CN113676978A - Communication control method of terminal and terminal - Google Patents

Abstract

The embodiment of the application provides a communication control method of a terminal and the terminal, wherein the terminal is communicated with a control server, the terminal comprises a cellular network module and an electronic card, the electronic card is used for networking services, and the method comprises the following steps: the cellular network module receives a networking stop service message sent by the control server; and the cellular network module modifies preset routing information according to the networking service stopping message and stops the networking service of the electronic card according to the modified routing information. The embodiment of the application can stop the networking service of the terminal without using a system interface provided by an operator.

Description

Communication control method of terminal and terminal

Technical Field

The present application relates to the field of communications technologies, and in particular, to a communication control method for a terminal and a terminal.

Background

The internet of things technology is the third information technology revolution after computers and the internet, has the characteristics of real-time performance and interactivity, and is widely applied to multiple fields of city management, digital families, positioning navigation, logistics management, security systems and the like.

The Internet of things card is a traffic card provided by an operator and meeting the networking requirements of an intelligent terminal and the management requirements of the Internet of things industry on terminal networking. At present, the management of the internet of things card basically and completely depends on a system interface opened by an operator, and the system interface has many limitations and defects, so that a user of the internet of things card is difficult to control the networking service of a terminal by using the system interface.

Disclosure of Invention

In view of the above problems, embodiments of the present application are proposed to provide a communication control method of a terminal and a corresponding terminal that overcome or at least partially solve the above problems.

In order to solve the above problem, an embodiment of the present application discloses a communication control method for a terminal, where the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, and the electronic card is used for networking services, and the method includes:

the cellular network module receives a networking stop service message sent by the control server;

and the cellular network module modifies preset routing information according to the networking service stopping message and stops the networking service of the electronic card according to the modified routing information.

Optionally, the stop networking service message comprises a first communication address; the said honeycomb network die set modifies the preset routing information according to the said stop networking service message, and stop the networking service of the said electronic card according to the routing information after modifying, including:

and the cellular network module configures the first communication address in preset routing information and stops networking service aiming at the first communication address.

Optionally, the internet service stopping message further includes a first electronic card identifier and a first module identifier; the cellular network module configures the first communication address in preset routing information, and the configuring includes:

the cellular network module judges whether a preset second module identification is matched with the first module identification and judges whether a second electronic card identification of the electronic card is matched with the first electronic card identification;

and if the second module identification is matched with the first module identification and the second electronic card identification is matched with the first electronic card identification, the cellular network module configures the first communication address in preset routing information.

Optionally, the method further comprises:

the cellular network module sends a query message to the electronic card after receiving the networking service stopping message;

the cellular network module receives a reply message returned by the electronic card aiming at the query message; the reply message comprises the second electronic card identification.

Optionally, the method further comprises:

and after the networking service is stopped according to the modified routing information, the cellular network module sends a confirmation message of stopping the networking service to the control server.

Optionally, the receiving, by the cellular network module, the networking service stopping message sent by the control server includes:

and the cellular network module receives a data packet sent by the control server, wherein the data packet comprises a networking stop service message.

The embodiment of the application also discloses a communication control method of the terminal, the terminal is communicated with the control server, the terminal comprises a cellular network module and an electronic card, the electronic card is used for networking service, and the method comprises the following steps:

the cellular network module receives a networking service starting message sent by the control server;

and the cellular network module modifies preset routing information according to the networking service starting message and starts the networking service of the electronic card according to the modified routing information.

Optionally, the initiate networking service message includes a second communication address; the said honeycomb network die set revises the preset routing information according to the said start networking service message, and start the networking service of the said electronic card according to the routing information after revising, including:

and the cellular network module configures the second communication address in preset routing information and starts networking service aiming at the second communication address.

Optionally, the message for starting the networking service further includes a third electronic card identifier and a third module identifier; the cellular network module configures the second communication address in preset routing information, and the configuring includes:

the cellular network module judges whether a preset fourth module identification is matched with the third module identification and judges whether a fourth electronic card identification of the electronic card is matched with the third electronic card identification;

and if the fourth module identification is matched with the third module identification and the fourth electronic card identification is matched with the third electronic card identification, the cellular network module configures the second communication address in preset routing information.

Optionally, the method further comprises:

after receiving the networking service starting message, the cellular network module sends a query message to the electronic card;

the cellular network module receives a reply message returned by the electronic card aiming at the query message; the reply message comprises the fourth electronic card identification.

Optionally, the method further comprises:

and after the networking service is started according to the modified routing information, the cellular network module sends a confirmation message for starting the networking service to the control server.

Optionally, the receiving, by the cellular network module, a networking service starting message sent by the control server includes:

and the cellular network module receives a data packet sent by the control server, wherein the data packet comprises a networking service starting message.

The embodiment of the application also discloses a communication control method of a terminal, the terminal is communicated with a control server, the terminal comprises a cellular network module and an electronic card, the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, the second electronic card chip is used for networking services, and the method comprises the following steps:

the cellular network module receives a networking stopping service message sent by the control server and sends the networking stopping service message to the electronic card;

and the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state to stop networking service according to the networking service stopping message.

Optionally, the receiving, by the cellular network module, a networking service stop message sent by the control server, and sending the networking service stop message to the electronic card includes:

the cellular network module receives a short message which is sent by the control server and carries a preset identifier, and sends the short message to the electronic card; the short message comprises a stop networking service message.

Optionally, the stop networking service message comprises: at least one of a fifth electronic card identifier, a fifth module identifier and a third communication address;

the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state to stop networking service according to the networking service stopping message, and the method comprises the following steps:

the electronic card judges whether the following preset judgment conditions are met:

judging whether a preset sixth module identification is matched with the fifth module identification;

and/or judging whether a preset sixth electronic card identifier is matched with the fifth electronic card identifier;

and/or, judging whether the third communication address is recorded in preset routing information;

when the following preset judgment conditions are met, the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state so as to stop networking service.

Optionally, the method further comprises:

after the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state to stop networking service according to the networking service stopping message, the electronic card sends a confirmation message of stopping the networking service to the cellular network module;

and the cellular network module sends the confirmation message of stopping the networking service to the control server.

The embodiment of the application also discloses a communication control method of a terminal, the terminal is communicated with a control server, the terminal comprises a cellular network module and an electronic card, the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, the second electronic card chip is used for networking services, and the method comprises the following steps:

the cellular network module receives a networking service starting message sent by the control server and sends the networking service starting message to the electronic card;

and the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state to start networking service according to the networking service starting message.

Optionally, the receiving, by the cellular network module, a networking service starting message sent by the control server, and sending the networking service starting message to the electronic card includes:

the cellular network module receives a short message which is sent by the control server and carries a preset identifier, and sends the short message to the electronic card; the short message comprises an initiate networking service message.

Optionally, the initiating a networking service message comprises: at least one of a seventh electronic card identifier, a seventh module identifier and a fourth communication address;

the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state to start networking service according to the networking service starting message, and the method comprises the following steps:

the electronic card judges whether the following preset judgment conditions are met:

judging whether a preset eighth module identification is matched with the seventh module identification;

and/or judging whether a preset eighth electronic card identifier is matched with the seventh electronic card identifier;

and/or, judging whether the fourth communication address is recorded in preset routing information;

when the following preset judgment conditions are met, the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state so as to start networking service.

Optionally, the method further comprises:

after the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state to start networking service according to the networking service starting message, the electronic card sends a confirmation message for starting the networking service to the cellular network module;

and the cellular network module sends a confirmation message for starting the networking service to the control server.

The embodiment of the application also discloses a communication control method of the terminal, the terminal is communicated with the control server, the terminal comprises a cellular network module and an electronic card, the electronic card is used for networking service, and the method comprises the following steps:

the cellular network module receives a control networking service message sent by the control server;

and the cellular network module controls the networking service of the electronic card according to the networking service control message.

Optionally, the controlling the networking service of the electronic card by the cellular network module according to the networking service control message includes:

and the cellular network module modifies preset routing information according to the networking control service message and controls the networking service of the electronic card according to the modified routing information.

Optionally, the controlling the networking service of the electronic card by the cellular network module according to the networking service control message includes:

the cellular network module sends the control networking service message to the electronic card;

and the electronic card controls the networking service according to the control networking service message.

Optionally, the electronic card includes a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services; the electronic card controls the networking service according to the control networking service message, and the control networking service message comprises:

and the electronic card controls the first electronic card chip to access the control server and controls the networking service of the second electronic card chip according to the control networking service message.

The embodiment of the application also discloses a communication control method of the terminal, the terminal is communicated with the control server, the terminal comprises a cellular network module and an electronic card, the electronic card is used for networking service, and the method comprises the following steps:

the cellular network module receives a control networking service message sent by the control server;

and the cellular network module modifies preset routing information according to the networking control service message and controls the networking service of the electronic card according to the modified routing information.

The embodiment of the application also discloses a communication control method of a terminal, the terminal is communicated with a control server, the terminal comprises a cellular network module and an electronic card, the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, the second electronic card chip is used for networking services, and the method comprises the following steps:

the cellular network module receives a control networking service message sent by the control server and sends the control networking service message to the electronic card;

and the electronic card controls the first electronic card chip to access the control server and controls the networking service of the second electronic card chip according to the control networking service message.

The embodiment of the present application further discloses a terminal, the terminal communicates with the control server, the terminal includes a cellular network module and an electronic card, the electronic card is used for networking services, the cellular network module includes:

a network connection stopping service message receiving module, configured to receive a network connection stopping service message sent by the control server;

and the networking service stopping module is used for modifying preset routing information according to the networking service stopping message and stopping the networking service of the electronic card according to the modified routing information.

