is smaller than a preset terminal threshold value, determining that the load information meets the access condition.

In this embodiment, the number of the intelligent terminals accessing the access stratum may be the number of connections of the data connection formed by the intelligent terminals, the load balancer, and the access stratum. The terminal threshold may be determined empirically, for example, the terminal threshold may be the maximum number of connections that the access stratum is capable of forming data connections.

In some examples, the number of smart terminals accessing the access stratum may also be the number of connections of the connection formed by the access stratum and the load balancer. In this case, the terminal threshold may be determined empirically, for example, the terminal threshold may be the maximum number of connections of the load balancer that the access stratum can access.

Step S235: and if the number of the intelligent terminals accessing the access layer is greater than or equal to the terminal threshold, closing the channel accessing the access layer.

In this embodiment, if the number of the intelligent terminals accessing the access stratum is greater than or equal to the terminal threshold, the load balancer may be restricted from accessing the access stratum by closing the channel of the access stratum, so that the intelligent terminal sending the access request cannot be connected to the access stratum.

In this embodiment, through the implementation of the steps S234 to S235, when the number of the intelligent terminals accessing the access stratum is greater than or equal to the preset terminal threshold, a new intelligent terminal is prevented from being connected to the access stratum, so as to prevent the network service system from running in an overload manner, and further improve the stability of the network service system.

Step S24: and establishing data connection with the intelligent terminal based on the request information, wherein the data connection comprises connection formed by the intelligent terminal, the access layer and the load balancer.

Step S25: and acquiring record information associated with the request information, wherein the record information comprises historical connection associated with login information before establishing data connection, and the historical connection represents connection formed by the access layer and the load balancer.

Step S26: and if the historical connection is determined to be in a connected state according to the recorded information, disconnecting the historical connection.

In this embodiment, the number of the access stratum may be multiple, the load information corresponding to each access stratum may be acquired, and when an overloaded access stratum occurs, the access stratum may be switched. The management method of the network service system provided by this embodiment may further include: determining an overloaded access layer from a plurality of access layers based on load information, wherein the load information corresponding to the overloaded access layer does not comply with access conditions; determining a target access layer from a plurality of access layers, wherein load information corresponding to the target access layer conforms to access conditions; and closing a channel accessed to the overload access layer, and sending connection resources to the intelligent terminal so that the intelligent terminal can establish connection with the network service system based on the connection resources. In some examples, the connection resources may include resources of the smart terminal to connect with the target access layer. When the intelligent terminal responds to the connection resource, connection can be established with the target access layer.

In this embodiment, the manner of determining whether the access condition is met based on the load information may refer to the description of step S23, and is not described herein again.

In order to further improve the stability of the network service system, it may be determined whether the intelligent terminal currently meets a condition of being connected to the access layer based on load information of the network service system, and for this reason, an embodiment of the present application further provides a connection intelligent management method for a network service system, where the connection intelligent management method is applied to a network service system including a load balancer and an access layer, and the connection intelligent management method may include the following steps S31 to S36. The connection intelligent management method of the network service system provided in this embodiment may include the same or similar steps as those in the foregoing embodiments, and for the execution of the same or similar steps, reference may be made to the foregoing description, and details are not repeated in this specification.

Step S31: and when receiving an access request of the intelligent terminal, acquiring request information of the intelligent terminal.

Step S32: and acquiring load information of the network service system.

Step S33: and if the load information meets the preset access condition, executing a step of establishing data connection with the intelligent terminal based on the request information.

Further, as an implementation manner of this embodiment, the load information may include an access parameter of an access stratum, and as shown in fig. 7, the step S33 may include the following steps S331 to S333.

Step S331: and determining the access frequency of the current access layer according to the access parameters.

In this embodiment, the access parameter may include the number of access information sent to the access stratum by the load balancer at different times. For example, the number may be determined by log data in the network service system, and then the access frequency to access the access stratum for a certain period of time is calculated based on the number. In some examples, the access frequency may be a frequency of accessing the access stratum per unit time, or may be an increment of a number of connections accessing the access stratum per unit time.

Step S332: and if the access frequency is less than the access frequency threshold, determining that the load information meets the access condition.

In this embodiment, the access frequency threshold may be determined empirically. For example, the access frequency threshold may be 500QPS (request Per Second), 600QPS, etc.