Optionally, the stop networking service message comprises a first communication address; the networked service stop module comprises:

and the networking service stopping submodule is used for configuring the first communication address in preset routing information and stopping networking service aiming at the first communication address.

Optionally, the internet service stopping message further includes a first electronic card identifier and a first module identifier; the networking service stop sub-module comprises:

the judging unit is used for judging whether a preset second module identification is matched with the first module identification and judging whether a second electronic card identification of the electronic card is matched with the first electronic card identification;

and the routing configuration unit is used for configuring the first communication address in preset routing information if the second module identification is matched with the first module identification and the second electronic card identification is matched with the first electronic card identification.

Optionally, the cellular network module further includes:

the inquiry message sending module is used for sending an inquiry message to the electronic card after receiving the networking service stopping message;

a reply message receiving module, configured to receive a reply message returned by the electronic card for the query message; the reply message comprises the second electronic card identification.

Optionally, the cellular network module further includes:

and the networking stopping confirmation message sending module is used for sending the confirmation message for stopping the networking service to the control server after the networking service is stopped according to the modified routing information.

Optionally, the stop networking service message receiving module includes:

and the data packet receiving submodule is used for receiving the data packet sent by the control server, and the data packet comprises a networking stop service message.

The embodiment of the present application further discloses a terminal, the terminal communicates with the control server, the terminal includes a cellular network module and an electronic card, the electronic card is used for networking services, the cellular network module includes:

a network service starting message receiving module for receiving the network service starting message sent by the control server;

and the networking service starting module is used for modifying preset routing information according to the networking service starting message and starting the networking service of the electronic card according to the modified routing information.

Optionally, the initiate networking service message includes a second communication address; the networking service initiation module comprises:

and the networking service starting submodule is used for configuring the second communication address in preset routing information and starting networking service aiming at the second communication address.

Optionally, the message for starting the networking service further includes a third electronic card identifier and a third module identifier; the networking service promoter module comprises:

the judging unit is used for judging whether a preset fourth module identification is matched with the third module identification and judging whether a fourth electronic card identification of the electronic card is matched with the third electronic card identification;

and the routing configuration unit is used for configuring the second communication address in preset routing information if the fourth module identification is matched with the third module identification and the fourth electronic card identification is matched with the third electronic card identification.

Optionally, the cellular network module further includes:

the inquiry message sending module is used for sending an inquiry message to the electronic card after receiving the networking service starting message;

a reply message receiving module, configured to receive a reply message returned by the electronic card for the query message; the reply message comprises the fourth electronic card identification.

Optionally, the cellular network module further includes:

and the networking starting confirmation message sending module is used for sending a confirmation message for starting the networking service to the control server after the networking service is started according to the modified routing information.

Optionally, the module for receiving a message of initiating a networking service includes:

and the data packet receiving submodule is used for receiving the data packet sent by the control server, and the data packet comprises a networking service starting message.

The embodiment of the application also discloses a terminal, wherein the terminal is communicated with the control server and comprises a cellular network module and an electronic card, the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking service;

the cellular network module comprises:

the networking stopping service message forwarding module is used for receiving the networking stopping service message sent by the control server and sending the networking stopping service message to the electronic card;

the electronic card includes:

and the control module is used for controlling the first electronic card chip to enter a working state and controlling the second electronic card chip to be in a non-working state so as to stop networking service according to the networking service stopping message.

Optionally, the internet service message forwarding stopping module includes:

the short message receiving submodule is used for receiving a short message which is sent by the control server and carries a preset identifier and sending the short message to the electronic card; the short message comprises a stop networking service message.

Optionally, the stop networking service message comprises: at least one of a fifth electronic card identifier, a fifth module identifier and a third communication address;

the control module includes:

the preset judgment condition judgment submodule is used for judging whether the following preset judgment conditions are met:

judging whether a preset sixth module identification is matched with the fifth module identification;

and/or judging whether a preset sixth electronic card identifier is matched with the fifth electronic card identifier;

and/or, judging whether the third communication address is recorded in preset routing information;

and the control submodule is used for controlling the first electronic card chip to enter a working state and controlling the second electronic card chip to be in a non-working state to stop networking service when the following preset judgment conditions are met.

Optionally, the electronic card further comprises:

the first networking stopping confirmation message sending module is used for controlling the first electronic card chip to enter a working state and controlling the second electronic card chip to be in a non-working state to stop networking service according to the networking stopping service message by the electronic card, and then the electronic card sends a networking stopping confirmation message to the cellular network module;

the cellular network module further comprises:

and the second networking stopping confirmation message sending module is used for sending the networking stopping confirmation message to the control server.

The embodiment of the application also discloses a terminal, wherein the terminal is communicated with the control server and comprises a cellular network module and an electronic card, the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking service;

the cellular network module comprises:

the starting networking service message forwarding module is used for receiving the starting networking service message sent by the control server and sending the starting networking service message to the electronic card;

the electronic card includes:

and the control module is used for controlling the first electronic card chip to be in a non-working state and controlling the second electronic card chip to enter a working state to start networking service according to the networking service starting message.

Optionally, the network service message forwarding initiating module includes:

the short message receiving submodule is used for receiving a short message which is sent by the control server and carries a preset identifier and sending the short message to the electronic card; the short message comprises an initiate networking service message.

Optionally, the initiating a networking service message comprises: at least one of a seventh electronic card identifier, a seventh module identifier and a fourth communication address;

the control module includes:

the preset judgment condition judgment submodule is used for judging whether the following preset judgment conditions are met:

judging whether a preset eighth module identification is matched with the seventh module identification;

and/or judging whether a preset eighth electronic card identifier is matched with the seventh electronic card identifier;

and/or, judging whether the fourth communication address is recorded in preset routing information;

and the control submodule is used for controlling the first electronic card chip to be in a non-working state and controlling the second electronic card chip to enter a working state to start networking service when the following preset judgment conditions are met.

Optionally, the electronic card further comprises:

the first starting networking confirmation message sending module is used for controlling the first electronic card chip to be in a non-working state and controlling the second electronic card chip to enter a working state to start networking services according to the starting networking service messages by the electronic card, and then the electronic card sends a confirmation message for starting the networking services to the cellular network module;

the cellular network module further comprises:

and the second networking starting confirmation message sending module is used for sending the networking service starting confirmation message to the control server.

The embodiment of the present application further discloses a terminal, the terminal communicates with the control server, the terminal includes a cellular network module and an electronic card, the electronic card is used for networking services, the cellular network module includes:

the control networking service message receiving module is used for receiving the control networking service message sent by the control server;

and the first networking service control module is used for controlling the networking service of the electronic card according to the control networking service message.

Optionally, the first networked service control module comprises:

and the first networking service control submodule modifies preset routing information according to the control networking service message and controls the networking service of the electronic card according to the modified routing information.

Optionally, the first networked service control module comprises:

the control networking service message sending submodule is used for sending the control networking service message to the electronic card;

the electronic card includes:

and the second networking service control module is used for controlling the networking service according to the control networking service message.

Optionally, the electronic card includes a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services; the second networking service control module comprises:

and the second networking service control submodule is used for controlling the first electronic card chip to access the control server and controlling the networking service of the second electronic card chip according to the networking service control message.

The embodiment of the present application further discloses a terminal, the terminal communicates with the control server, the terminal includes a cellular network module and an electronic card, the electronic card is used for networking services, the cellular network module includes:

the control networking service message receiving module is used for receiving the control networking service message sent by the control server;

and the networking service control module is used for modifying preset routing information according to the networking service control message and controlling the networking service of the electronic card according to the modified routing information.

The embodiment of the present application further discloses a terminal, the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, the electronic card includes a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, the second electronic card chip is used for networking services, the cellular network module includes:

the control networking service message forwarding module is used for receiving a control networking service message sent by the control server and sending the control networking service message to the electronic card;

the electronic card includes:

and the control module is used for controlling the first electronic card chip to access the control server and controlling the networking service of the second electronic card chip according to the control networking service message.

The embodiment of the application also discloses a device, including:

one or more processors; and

one or more machine readable media having instructions stored thereon that, when executed by the one or more processors, cause the apparatus to perform the method of any of the above.

One or more machine-readable media having instructions stored thereon, which when executed by one or more processors, cause the processors to perform the method of any one of the above.

The embodiment of the application has the following advantages:

in the embodiment of the application, the terminal can receive the networking service stopping message sent by the control server through the cellular network module, modify the preset routing information according to the networking service stopping message, and stop the networking service according to the modified routing information, so that the networking service of the terminal can be stopped without using a system interface provided by an operator.

In the embodiment of the application, the terminal can receive the networking service starting message sent by the control server through the cellular network module, modify the preset routing information according to the networking service starting message, and start the networking service according to the modified routing information, so that the networking service of the terminal can be started without using a system interface provided by an operator.

In the embodiment of the application, the terminal can receive the networking stopping service message sent by the control server through the cellular network module and send the networking stopping service message to the electronic card; the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state according to the networking service stopping message, so that the networking service of the second electronic card chip is stopped, and the networking service of the terminal can be stopped without using a system interface provided by an operator.

In the embodiment of the application, the terminal can receive the networking service starting message sent by the control server through the cellular network module and send the networking service starting message to the electronic card; the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state according to the networking service starting message, and the networking service of the second electronic card chip is started, so that the networking service of the terminal can be started without using a system interface provided by an operator.

In the embodiment of the application, the terminal can receive the control networking service message sent by the control server through the cellular network module, and control the networking service of the electronic card according to the control networking service message, so that the networking service of the terminal can be controlled without using a system interface provided by an operator.

Drawings

Fig. 1 is a flowchart illustrating a first step of a first embodiment of a communication control method of a terminal;

FIG. 2 is a flow diagram of stopping a networked service in an embodiment of the present application;

fig. 3 is a flowchart illustrating steps of a second embodiment of a communication control method for a terminal according to the present application;

FIG. 4 is a flow diagram of initiating a networked service in an embodiment of the present application;

fig. 5 is a flowchart illustrating a third step of a communication control method of a terminal according to a third embodiment of the present application;

FIG. 6 is a flow chart of stopping a networked service in an embodiment of the present application;

fig. 7 is a flowchart illustrating a fourth step of an embodiment of a communication control method of a terminal according to the present application;

FIG. 8 is a flow chart of initiating a networked service in an embodiment of the present application;

fig. 9 is a schematic diagram of a control server controlling terminal communications;

fig. 10 is a flowchart illustrating a fifth step of a communication control method of a terminal according to an embodiment of the present application;

fig. 11 is a flowchart illustrating a sixth embodiment of a communication control method of a terminal according to the present application;

fig. 12 is a flowchart illustrating a seventh embodiment of a communication control method of a terminal according to the present application;

fig. 13 is a block diagram of a first terminal according to a first embodiment of the present application;

fig. 14 is a block diagram of a second terminal according to the second embodiment of the present application;

fig. 15 is a block diagram of a third embodiment of a terminal according to the present application;

fig. 16 is a block diagram of a fourth embodiment of a terminal according to the present application;

fig. 17 is a block diagram of a fifth embodiment of a terminal according to the present application;

fig. 18 is a block diagram of a sixth embodiment of a terminal according to the present application;

fig. 19 is a block diagram of a seventh embodiment of a terminal according to the present application.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, the present application is described in further detail with reference to the accompanying drawings and the detailed description.

With the development of the internet of things, more and more terminals have the capability of accessing the network by installing a cellular network module and an electronic card. The cellular communication module has the function of bearing end-to-end and end-to-background server data interaction, is a user data transmission channel, and is one of core components of the terminal of the Internet of things. The electronic card is configured with access authentication information and can perform functions such as data interaction and access verification.

In the embodiment of the application, by deploying the control server, the terminal can start and stop the online service according to the message sent by the control server without depending on a system interface provided by an operator.

The control server may be a private server rather than an operator provided server. For example, in a logistics warehouse, a warehouse manager may deploy a control server by which to control the start and stop of networked services for terminals within the warehouse.

The electronic card of the embodiment of the application can include, but is not limited to, an internet of things card, a SIM card of a mobile phone, a mini-SIM card, a micro-SIM card, a nano-SIM card, and the like.

Referring to fig. 1, a flowchart illustrating steps of a first embodiment of a communication control method for a terminal according to the present application is shown, where the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, and the electronic card is used for networking services, and the method may specifically include the following steps:

and 101, the cellular network module receives a networking service stopping message sent by the control server.

In the embodiment of the present application, the terminal may be a terminal mounted with an electronic card having a single chip, the electronic card being configured with authentication information allowing access to an operator network, having a capability of normally accessing the network. When the network service needs to be opened, authentication is required to be performed with a system interface provided by an operator according to the authentication information, and the network service can be opened after the authentication is passed.

For a terminal with an electronic card with a single chip, when the networking service of the terminal needs to be stopped, the control server can send a message of stopping the networking service to the terminal, and the cellular network module of the terminal receives the message of stopping the networking service.

Specifically, the cellular network module may receive a data packet sent by the control server, where the data packet may include a network connection stop service message. The data packet may be an IP data packet sent by the control server according to an IP protocol.

And step 102, the cellular network module modifies preset routing information according to the networking service stopping message, and stops the networking service of the electronic card according to the modified routing information.

In an embodiment of the present application, the cease networking services message may include a first communication address; the first communication address may include one or more communication addresses, and the communication address may be an IP address of an IP protocol, or may be an address of another communication protocol. Step 102 may include: and the cellular network module configures the first communication address in preset routing information and stops networking service aiming at the first communication address. The cellular network module may also discard the data packets communicated to and received from the first communication address.

In one example, the preset routing information may be a blacklist or a routing table, and the terminal stops the networking service for the communication address in the blacklist or the routing table. The first communication address may be added to a blacklist or routing table to stop the networking service for the first communication address.

In another example, the preset routing information may be a white list or a routing table, and the terminal initiates the networking service only for the communication address in the white list or the routing table. The first communication address may be deleted from the white list or routing table to thereby cease networking services for the first communication address.

In this embodiment of the present application, the message of stopping networking service may further include a first electronic card identifier and a first module identifier; the step of configuring, by the cellular network module, the first communication address in preset routing information may include:

the cellular network module judges whether a preset second module identification is matched with the first module identification and judges whether a second electronic card identification of the electronic card is matched with the first electronic card identification;

and if the second module identification is matched with the first module identification and the second electronic card identification is matched with the first electronic card identification, the cellular network module configures the first communication address in preset routing information.

The preset second module identifier may be a module identifier of the cellular network module itself, for example, a module number, and the module number may be a one-to-one identifier assigned to the cellular network module by a manufacturer.

In the embodiment of the application, the cellular network module can send the query message to the electronic card after receiving the networking service stopping message; after receiving the query message, the electronic card returns a reply message to the cellular network module; the cellular network module receives a reply message returned by the electronic card aiming at the query message; the reply message may include a second electronic card identifier of the electronic card itself, such as an electronic card number.

The cellular network module can send a confirmation message of stopping the networking service to the control server after stopping the networking service according to the modified routing information so as to inform the control server that the networking service is stopped.

In the embodiment of the application, the terminal can receive the networking service stopping message sent by the control server through the cellular network module, modify the preset routing information according to the networking service stopping message, and stop the networking service according to the modified routing information, so that the networking service of the terminal can be stopped without using a system interface provided by an operator.

In order to enable those skilled in the art to better understand the embodiments of the present application, the following description is given by way of an example: referring to fig. 2, a flow chart of stopping the networked service in the embodiment of the present application is shown. The process can include:

1. the control server sends a networking stop service message to the cellular network module, where the networking stop service message may include: card number, module number, communication address.

2. The cellular network module receives and analyzes the networking stop service message, and the cellular network module sends a query message to the electronic card.

3. The electronic card returns a reply message to the cellular network module, wherein the reply message comprises the card number of the electronic card.

4. The cellular network module acquires a module number of the cellular network module, judges whether the module number of the cellular network module is matched with the module number in the networking service cancellation stopping process, and judges whether the card number of the electronic card is matched with the card number in the networking service cancellation stopping process; if the IP data packets are matched with the communication addresses, the communication addresses in the network service stopping process are adopted, preset routing information (black lists, white lists or routing tables) is modified, the network service aiming at the communication addresses is stopped, and the IP data packets communicated with the communication addresses are lost.

5. The cellular network module sends a confirmation message for stopping the networking service to the control server to determine the shutdown.

Referring to fig. 3, a flowchart illustrating steps of a second embodiment of a communication control method of a terminal according to the present application is shown, where the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, and the electronic card is used for networking services, and the method may specifically include the following steps:

step 301, the cellular network module receives a network service starting message sent by the control server;

for a terminal with an electronic card with a single chip, when the networking service of the terminal needs to be started, the control server can send a networking service starting message to the terminal, and the networking service starting message is received by a cellular network module of the terminal.

Specifically, the cellular network module may receive a data packet sent by the control server, where the data packet may include a message for starting the networking service. The data packet may be an IP data packet sent by the control server according to an IP protocol.

And 302, the cellular network module modifies preset routing information according to the networking service starting message and starts the networking service of the electronic card according to the modified routing information.

In an embodiment of the application, the initiating networking service message may include a second communication address; wherein the second communication address may comprise one or more communication addresses. Step 302 may include: and the cellular network module configures the second communication address in preset routing information and starts networking service aiming at the second communication address.

In one example, the preset routing information may be a blacklist or a routing table, and the terminal stops the networking service for the communication address in the blacklist or the routing table. The second communication address may be deleted from the blacklist or routing table to initiate a networking service for the second communication address.

In another example, the preset routing information may be a white list or a routing table, and the terminal initiates the networking service only for the communication address in the white list or the routing table. The second communication address may be added to a white list or routing table to initiate a networking service for the second communication address.

In this embodiment of the application, the message for starting the networking service may further include a third electronic card identifier and a third module identifier; the step of configuring, by the cellular network module, the second communication address in preset routing information may include:

the cellular network module judges whether a preset fourth module identification is matched with the third module identification and judges whether a fourth electronic card identification of the electronic card is matched with the third electronic card identification;

and if the fourth module identification is matched with the third module identification and the fourth electronic card identification is matched with the third electronic card identification, the cellular network module configures the second communication address in preset routing information.

The preset fourth module identifier may be a module identifier of the cellular network module itself.

In the embodiment of the application, the cellular network module may send a query message to the electronic card after receiving the networking service starting message; after receiving the query message, the electronic card returns a reply message to the cellular network module; the cellular network module receives a reply message returned by the electronic card aiming at the query message; the reply message includes a fourth electronic card identification of the electronic card itself.

The cellular network module can send a confirmation message for starting the networking service to the control server after starting the networking service according to the modified routing information so as to inform the control server that the networking service is started.

In the embodiment of the application, the terminal can receive the networking service starting message sent by the control server through the cellular network module, modify the preset routing information according to the networking service starting message, and start the networking service according to the modified routing information, so that the networking service of the terminal can be started without using a system interface provided by an operator.