It should be noted that the corresponding access frequency threshold may be set at different time periods. For example, in the time period X, an access frequency threshold X is set, in the time period Y, an access frequency threshold Y is set, and in the time period Z, an access frequency threshold Z is set. The corresponding access frequency threshold is set at different time periods, so that the setting of the access frequency threshold can better accord with the access rule of accessing the access layer. For example, the access frequency threshold at three to four points in the morning may be less than the access frequency threshold at ten to eleven points in the morning.

Step S333: and if the access frequency is greater than or equal to the access frequency threshold, performing current limiting processing on the intelligent terminal.

In this embodiment, performing the current limiting process on the intelligent terminal may include: and sending preset address information to the intelligent terminal so that the intelligent terminal can access the address information, wherein the address information comprises an address which causes the intelligent terminal to be failed in establishing connection with the network service system.

In this embodiment, the preset address information may include an address at which the intelligent terminal cannot perform information transmission with the network service system. For example, the address information may be a null address, an address for directing invalid information, or the like.

In some examples, a time limit for the current limiting process may be set in advance, and the time limit may be 5s, 8s, 10s, or the like. When the time for limiting the current of the intelligent terminal exceeds the time limit, if the request of the intelligent terminal for accessing the access layer is received again, the access frequency can be analyzed again, if the access frequency is smaller than the access frequency threshold, the load information is determined to be in accordance with the access condition, otherwise, the current limiting processing is performed on the intelligent terminal again.

In this embodiment, by setting the access frequency threshold, when the access frequency of accessing the access layer is greater than or equal to the access frequency threshold, the current-limiting processing may be performed on the intelligent terminal, so as to prevent the network service system from running in an overload manner, and further improve the stability of the network service system.

Further, as an implementation manner of this embodiment, the load information may include request log data of the smart terminal, and as shown in fig. 8, the step S33 may include the following steps S334 to S336.

Step S334: and determining the request frequency according to the request record data.

In this embodiment, the request frequency may be the frequency of the request signal sent by the intelligent terminal to the access stratum through the load balancer in a unit time. The request signal is used for representing a signal sent by the intelligent terminal for obtaining specific information provided by the network service system.

Step S335: and if the request frequency is less than the request frequency threshold, determining that the load information meets the access condition.

In this embodiment, the request frequency threshold may be empirically determined. For example, the request frequency threshold may be 200QPS, 500QPS, etc.

It should be noted that the corresponding request frequency thresholds may be set at different time periods. For example, in the time period D, the request frequency threshold D is set, in the time period E, the request frequency threshold E is set, and in the time period F, the request frequency threshold F is set. The corresponding request frequency threshold is set at different time periods, so that the setting of the request frequency threshold can better accord with the request rule of the intelligent terminal.

Step S336: and if the request frequency is greater than or equal to the request frequency threshold, carrying out current limiting processing on the intelligent terminal.

In some examples, when the request frequency is greater than or equal to the request frequency threshold, it may be considered that the limit of accessing the access stratum is reached, so that the occurrence of network service system abnormality due to network attack, access abnormality, and the like may be avoided.

In addition, as for the manner of performing the current limiting process on the intelligent terminal, reference may be made to the description of step S333, which is not described herein again.

In this embodiment, by setting the request frequency threshold, when the request frequency is greater than or equal to the request frequency threshold, the current limiting processing may be performed on the intelligent terminal, so as to prevent the network service system from running under an overload condition, and further improve the stability of the network service system.

Step S34: and establishing data connection with the intelligent terminal based on the request information, wherein the data connection comprises connection formed by the intelligent terminal, the access layer and the load balancer.

Step S35: and acquiring record information associated with the request information, wherein the record information comprises historical connection associated with login information before establishing data connection, and the historical connection represents connection formed by the access layer and the load balancer.

Step S36: and if the historical connection is determined to be in a connected state according to the recorded information, disconnecting the historical connection.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application.

Embodiments of the present application provide an intelligent connection management device for a network service system, where the intelligent connection management device for the network service system corresponds to the intelligent connection management method for the network service system provided above approximately one to one.