In order to enable those skilled in the art to better understand the embodiments of the present application, the following description is given by way of an example: referring to fig. 4, a flowchart for starting a networked service in the embodiment of the present application is shown. The process can include:

1. the control server sends a message for starting the networking server to the cellular network module, and the message for starting the networking service may include: card number, module number, communication address.

2. The cellular network module receives and analyzes the network service starting message, and the cellular network module sends a query message to the electronic card.

3. The electronic card returns a reply message to the cellular network module, wherein the reply message comprises the card number of the electronic card.

4. The cellular network module acquires a module number of the cellular network module, judges whether the module number of the cellular network module is matched with a module number in the network service cancel starting process, and judges whether the card number of the electronic card is matched with the card number in the network service cancel starting process; if the communication addresses are matched, the communication addresses in the network service starting process are adopted, preset routing information (a black list, a white list or a routing table) is modified, and the network service aiming at the communication addresses is started.

5. The cellular network module sends a confirmation message for starting the networking service to the control server to determine the startup.

Referring to fig. 5, a flowchart illustrating a third step of an embodiment of a communication control method of a terminal according to the present application is shown, where the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, the electronic card includes a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services, where the method may specifically include the following steps:

step 501, the cellular network module receives a networking stop service message sent by the control server, and sends the networking stop service message to the electronic card;

in the embodiment of the application, the terminal can be provided with an electronic card with double chips or even multiple chips, and the chips can comprise a first electronic card chip and a second electronic card chip.

The first electronic card chip is provided with authentication information allowing access to the control server, can access the control server and only has basic management control communication capacity; but is not configured with authentication information allowing access to the operator's network and does not have the capability of normally accessing the network. The second electronic card chip is provided with authentication information allowing access to an operator network, has the capability of normally accessing the network and can perform networking service.

For a terminal with a dual-chip or even multi-chip electronic card, when the networking service of the terminal needs to be stopped, the control server can send a message of stopping the networking service to the terminal, and the cellular network module of the terminal receives the message of stopping the networking service.

Specifically, the cellular network module may receive a short message carrying a preset identifier sent by the control server, where the short message may include a network connection stopping service message.

The short message carrying the preset identifier may be a protocol identifier ANSI-136R-DATA, and a DATA coding scheme is a level 2 short message; it is also possible to download the SIM card data using the protocol identifier and encode the data using the level 2 short message.

Step 502, the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state to stop the networking service according to the networking service stopping message.

The electronic card can switch the first electronic card chip to a working state and switch the second electronic card chip to a non-working state according to the networking service stopping message. The first electronic card chip can only communicate with the control server after entering the working state, the networking service is stopped when the second electronic card chip is in the non-working state, and the terminal cannot access the network.

In an embodiment of the present application, the stop networking service message may include: at least one of a fifth electronic card identifier, a fifth module identifier and a third communication address; step 502 may specifically include:

the electronic card judges whether the following preset judgment conditions are met:

the first judgment condition: judging whether a preset sixth module identification is matched with the fifth module identification; and/or the presence of a gas in the gas,

second judgment condition: judging whether the preset sixth electronic card identifier is matched with the fifth electronic card identifier; and/or the presence of a gas in the gas,

the third judgment condition: judging whether the third communication address is recorded in the preset routing information;

when the following preset judgment conditions are met, the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state.

The preset sixth module identifier may be a module identifier of the cellular network module itself. The preset sixth electronic card identifier may be an electronic card identifier of the electronic card itself.

The predetermined judgment condition may be one of seven combination modes that can be formed by the three judgment conditions.

For example, the predetermined determination condition is a first determination condition, and when the first determination condition is satisfied, the first electronic card chip is controlled to enter a working state, and the second electronic card chip is controlled to be in a non-working state.

For another example, the predetermined determination condition includes a first determination condition, a second determination condition, and a third determination condition, and when the three determination conditions are satisfied, the first electronic card chip is controlled to enter a working state, and the second electronic card chip is controlled to be in a non-working state.

In the embodiment of the present application, after the electronic card controls the first electronic card chip to enter the working state and controls the second electronic card chip to be in the non-working state according to the networking service stopping message, the electronic card sends a confirmation message of stopping the networking service to the cellular network module to inform that the cellular network module has stopped the networking service. The cellular network module sends a confirmation message of stopping the networking service to the control server to inform the control server that the networking service is stopped.

In the embodiment of the application, the terminal can receive the networking stopping service message sent by the control server through the cellular network module and send the networking stopping service message to the electronic card; the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state according to the networking service stopping message, so that the networking service of the second electronic card chip is stopped, and the networking service of the terminal can be stopped without using a system interface provided by an operator.

In order to enable those skilled in the art to better understand the embodiments of the present application, the following description is given by way of an example: referring to fig. 6, a flowchart of stopping the networked service in the embodiment of the present application is shown. The process can include:

1. the control server sends a short message carrying a preset identifier to the cellular network module, where the short message may include a network connection stopping service message, and the network connection stopping service message may include: card number, module number, communication address.

2. The cellular network module receives a short message carrying a preset identifier and forwards the short message to the double-chip electronic card; the dual-chip electronic card comprises a first electronic card chip and a second electronic card chip, wherein the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services.

3. The electronic card analyzes the short message carrying the preset identifier to obtain a message for stopping networking service; judging whether the card number or the module number or the communication address in the networking stop service message is matched with the preset information in the terminal; if the chip is matched with the first electronic card chip, the service of the first electronic card chip is activated, and the service of the second electronic card chip is stopped.

4. The electronic card sends a confirmation message to the cellular network module to stop the networking service, determining the shutdown.

5. The cellular network module sends a confirmation message for stopping the networking service to the control server to determine the shutdown.

Referring to fig. 7, a flowchart illustrating a fourth step of an embodiment of a communication control method of a terminal according to the present application is shown, where the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, the electronic card includes a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services, where the method may specifically include the following steps:

701, the cellular network module receives a networking service starting message sent by the control server and sends the networking service starting message to the electronic card;

in the embodiment of the application, the terminal can be provided with an electronic card with double chips or even multiple chips, and the chips can comprise a first electronic card chip and a second electronic card chip.

The first electronic card chip is provided with authentication information allowing access to the control server, can access the control server and only has basic management control communication capacity; but is not configured with authentication information allowing access to the operator's network and does not have the capability of normally accessing the network. The second electronic card chip is provided with authentication information allowing access to an operator network, has the capability of normally accessing the network and can perform networking service.

For a terminal with a dual-chip or even multi-chip electronic card, when the networking service of the terminal needs to be started, the control server can send a networking service starting message to the terminal, and the networking service starting message is received by a cellular network module of the terminal.

Specifically, the cellular network module may receive a short message carrying a preset identifier sent by the control server, where the short message may include a message for starting a networking service.

The short message carrying the preset identifier may be a protocol identifier ANSI-136R-DATA, and a DATA coding scheme is a level 2 short message; it is also possible to download the SIM card data using the protocol identifier and encode the data using the level 2 short message.

Step 702, the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state to start networking service according to the networking service starting message.

The electronic card can switch the first electronic card chip to a non-working state and switch the second electronic card chip to a working state according to the networking service starting message. After the second electronic card chip enters a working state, the networking service is started, and the terminal can normally access the network.

In an embodiment of the present application, initiating the networking service message may include: at least one of a seventh electronic card identifier, a seventh module identifier and a fourth communication address; step 702 may specifically include:

the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state to start networking service according to the networking service starting message, and the method comprises the following steps:

the electronic card judges whether the following preset judgment conditions are met:

the first judgment condition: judging whether the preset eighth module identification is matched with the seventh module identification; and/or the presence of a gas in the gas,

second judgment condition: judging whether the preset eighth electronic card identifier is matched with the seventh electronic card identifier; and/or the presence of a gas in the gas,

the third judgment condition: judging whether the fourth communication address is recorded in the preset routing information or not;

when the following preset judgment conditions are met, the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state.

The preset eighth module identifier may be a module identifier of the cellular network module itself. The preset eighth electronic card identifier may be an electronic card identifier of the electronic card itself.

The predetermined judgment condition may be one of seven combination modes that can be formed by the three judgment conditions.

For example, the predetermined determination condition is a first determination condition, and when the first determination condition is satisfied, the first electronic card chip is controlled to be in a non-working state and the second electronic card chip is controlled to enter a working state.

For another example, the predetermined determination condition includes a first determination condition and a second determination condition, and when both of the first and second determination conditions are satisfied, the first electronic card chip is controlled to be in a non-operating state and the second electronic card chip is controlled to enter an operating state.

In the embodiment of the application, after the electronic card controls the first electronic card chip to be in the non-working state and controls the second electronic card chip to enter the working state according to the networking service starting message, the electronic card sends a networking service starting confirmation message to the cellular network module to inform the cellular network module that the networking service is started. The cellular network module sends a confirmation message for starting the networking service to the control server to inform the control server that the networking service is started.

In the embodiment of the application, the terminal can receive the networking service starting message sent by the control server through the cellular network module and send the networking service starting message to the electronic card; the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state according to the networking service starting message, and the networking service of the second electronic card chip is started, so that the networking service of the terminal can be started without using a system interface provided by an operator.

In order to enable those skilled in the art to better understand the embodiments of the present application, the following description is given by way of an example: referring to fig. 8, a flowchart for starting a networked service in an embodiment of the present application is shown. The process can include:

1. the control server sends a short message carrying a preset identifier to the cellular network module, where the short message may include a network connection service starting message, and the network connection service starting message may include: card number, module number, communication address.

2. The cellular network module receives a short message carrying a preset identifier and forwards the short message to the double-chip electronic card; the dual-chip electronic card comprises a first electronic card chip and a second electronic card chip, wherein the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services.

3. The electronic card analyzes the short message carrying the preset identifier to obtain a message for starting the networking service; judging whether the card number or module number or communication address in the message for starting the networking service is matched with the preset information in the terminal; and if the chip is matched with the first electronic card chip, activating the service of the second electronic card chip and stopping the service of the first electronic card chip.

4. The electronic card sends a confirmation message for starting the networking service to the cellular network module to determine the startup.

5. The cellular network module sends a confirmation message for starting the networking service to the control server to determine the startup.

Referring to fig. 9, a schematic diagram of a control server controlling terminal communications is shown. The control server can communicate with a plurality of terminals in a communication range, and the terminals can be mobile phones, tablet computers, televisions, notebook computers, smart home devices, wearable electronic devices, vehicle-mounted devices, virtual reality devices and the like. The smart home device may specifically be: a television, a sound box, an air conditioner (also referred to as a smart air conditioner), a refrigerator (also referred to as a smart refrigerator), an electric lamp (also referred to as a smart lamp or a smart bulb), a curtain (also referred to as a smart curtain), or the like. The terminal may include a cellular network module and an electronic card.

The control server may send a control networking server message to each terminal, respectively, to control the networking service of each terminal.

For terminals that need to start a networking service, the control server may send a message to start the networking service to these terminals. And after receiving the networking service starting message, the cellular network module of the terminal starts the networking service of the electronic card.

For terminals that need to stop the networking service, the control server may send a stop networking service message to these terminals. And after the cellular network module of the terminal receives the networking service stopping message, stopping the networking service of the electronic card.

Referring to fig. 10, a flowchart of fifth step of an embodiment of a communication control method of a terminal according to the present application is shown, where the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, and the electronic card is used for networking services, and the method may specifically include the following steps:

and 1001, the cellular network module receives a control networking service message sent by the control server.

Step 1002, the cellular network module controls the networking service of the electronic card according to the networking service control message.

In one example, the step 1002 may include: and the cellular network module modifies preset routing information according to the networking control service message and controls the networking service of the electronic card according to the modified routing information.

Wherein controlling the networking service message may include starting the networking service message and stopping the networking service message.

If the control networking service message is a starting networking service message, the cellular network module can modify preset routing information according to the starting networking service message and start the networking service of the electronic card according to the modified routing information.

If the control networking service message is a networking stop service message, the cellular network module can modify preset routing information according to the networking stop service message and stop the networking service of the electronic card according to the modified routing information.

In another example, the step 1002 may include: the cellular network module sends the control networking service message to the electronic card; and the electronic card controls the networking service according to the control networking service message.

The electronic card comprises a first electronic card chip and a second electronic card chip, wherein the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services; the step of the electronic card controlling the networking service according to the control networking service message may include: and the electronic card controls the first electronic card chip to access the control server and controls the networking service of the second electronic card chip according to the control networking service message.

If the control networking service message is a starting networking service message, the electronic card can control the first electronic card chip to be in a non-working state and control the second electronic card chip to enter a working state according to the starting networking service message so as to start networking service.

If the networking service stopping message is the networking service stopping message, the electronic card can control the first electronic card chip to enter a working state and control the second electronic card chip to be in a non-working state to stop the networking service according to the networking service stopping message.

In the embodiment of the application, the terminal can receive the control networking service message sent by the control server through the cellular network module, and control the networking service of the electronic card according to the control networking service message, so that the networking service of the terminal can be controlled without using a system interface provided by an operator.

Referring to fig. 11, a flowchart illustrating sixth steps of a communication control method embodiment of a terminal according to the present application is shown, where the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, and the electronic card is used for networking services, and the method may specifically include the following steps:

step 1101, the cellular network module receives a control networking service message sent by the control server.

Step 1102, the cellular network module modifies preset routing information according to the networking control service message, and controls the networking service of the electronic card according to the modified routing information.

In an embodiment of the present application, controlling the networking service message may include stopping the networking service message and starting the networking service message.

If the control networking service message is a starting networking service message, the cellular network module modifies preset routing information according to the starting networking service message and starts the networking service of the electronic card according to the modified routing information.

If the control networking service message is a networking service stopping message, the cellular network module modifies preset routing information according to the networking service stopping message and stops the networking service of the electronic card according to the modified routing information.

In the embodiment of the application, the terminal can receive the control networking service message sent by the control server through the cellular network module, modify the preset routing information according to the control networking service message, and control the networking service according to the modified routing information, so that the networking service of the terminal can be controlled without using a system interface provided by an operator.

Referring to fig. 12, a flowchart illustrating a seventh step of an embodiment of a communication control method of a terminal according to the present application is shown, where the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, the electronic card includes a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services, where the method may specifically include the following steps:

step 1201, the cellular network module receives the control networking service message sent by the control server, and sends the control networking service message to the electronic card.

Step 1202, the electronic card controls the first electronic card chip to access the control server and controls the networking service of the second electronic card chip according to the control networking service message.

In an embodiment of the present application, controlling the networking service message may include stopping the networking service message and starting the networking service message.

If the control networking service message is a starting networking service message, the electronic card can control the first electronic card chip to be in a non-working state and control the second electronic card chip to enter a working state according to the starting networking service message so as to start networking service.

If the networking service stopping message is the networking service stopping message, the electronic card can control the first electronic card chip to enter a working state and control the second electronic card chip to be in a non-working state to stop the networking service according to the networking service stopping message.

In the embodiment of the application, the terminal can receive the control networking service message sent by the control server through the cellular network module and send the control networking service message to the electronic card; the electronic card controls the working state of the first electronic card chip to control the first electronic card chip to access the control server and controls the working state of the second electronic card chip to control the networking service of the second electronic card chip according to the networking service control message, and the networking service of the terminal can be controlled without using a system interface provided by an operator.

It should be noted that, for simplicity of description, the method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the embodiments are not limited by the order of acts described, as some steps may occur in other orders or concurrently depending on the embodiments. Further, those skilled in the art will also appreciate that the embodiments described in the specification are presently preferred and that no particular act is required of the embodiments of the application.

Referring to fig. 13, there is shown a block diagram of a first embodiment of a terminal of the present application, the terminal communicating with a control server, the terminal including a cellular network module 130 and an electronic card 131, the electronic card 131 being used for networking services, the cellular network module 130 may include:

a network service stopping message receiving module 1301, configured to receive a network service stopping message sent by the control server;

and the networking service stopping module 1302 is configured to modify preset routing information according to the networking service stopping message, and stop the networking service of the electronic card according to the modified routing information.

In an embodiment of the present application, the cease networking services message may include a first communication address; the networked service stop module 1302 may include:

and the networking service stopping submodule is used for configuring the first communication address in preset routing information and stopping networking service aiming at the first communication address.

In the embodiment of the application, the message for stopping networking service further comprises a first electronic card identifier and a first module identifier; the networked service stop sub-module may include:

the judging unit is used for judging whether a preset second module identification is matched with the first module identification and judging whether a second electronic card identification of the electronic card is matched with the first electronic card identification;

and the routing configuration unit is used for configuring the first communication address in preset routing information if the second module identification is matched with the first module identification and the second electronic card identification is matched with the first electronic card identification.

In this embodiment, the cellular network module 130 may further include:

the inquiry message sending module is used for sending an inquiry message to the electronic card after receiving the networking service stopping message;

a reply message receiving module, configured to receive a reply message returned by the electronic card for the query message; the reply message comprises the second electronic card identification.

In this embodiment, the cellular network module 130 may further include:

and the networking stopping confirmation message sending module is used for sending the confirmation message for stopping the networking service to the control server after the networking service is stopped according to the modified routing information.

In this embodiment of the application, the stop networking service message receiving module 1301 may include:

and the data packet receiving submodule is used for receiving the data packet sent by the control server, and the data packet comprises a networking stop service message.

In the embodiment of the application, the terminal can receive the networking service stopping message sent by the control server through the cellular network module, modify the preset routing information according to the networking service stopping message, and stop the networking service according to the modified routing information, so that the networking service of the terminal can be stopped without using a system interface provided by an operator.

Referring to fig. 14, there is shown a block diagram of a second embodiment of a terminal according to the present application, the terminal being in communication with a control server, the terminal including a cellular network module 140 and an electronic card 141, the electronic card 141 being used for networking services, the cellular network module 140 may include:

a network service starting message receiving module 1401, configured to receive a network service starting message sent by the control server;

and the networking service starting module 1402 is configured to modify preset routing information according to the networking service starting message, and start networking service of the electronic card according to the modified routing information.

In an embodiment of the application, the message for initiating the networking service includes a second communication address; the networked service initiation module 1402 may include:

and the networking service starting submodule is used for configuring the second communication address in preset routing information and starting networking service aiming at the second communication address.

In this embodiment of the application, the message for starting the networking service may further include a third electronic card identifier and a third module identifier; the networking services promoter module may include:

the judging unit is used for judging whether a preset fourth module identification is matched with the third module identification and judging whether a fourth electronic card identification of the electronic card is matched with the third electronic card identification;

and the routing configuration unit is used for configuring the second communication address in preset routing information if the fourth module identification is matched with the third module identification and the fourth electronic card identification is matched with the third electronic card identification.

In this embodiment, the cellular network module 140 may further include:

the inquiry message sending module is used for sending an inquiry message to the electronic card after receiving the networking service starting message;

a reply message receiving module, configured to receive a reply message returned by the electronic card for the query message; the reply message comprises the fourth electronic card identification.