Referring to fig. 9, a functional block diagram of a connection intelligent management apparatus of a network service system according to an embodiment of the present application is shown, where the connection intelligent management apparatus of the network service system is applied to a network service system including a load balancer and an access stratum, and the connection intelligent management apparatus of the network service system includes an information obtaining module 41, a data connection establishing module 42, a record information obtaining module 43, and a historical connection breaking module 44. The information obtaining module 41 is configured to obtain request information of the intelligent terminal when receiving an access request of the intelligent terminal. The data connection establishing module 42 is configured to establish a data connection with the intelligent terminal based on the request information, where the data connection includes a connection formed by the intelligent terminal, the access stratum, and the load balancer. The logging information obtaining module 43 is configured to obtain logging information associated with the request information, where the logging information includes a historical connection associated with the request information before the data connection is established, and the historical connection represents a connection formed by the access stratum and the load balancer. The historical connection disconnection module 44 is configured to disconnect the historical connection if it is determined that the historical connection is in a connected state according to the recording information.

Further, as an implementation manner of this embodiment, the connection intelligent management apparatus of the network service system provided in this embodiment may further include a load information obtaining module and a data connection executing module. The load information acquisition module is used for acquiring the load information of the network service system. And the data connection execution module is used for executing the step of establishing data connection with the intelligent terminal based on the request information if the load information meets the preset access condition.

Further, as an implementation manner of this embodiment, the load information includes a configuration parameter, and the data connection performing module may include a configuration utilization determining unit, a first access condition determining unit, and a first channel closing unit. The configuration utilization rate determining unit is used for determining the current configuration utilization rate according to the configuration parameters. The first access condition determining unit is configured to determine that the load information meets the access condition if the configuration utilization is smaller than a preset configuration utilization threshold. The first channel closing unit is used for closing the channel of the access layer if the configuration utilization rate is greater than or equal to the configuration utilization rate threshold value.

Further, as an implementation manner of this embodiment, the number of the intelligent terminals is multiple, the load information includes the number of the intelligent terminals accessing the access stratum, and the data connection executing module may include a second access condition determining unit and a second channel closing unit. The second access condition determining unit is configured to determine that the load information meets the access condition if the number of the intelligent terminals accessing the access stratum is smaller than a preset terminal threshold. The second channel closing unit is used for closing the channel accessed to the access layer if the number of the intelligent terminals accessed to the access layer is larger than or equal to the terminal threshold.

Further, as an implementation manner of this embodiment, the load information may include an access parameter of an access stratum; the data connection performing module may include an access frequency determining unit, a third access condition determining unit, and a current limiting unit. The access frequency determining unit is used for determining the access frequency of the current access layer according to the access parameters. The third access condition determining unit is configured to determine that the load information meets the access condition if the access frequency is smaller than the access frequency threshold. And the current limiting unit is used for performing current limiting processing on the intelligent terminal if the access frequency is greater than or equal to the access frequency threshold.

Further, as an implementation manner of this embodiment, the load information may include request record data of the intelligent terminal; the data connection performing module may include a request frequency determining unit, a fourth access condition determining unit, and a current limiting unit. The request frequency determining unit is used for determining the request frequency according to the request record data. The fourth access condition determining unit is configured to determine that the load information meets the access condition if the request frequency is smaller than the request frequency threshold. And the current limiting unit is used for performing current limiting processing on the intelligent terminal if the request frequency is greater than or equal to the request frequency threshold.

Further, as an implementation manner of this embodiment, the current limiting unit may include an address sending subunit. The address sending subunit is configured to send preset address information to the intelligent terminal, so that the intelligent terminal can access the address information, where the address information includes an address at which connection between the intelligent terminal and the network service system fails.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of each module in the above-described apparatus may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, the coupling or direct coupling or communication connection between the modules shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or modules may be in an electrical, mechanical or other form.

In addition, functional modules in the embodiments of the present application may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

Referring to fig. 10, an electronic device 800 according to an embodiment of the present application is shown, including: a processor 810, a communication module 820, a memory 830, and a bus. The processor 810, the communication module 820 and the memory 830 are connected to each other through a bus and perform communication with each other. The bus may be an ISA bus, PCI bus, EISA bus, or the like. The bus may be divided into an address bus, a data bus, a control bus, etc. Wherein:

and a memory 830 for storing programs. In particular, the memory 830 may be used to store software programs as well as various data. The memory 830 may mainly include a program storage area and a data storage area, wherein the program storage area may store an application program required to operate at least one function and may include program codes including computer operating instructions. In addition to storing programs, the memory 830 may temporarily store messages or the like that the communication module 820 needs to send. Memory 830 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The processor 810 is configured to execute programs stored in the memory 830. The program realizes the steps of the connection intelligent management method of the network service system of the above embodiments when being executed by the processor.