In this embodiment, the cellular network module 140 may further include:

and the networking starting confirmation message sending module is used for sending a confirmation message for starting the networking service to the control server after the networking service is started according to the modified routing information.

In this embodiment, the initiating the networking service message receiving module 1401 may include:

and the data packet receiving submodule is used for receiving the data packet sent by the control server, and the data packet comprises a networking service starting message.

In the embodiment of the application, the terminal can receive the networking service starting message sent by the control server through the cellular network module, modify the preset routing information according to the networking service starting message, and start the networking service according to the modified routing information, so that the networking service of the terminal can be started without using a system interface provided by an operator.

Referring to fig. 15, there is shown a block diagram of a third embodiment of a terminal according to the present application, the terminal is in communication with a control server, the terminal includes a cellular network module 150 and an electronic card 151, the electronic card 151 includes a first electronic card chip 1511 and a second electronic card chip 1512, the first electronic card chip 1511 is used for accessing the control server, and the second electronic card chip 1512 is used for networking services;

the cellular network module 150 may include:

a networking stop service message forwarding module 1501, configured to receive a networking stop service message sent by the control server, and send the networking stop service message to the electronic card;

the electronic card 151 may include:

and a control module 1513, configured to control the first electronic card chip to enter a working state according to the networking service stop message, and control the second electronic card chip to be in a non-working state to stop networking service.

In this embodiment, the stop networking service message forwarding module 1501 may include:

the short message receiving submodule is used for receiving a short message which is sent by the control server and carries a preset identifier and sending the short message to the electronic card; the short message comprises a stop networking service message.

In an embodiment of the present application, the stop networking service message may include: at least one of a fifth electronic card identifier, a fifth module identifier and a third communication address;

the control module 1513 may include:

the preset judgment condition judgment submodule is used for judging whether the following preset judgment conditions are met:

judging whether a preset sixth module identification is matched with the fifth module identification;

and/or judging whether a preset sixth electronic card identifier is matched with the fifth electronic card identifier;

and/or, judging whether the third communication address is recorded in preset routing information;

and the control submodule is used for controlling the first electronic card chip to enter a working state and controlling the second electronic card chip to be in a non-working state to stop networking service when the following preset judgment conditions are met.

In the embodiment of the present application, the electronic card 151 may further include:

the first networking stopping confirmation message sending module is used for controlling the first electronic card chip to enter a working state and controlling the second electronic card chip to be in a non-working state to stop networking service according to the networking stopping service message by the electronic card, and then the electronic card sends a networking stopping confirmation message to the cellular network module;

the cellular network module 150 may further include:

and the second networking stopping confirmation message sending module is used for sending the networking stopping confirmation message to the control server.

In the embodiment of the application, the terminal can receive the networking stopping service message sent by the control server through the cellular network module and send the networking stopping service message to the electronic card; the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state according to the networking service stopping message, so that the networking service of the second electronic card chip is stopped, and the networking service of the terminal can be stopped without using a system interface provided by an operator.

Referring to fig. 16, there is shown a block diagram of a fourth embodiment of the terminal of the present application, the terminal is in communication with a control server, the terminal includes a cellular network module 160 and an electronic card 161, the electronic card 161 includes a first electronic card chip 1611 and a second electronic card chip 1612, the first electronic card chip 1611 is used for accessing the control server, and the second electronic card chip 1612 is used for networking services;

the cellular network module 160 may include:

a network service starting message forwarding module 1601 configured to receive a network service starting message sent by the control server, and send the network service starting message to the electronic card;

the electronic card 161 may include:

a control module 1613, configured to control the first electronic card chip to be in a non-working state and control the second electronic card chip to enter a working state to start networking services according to the networking service starting message.

In this embodiment of the present application, the initiating networking service message forwarding module 1601 may include:

the short message receiving submodule is used for receiving a short message which is sent by the control server and carries a preset identifier and sending the short message to the electronic card; the short message comprises an initiate networking service message.

In an embodiment of the present application, initiating the networking service message may include: at least one of a seventh electronic card identifier, a seventh module identifier and a fourth communication address;

the control module 1613 may include:

the preset judgment condition judgment submodule is used for judging whether the following preset judgment conditions are met:

judging whether a preset eighth module identification is matched with the seventh module identification;

and/or judging whether a preset eighth electronic card identifier is matched with the seventh electronic card identifier;

and/or, judging whether the fourth communication address is recorded in preset routing information;

and the control submodule is used for controlling the first electronic card chip to be in a non-working state and controlling the second electronic card chip to enter a working state to start networking service when the following preset judgment conditions are met.

In the embodiment of the present application, the electronic card 161 may further include:

the first starting networking confirmation message sending module is used for controlling the first electronic card chip to be in a non-working state and controlling the second electronic card chip to enter a working state to start networking services according to the starting networking service messages by the electronic card, and then the electronic card sends a confirmation message for starting the networking services to the cellular network module;

the cellular network module 160 may further include:

and the second networking starting confirmation message sending module is used for sending the confirmation message for starting the networking service to the control server.

In the embodiment of the application, the terminal can receive the networking service starting message sent by the control server through the cellular network module and send the networking service starting message to the electronic card; the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state according to the networking service starting message, and the networking service of the second electronic card chip is started, so that the networking service of the terminal can be started without using a system interface provided by an operator.

Referring to fig. 17, there is shown a block diagram of a fifth embodiment of a terminal of the present application, the terminal communicating with a control server, the terminal including a cellular network module 170 and an electronic card 171, the electronic card 171 being used for networking services, the cellular network module 170 may include:

a control networking service message receiving module 1701 for receiving a control networking service message sent by the control server;

a first networking service control module 1702, configured to control the networking service of the electronic card according to the control networking service message.

In an example of the embodiment of the present application, the first networked service control module 1702 may include:

and the first networking service control submodule modifies preset routing information according to the control networking service message and controls the networking service of the electronic card according to the modified routing information.

Wherein controlling the networking service message may include starting the networking service message and stopping the networking service message.

If the control networking service message is a starting networking service message, the first networking service control module can modify preset routing information according to the starting networking service message and start the networking service of the electronic card according to the modified routing information.

If the control networking service message is a networking service stopping message, the first networking service control module can modify preset routing information according to the networking service stopping message and stop the networking service of the electronic card according to the modified routing information.

In another example of the embodiment of the present application, the first networked service control module 1702 may include:

the control networking service message sending submodule is used for sending the control networking service message to the electronic card;

the electronic card 171 may include:

and the second networking service control module is used for controlling the networking service according to the control networking service message.

The electronic card 171 may include a first electronic card chip and a second electronic card chip, where the first electronic card chip is used to access the control server, and the second electronic card chip is used for networking services; the second networking service control module may include:

and the second networking service control submodule is used for controlling the first electronic card chip to access the control server and controlling the networking service of the second electronic card chip according to the networking service control message.

If the control networking service message is a starting networking service message, the second networking service control submodule can control the first electronic card chip to be in a non-working state and control the second electronic card chip to enter a working state to start networking service according to the starting networking service message.

If the networking service stopping message is the networking service stopping message, the second networking service control submodule can control the first electronic card chip to enter a working state and control the second electronic card chip to be in a non-working state to stop the networking service according to the networking service stopping message.

In the embodiment of the application, the terminal can receive the control networking service message sent by the control server through the cellular network module, and control the networking service of the electronic card according to the control networking service message, so that the networking service of the terminal can be controlled without using a system interface provided by an operator.

Referring to fig. 18, there is shown a block diagram of a sixth embodiment of a terminal of the present application, the terminal being in communication with a control server, the terminal including a cellular network module 180 and an electronic card 181, the electronic card 181 being used for networking services, the cellular network module 180 may include:

a control networking service message receiving module 1801, configured to receive a control networking service message sent by the control server;

and the networking service control module 1802 is configured to modify preset routing information according to the networking service control message, and control the networking service of the electronic card according to the modified routing information.

Wherein controlling the networking service message may include starting the networking service message and stopping the networking service message.

If the control networking service message is a starting networking service message, the networking service control module can modify preset routing information according to the starting networking service message and start the networking service of the electronic card according to the modified routing information.

If the control networking service message is a networking service stopping message, the networking service control module can modify preset routing information according to the networking service stopping message and stop the networking service of the electronic card according to the modified routing information.

In the embodiment of the application, the terminal can receive the control networking service message sent by the control server through the cellular network module, modify the preset routing information according to the control networking service message, and control the networking service according to the modified routing information, so that the networking service of the terminal can be controlled without using a system interface provided by an operator.

Referring to fig. 19, there is shown a block diagram of a seventh embodiment of a terminal of the present application, the terminal being in communication with a control server, the terminal comprising a cellular network module 190 and an electronic card 191, the electronic card 191 comprising a first electronic card chip 1911 and a second electronic card chip 1912, the first electronic card chip 1911 being used for accessing the control server, the second electronic card chip 1912 being used for networking services;

a control networking service message forwarding module 1901, configured to receive a control networking service message sent by the control server, and send the control networking service message to the electronic card;

the electronic card 191 includes:

a control module 1913, configured to control the first electronic card chip to access the control server according to the control networking service message, and control networking service of the second electronic card chip.

Controlling the networked service message may include starting the networked service message and stopping the networked service message.

If the control networking service message is a start networking service message, the control module 1913 may control the first electronic card chip to be in a non-working state and control the second electronic card chip to enter a working state to start networking service according to the start networking service message.

If the networking service stop message is the networking service stop message, the control module 1913 may control the first electronic card chip to enter the working state and control the second electronic card chip to be in the non-working state to stop the networking service according to the networking service stop message.

In the embodiment of the application, the terminal can receive the control networking service message sent by the control server through the cellular network module and send the control networking service message to the electronic card; the electronic card controls the working state of the first electronic card chip to control the first electronic card chip to access the control server and controls the working state of the second electronic card chip to control the networking service of the second electronic card chip according to the networking service control message, and the networking service of the terminal can be controlled without using a system interface provided by an operator.

For the device embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

An embodiment of the present application further provides an apparatus, including:

one or more processors; and

one or more machine-readable media having instructions stored thereon, which when executed by the one or more processors, cause the apparatus to perform methods as described in embodiments of the present application.

Embodiments of the present application also provide one or more machine-readable media having instructions stored thereon, which when executed by one or more processors, cause the processors to perform the methods of embodiments of the present application.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

As will be appreciated by one of skill in the art, embodiments of the present application may be provided as a method, apparatus, or computer program product. Accordingly, embodiments of the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, embodiments of the present application may take the form of a computer program product embodied on one or more machine-readable media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

Embodiments of the present application are described with reference to flowchart illustrations and/or block diagrams of methods, terminal devices (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing terminal to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing terminal, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing terminal to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing terminal to cause a series of operational steps to be performed on the computer or other programmable terminal to produce a computer implemented process such that the instructions which execute on the computer or other programmable terminal provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present application have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the true scope of the embodiments of the application.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal 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 terminal. 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 terminal that comprises the element.

The foregoing detailed description is directed to a communication control method of a terminal and a terminal provided by the present application, and specific examples are applied in the present application to explain the principles and embodiments of the present application, and the descriptions of the foregoing embodiments are only used to help understand the method and the core ideas of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (54)

1. A communication control method of a terminal, wherein the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, the electronic card is used for networking services, the method includes:

the cellular network module receives a networking stop service message sent by the control server;

and the cellular network module modifies preset routing information according to the networking service stopping message and stops the networking service of the electronic card according to the modified routing information.

2. The method of claim 1, wherein the cease networking services message comprises a first communication address; the said honeycomb network die set modifies the preset routing information according to the said stop networking service message, and stop the networking service of the said electronic card according to the routing information after modifying, including:

and the cellular network module configures the first communication address in preset routing information and stops networking service aiming at the first communication address.

3. The method of claim 2, wherein the stop networking services message further comprises a first electronic card identification and a first module identification; the cellular network module configures the first communication address in preset routing information, and the configuring includes:

the cellular network module judges whether a preset second module identification is matched with the first module identification and judges whether a second electronic card identification of the electronic card is matched with the first electronic card identification;

and if the second module identification is matched with the first module identification and the second electronic card identification is matched with the first electronic card identification, the cellular network module configures the first communication address in preset routing information.

4. The method of claim 3, further comprising:

the cellular network module sends a query message to the electronic card after receiving the networking service stopping message;

the cellular network module receives a reply message returned by the electronic card aiming at the query message; the reply message comprises the second electronic card identification.

5. The method of claim 1, further comprising:

and after the networking service is stopped according to the modified routing information, the cellular network module sends a confirmation message of stopping the networking service to the control server.

6. The method of claim 1, wherein the receiving, by the cellular network module, the networking service stop message sent by the control server comprises:

and the cellular network module receives a data packet sent by the control server, wherein the data packet comprises a networking stop service message.

7. A communication control method of a terminal, wherein the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, the electronic card is used for networking services, the method includes:

the cellular network module receives a networking service starting message sent by the control server;

and the cellular network module modifies preset routing information according to the networking service starting message and starts the networking service of the electronic card according to the modified routing information.

8. The method of claim 7, wherein the initiate networking services message comprises a second communication address; the said honeycomb network die set revises the preset routing information according to the said start networking service message, and start the networking service of the said electronic card according to the routing information after revising, including:

and the cellular network module configures the second communication address in preset routing information and starts networking service aiming at the second communication address.

9. The method of claim 8, wherein the message to initiate a networked service further comprises a third electronic card identifier, a third module identifier; the cellular network module configures the second communication address in preset routing information, and the configuring includes:

the cellular network module judges whether a preset fourth module identification is matched with the third module identification and judges whether a fourth electronic card identification of the electronic card is matched with the third electronic card identification;

and if the fourth module identification is matched with the third module identification and the fourth electronic card identification is matched with the third electronic card identification, the cellular network module configures the second communication address in preset routing information.

10. The method of claim 9, further comprising:

after receiving the networking service starting message, the cellular network module sends a query message to the electronic card;

the cellular network module receives a reply message returned by the electronic card aiming at the query message; the reply message comprises the fourth electronic card identification.

11. The method of claim 7, further comprising:

and after the networking service is started according to the modified routing information, the cellular network module sends a confirmation message for starting the networking service to the control server.

12. The method of claim 7, wherein the receiving, by the cellular network module, the network service initiation message sent by the control server comprises:

and the cellular network module receives a data packet sent by the control server, wherein the data packet comprises a networking service starting message.

13. A communication control method of a terminal is characterized in that the terminal is communicated with a control server, the terminal comprises a cellular network module and an electronic card, the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, the second electronic card chip is used for networking services, and the method comprises the following steps:

the cellular network module receives a networking stopping service message sent by the control server and sends the networking stopping service message to the electronic card;

and the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state to stop networking service according to the networking service stopping message.

14. The method of claim 13, wherein said cellular network module receives a network connection termination message from said control server and sends said network connection termination message to said electronic card, comprising:

the cellular network module receives a short message which is sent by the control server and carries a preset identifier, and sends the short message to the electronic card; the short message comprises a stop networking service message.

15. The method of claim 14, wherein the cease networking services message comprises: at least one of a fifth electronic card identifier, a fifth module identifier and a third communication address;

the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state to stop networking service according to the networking service stopping message, and the method comprises the following steps:

the electronic card judges whether the following preset judgment conditions are met:

judging whether a preset sixth module identification is matched with the fifth module identification;

and/or judging whether a preset sixth electronic card identifier is matched with the fifth electronic card identifier;

and/or, judging whether the third communication address is recorded in preset routing information;

when the following preset judgment conditions are met, the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state so as to stop networking service.

16. The method of claim 13, further comprising:

after the electronic card controls the first electronic card chip to enter a working state and controls the second electronic card chip to be in a non-working state to stop networking service according to the networking service stopping message, the electronic card sends a confirmation message of stopping the networking service to the cellular network module;

and the cellular network module sends the confirmation message of stopping the networking service to the control server.

17. A communication control method of a terminal is characterized in that the terminal is communicated with a control server, the terminal comprises a cellular network module and an electronic card, the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, the second electronic card chip is used for networking services, and the method comprises the following steps:

the cellular network module receives a networking service starting message sent by the control server and sends the networking service starting message to the electronic card;

and the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state to start networking service according to the networking service starting message.

18. The method of claim 17, wherein said cellular network module receives a network service initiation message sent by said control server and sends said network service initiation message to said electronic card, comprising:

the cellular network module receives a short message which is sent by the control server and carries a preset identifier, and sends the short message to the electronic card; the short message comprises an initiate networking service message.

19. The method of claim 18, wherein initiating the networking service message comprises: at least one of a seventh electronic card identifier, a seventh module identifier and a fourth communication address;

the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state to start networking service according to the networking service starting message, and the method comprises the following steps:

the electronic card judges whether the following preset judgment conditions are met:

judging whether a preset eighth module identification is matched with the seventh module identification;

and/or judging whether a preset eighth electronic card identifier is matched with the seventh electronic card identifier;

and/or, judging whether the fourth communication address is recorded in preset routing information;

when the following preset judgment conditions are met, the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state so as to start networking service.

20. The method of claim 17, further comprising:

after the electronic card controls the first electronic card chip to be in a non-working state and controls the second electronic card chip to enter a working state to start networking service according to the networking service starting message, the electronic card sends a confirmation message for starting the networking service to the cellular network module;

and the cellular network module sends a confirmation message for starting the networking service to the control server.

21. A communication control method of a terminal, wherein the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, the electronic card is used for networking services, the method includes:

the cellular network module receives a control networking service message sent by the control server;

and the cellular network module controls the networking service of the electronic card according to the networking service control message.

22. The method of claim 21, wherein said cellular network module controls the networking services of said electronic card according to said control networking services message, comprising:

and the cellular network module modifies preset routing information according to the networking control service message and controls the networking service of the electronic card according to the modified routing information.

23. The method of claim 21, wherein said cellular network module controls the networking services of said electronic card according to said control networking services message, comprising:

the cellular network module sends the control networking service message to the electronic card;

and the electronic card controls the networking service according to the control networking service message.

24. The method of claim 23, wherein the electronic card includes a first electronic card chip for accessing the control server and a second electronic card chip for networking services; the electronic card controls the networking service according to the control networking service message, and the control networking service message comprises:

and the electronic card controls the first electronic card chip to access the control server and controls the networking service of the second electronic card chip according to the control networking service message.

25. A communication control method of a terminal, wherein the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, the electronic card is used for networking services, the method includes:

the cellular network module receives a control networking service message sent by the control server;

and the cellular network module modifies preset routing information according to the networking control service message and controls the networking service of the electronic card according to the modified routing information.

26. A communication control method of a terminal is characterized in that the terminal is communicated with a control server, the terminal comprises a cellular network module and an electronic card, the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, the second electronic card chip is used for networking services, and the method comprises the following steps:

the cellular network module receives a control networking service message sent by the control server and sends the control networking service message to the electronic card;

and the electronic card controls the first electronic card chip to access the control server and controls the networking service of the second electronic card chip according to the control networking service message.