The embodiment of the present invention further provides a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the computer program implements each process of the above-mentioned embodiment of the method for controlling an intelligent device based on permissions, and can achieve the same technical effect, and in order to avoid repetition, the details are not repeated here. The computer-readable storage medium may be a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. An intelligent connection management method for a network service system is applied to the network service system comprising a load balancer and an access stratum, and comprises the following steps:

when an access request of an intelligent terminal is received, acquiring request information of the intelligent terminal;

establishing data connection with the intelligent terminal based on the request information, wherein the data connection comprises connection formed by the intelligent terminal, the access layer and the load balancer;

acquiring record information associated with the request information, wherein the record information comprises historical connection associated with the request information before the data connection is established, and the historical connection represents the connection formed by the access layer and the load balancer; and

and if the historical connection is determined to be in a connected state according to the record information, disconnecting the historical connection.

2. The method according to claim 1, wherein after the obtaining of the request information of the intelligent terminal when receiving the access request of the intelligent terminal, the method further comprises:

acquiring load information of the network service system; and

and if the load information meets the preset access condition, executing the step of establishing data connection with the intelligent terminal based on the request information.

3. The method of claim 2, wherein the load information comprises configuration parameters, and the step of, if the load information meets a predetermined access condition, further comprises:

determining the current configuration utilization rate according to the configuration parameters;

if the configuration utilization rate is smaller than a preset configuration utilization rate threshold value, determining that the load information meets the access condition; and

and if the configuration utilization rate is greater than or equal to the configuration utilization rate threshold value, closing a channel accessed to the access layer.

4. The method according to claim 2, wherein the number of the intelligent terminals is plural, the load information includes the number of the intelligent terminals accessing the access stratum, and the step of, if the load information meets a preset access condition, includes:

if the number of the intelligent terminals accessed to the access layer is smaller than a preset terminal threshold value, determining that the load information meets the access condition; and

and if the number of the intelligent terminals accessed to the access layer is greater than or equal to the terminal threshold value, closing the channel accessed to the access layer.

5. The method of claim 2, wherein the load information comprises access parameters of the access stratum; if the load information meets the preset access condition, the method comprises the following steps:

determining the access frequency of the current access layer according to the access parameters; and

if the access frequency is smaller than an access frequency threshold, determining that the load information meets the access condition; and

and if the access frequency is greater than or equal to the access frequency threshold, performing current limiting processing on the intelligent terminal.

6. The method according to claim 2, wherein the load information comprises request log data of the intelligent terminal; if the load information meets the preset access condition, the method comprises the following steps:

determining the request frequency according to the request record data;

if the request frequency is smaller than a request frequency threshold, determining that the load information meets the access condition; and

and if the request frequency is greater than or equal to the request frequency threshold, carrying out current limiting processing on the intelligent terminal.

7. The method according to claim 5 or 6, wherein the current limiting processing of the intelligent terminal comprises:

and sending preset address information to the intelligent terminal so that the intelligent terminal can access the address information, wherein the address information comprises an address which causes the intelligent terminal to be failed in establishing connection with the network service system.

8. An intelligent connection management device for a network service system, which is applied to the network service system comprising a load balancer and an access stratum, the device comprises:

the information acquisition module is used for acquiring request information of the intelligent terminal when receiving an access request of the intelligent terminal;

the data connection establishing module is used for establishing data connection with the intelligent terminal based on the request information, and the data connection comprises connection formed by the intelligent terminal, the access layer and the load balancer;

a record information obtaining module, configured to obtain record information associated with the request information, where the record information includes a historical connection associated with the request information before the data connection is established, and the historical connection represents a connection formed between the access stratum and the load balancer; and

and the historical connection disconnection module is used for disconnecting the historical connection if the historical connection is determined to be in a connected state according to the recording information.

9. An electronic device applied to a service system including a load balancer and an access stratum, the electronic device comprising:

a memory;

one or more processors coupled with the memory;

one or more programs stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the connection intelligence management method of the network service system of any of claims 1-7.

10. A computer-readable storage medium, wherein a program code is stored in the computer-readable storage medium, and the program code can be called by a processor to execute the connection intelligent management method of the network service system according to any one of claims 1 to 7.

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