27. A terminal, characterized in that it communicates with a control server, said terminal comprising a cellular network module and an electronic card for networking services, said cellular network module comprising:

a network connection stopping service message receiving module, configured to receive a network connection stopping service message sent by the control server;

and the networking service stopping module is used for modifying preset routing information according to the networking service stopping message and stopping the networking service of the electronic card according to the modified routing information.

28. The terminal of claim 27, wherein the cease networking services message comprises a first communication address; the networked service stop module comprises:

and the networking service stopping submodule is used for configuring the first communication address in preset routing information and stopping networking service aiming at the first communication address.

29. The terminal of claim 28, wherein the stop networking service message further comprises a first electronic card identification and a first module identification; the networking service stop sub-module comprises:

the judging unit is used for judging whether a preset second module identification is matched with the first module identification and judging whether a second electronic card identification of the electronic card is matched with the first electronic card identification;

and the routing configuration unit is used for configuring the first communication address in preset routing information if the second module identification is matched with the first module identification and the second electronic card identification is matched with the first electronic card identification.

30. The terminal of claim 29, wherein the cellular network module further comprises:

the inquiry message sending module is used for sending an inquiry message to the electronic card after receiving the networking service stopping message;

a reply message receiving module, configured to receive a reply message returned by the electronic card for the query message; the reply message comprises the second electronic card identification.

31. The terminal of claim 27, wherein the cellular network module further comprises:

and the networking stopping confirmation message sending module is used for sending the confirmation message for stopping the networking service to the control server after the networking service is stopped according to the modified routing information.

32. The terminal of claim 27, wherein the means for receiving the message of stopping networking service comprises:

and the data packet receiving submodule is used for receiving the data packet sent by the control server, and the data packet comprises a networking stop service message.

33. A terminal, characterized in that it communicates with a control server, said terminal comprising a cellular network module and an electronic card for networking services, said cellular network module comprising:

a network service starting message receiving module for receiving the network service starting message sent by the control server;

and the networking service starting module is used for modifying preset routing information according to the networking service starting message and starting the networking service of the electronic card according to the modified routing information.

34. The terminal of claim 33, wherein the initiate networking services message comprises a second communication address; the networking service initiation module comprises:

and the networking service starting submodule is used for configuring the second communication address in preset routing information and starting networking service aiming at the second communication address.

35. The terminal of claim 34, wherein the message for initiating a networking service further comprises a third electronic card identifier, a third module identifier; the networking service promoter module comprises:

the judging unit is used for judging whether a preset fourth module identification is matched with the third module identification and judging whether a fourth electronic card identification of the electronic card is matched with the third electronic card identification;

and the routing configuration unit is used for configuring the second communication address in preset routing information if the fourth module identification is matched with the third module identification and the fourth electronic card identification is matched with the third electronic card identification.

36. The terminal of claim 35, wherein the cellular network module further comprises:

the inquiry message sending module is used for sending an inquiry message to the electronic card after receiving the networking service starting message;

a reply message receiving module, configured to receive a reply message returned by the electronic card for the query message; the reply message comprises the fourth electronic card identification.

37. The terminal of claim 33, wherein the cellular network module further comprises:

and the networking starting confirmation message sending module is used for sending a confirmation message for starting the networking service to the control server after the networking service is started according to the modified routing information.

38. The terminal of claim 33, wherein the means for initiating a networked service message reception comprises:

and the data packet receiving submodule is used for receiving the data packet sent by the control server, and the data packet comprises a networking service starting message.

39. A terminal is characterized in that the terminal is communicated with a control server and comprises a cellular network module and an electronic card, wherein the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services;

the cellular network module comprises:

the networking stopping service message forwarding module is used for receiving the networking stopping service message sent by the control server and sending the networking stopping service message to the electronic card;

the electronic card includes:

and the control module is used for controlling the first electronic card chip to enter a working state and controlling the second electronic card chip to be in a non-working state so as to stop networking service according to the networking service stopping message.

40. The terminal of claim 39, wherein the decommissioning of the networking service message forwarding module comprises:

the short message receiving submodule is used for receiving a short message which is sent by the control server and carries a preset identifier and sending the short message to the electronic card; the short message comprises a stop networking service message.

41. The terminal of claim 40, wherein the cease networking services message comprises: at least one of a fifth electronic card identifier, a fifth module identifier and a third communication address;

the control module includes:

the preset judgment condition judgment submodule is used for judging whether the following preset judgment conditions are met:

judging whether a preset sixth module identification is matched with the fifth module identification;

and/or judging whether a preset sixth electronic card identifier is matched with the fifth electronic card identifier;

and/or, judging whether the third communication address is recorded in preset routing information;

and the control submodule is used for controlling the first electronic card chip to enter a working state and controlling the second electronic card chip to be in a non-working state to stop networking service when the following preset judgment conditions are met.

42. The terminal of claim 39,

the electronic card further includes:

the first networking stopping confirmation message sending module is used for controlling the first electronic card chip to enter a working state and controlling the second electronic card chip to be in a non-working state to stop networking service according to the networking stopping service message by the electronic card, and then the electronic card sends a networking stopping confirmation message to the cellular network module;

the cellular network module further comprises:

and the second networking stopping confirmation message sending module is used for sending the networking stopping confirmation message to the control server.

43. A terminal is characterized in that the terminal is communicated with a control server and comprises a cellular network module and an electronic card, wherein the electronic card comprises a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, and the second electronic card chip is used for networking services;

the cellular network module comprises:

the starting networking service message forwarding module is used for receiving the starting networking service message sent by the control server and sending the starting networking service message to the electronic card;

the electronic card includes:

and the control module is used for controlling the first electronic card chip to be in a non-working state and controlling the second electronic card chip to enter a working state to start networking service according to the networking service starting message.

44. The terminal of claim 43, wherein the means for initiating forwarding of networking service messages comprises:

the short message receiving submodule is used for receiving a short message which is sent by the control server and carries a preset identifier and sending the short message to the electronic card; the short message comprises an initiate networking service message.

45. The terminal of claim 44, wherein the initiating a networking service message comprises: at least one of a seventh electronic card identifier, a seventh module identifier and a fourth communication address;

the control module includes:

the preset judgment condition judgment submodule is used for judging whether the following preset judgment conditions are met:

judging whether a preset eighth module identification is matched with the seventh module identification;

and/or judging whether a preset eighth electronic card identifier is matched with the seventh electronic card identifier;

and/or, judging whether the fourth communication address is recorded in preset routing information;

and the control submodule is used for controlling the first electronic card chip to be in a non-working state and controlling the second electronic card chip to enter a working state to start networking service when the following preset judgment conditions are met.

46. The terminal of claim 43,

the electronic card further includes:

the first starting networking confirmation message sending module is used for controlling the first electronic card chip to be in a non-working state and controlling the second electronic card chip to enter a working state to start networking services according to the starting networking service messages by the electronic card, and then the electronic card sends a confirmation message for starting the networking services to the cellular network module;

the cellular network module further comprises:

and the second networking starting confirmation message sending module is used for sending the networking service starting confirmation message to the control server.

47. A terminal, characterized in that it communicates with a control server, said terminal comprising a cellular network module and an electronic card for networking services, said cellular network module comprising:

the control networking service message receiving module is used for receiving the control networking service message sent by the control server;

and the first networking service control module is used for controlling the networking service of the electronic card according to the control networking service message.

48. The terminal of claim 47, wherein the first networked service control module comprises:

and the first networking service control submodule modifies preset routing information according to the control networking service message and controls the networking service of the electronic card according to the modified routing information.

49. The terminal of claim 47, wherein the first networked service control module comprises:

the control networking service message sending submodule is used for sending the control networking service message to the electronic card;

the electronic card includes:

and the second networking service control module is used for controlling the networking service according to the control networking service message.

50. The terminal according to claim 49, wherein the electronic card comprises a first electronic card chip for accessing the control server and a second electronic card chip for networking services; the second networking service control module comprises:

and the second networking service control submodule is used for controlling the first electronic card chip to access the control server and controlling the networking service of the second electronic card chip according to the networking service control message.

51. A terminal, characterized in that it communicates with a control server, said terminal comprising a cellular network module and an electronic card for networking services, said cellular network module comprising:

the control networking service message receiving module is used for receiving the control networking service message sent by the control server;

and the networking service control module is used for modifying preset routing information according to the networking service control message and controlling the networking service of the electronic card according to the modified routing information.

52. A terminal, characterized in that the terminal communicates with a control server, the terminal includes a cellular network module and an electronic card, the electronic card includes a first electronic card chip and a second electronic card chip, the first electronic card chip is used for accessing the control server, the second electronic card chip is used for networking services, the cellular network module includes:

the control networking service message forwarding module is used for receiving a control networking service message sent by the control server and sending the control networking service message to the electronic card;

the electronic card includes:

and the control module is used for controlling the first electronic card chip to access the control server and controlling the networking service of the second electronic card chip according to the control networking service message.

53. An apparatus, comprising:

one or more processors; and

one or more machine-readable media having instructions stored thereon that, when executed by the one or more processors, cause the apparatus to perform the method of any of claims 1-6 or 7-12 or 13-16 or 17-20 or 21-24 or 25 or 26.

54. One or more machine readable media having instructions stored thereon that, when executed by one or more processors, cause the processors to perform the method of any of claims 1-6 or 7-12 or 13-16 or 17-20 or 21-24 or 25 or 26.

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