CN107425994B - Method, terminal and server for realizing remote parameter management - Google Patents

Abstract

The invention provides a method, a terminal and a server for realizing remote parameter management, wherein the method comprises the following steps: a terminal sends a first configuration management request message to a server, wherein the first configuration management request message carries a name of a target module, and the target module is a module which needs to be configured and managed currently by the terminal; the terminal receives an operation instruction sent by the server to the target module, wherein the operation instruction is obtained by the server in response to the first configuration management request message and comprises a parameter configuration value of the target module; and the terminal responds to the operation instruction to set the parameter configuration value as the current parameter configuration value of the target module. The embodiment of the invention can effectively manage the modules on the terminal.

Description

Method, terminal and server for realizing remote parameter management

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method, a terminal device, and a server for implementing remote parameter management.

Background

Terminals that support the Open Mobile Alliance Device Management protocol (OMA DM) for managing terminals in a network via a remote server all have basic remote parameter Management capabilities. At present, the conventional remote management method for terminal parameters is as follows: the server deploys an object operation command needing remote management at first, then informs the terminal through Push information (Wap Push), the terminal is connected with the server to interact based on OMA DM protocol, and responds to the management object operation command sent by the server to realize parameter management operation. The existing scheme is characterized in that the existing scheme is initiated by a server side, the server operates according to a set command, and a terminal does not need corresponding parameter configuration management at all in practice, or a module which needs parameter configuration management at present is not a module which is managed by the management object operation command sent by the server. Therefore, the current server cannot effectively manage the modules on the terminal.

Disclosure of Invention

The embodiment of the invention aims to provide a method for realizing remote parameter management, a mobile terminal and a server, and solves the problem that the existing server cannot effectively manage modules on the terminal.

In order to achieve the above object, an embodiment of the present invention provides a method for implementing remote parameter management, including:

a terminal sends a first configuration management request message to a server, wherein the first configuration management request message carries a name of a target module, and the target module is a module which needs to be configured and managed currently by the terminal;

the terminal receives an operation instruction sent by the server to the target module, wherein the operation instruction is obtained by the server in response to the first configuration management request message and comprises a parameter configuration value of the target module;

and the terminal responds to the operation instruction to set the parameter configuration value as the current parameter configuration value of the target module.

The embodiment of the invention also provides another method for realizing remote parameter management, which comprises the following steps:

a server receives a first configuration management request message sent by a terminal, wherein the first configuration management request message carries a name of a target module, and the target module is a module which needs to be configured and managed currently by the terminal;

the server sends an operation instruction for the target module to the terminal, wherein the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction comprises a parameter configuration value of the target module, so that the terminal responds to the operation instruction to set the parameter configuration value as a current parameter configuration value of the target module.

An embodiment of the present invention further provides a terminal, which includes:

a first sending module, configured to send a first configuration management request message to a server, where the first configuration management request message carries a name of a target module, and the target module is a module that needs to be configured and managed currently by the terminal;

a first receiving module, configured to receive an operation instruction sent by the server for the target module, where the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction includes a parameter configuration value of the target module;

and the first response module is used for responding to the operation instruction so as to set the parameter configuration value as the current parameter configuration value of the target module.

An embodiment of the present invention further provides a server, which includes:

a first receiving module, configured to receive a first configuration management request message sent by a terminal, where the first configuration management request message carries a name of a target module, and the target module is a module that needs to be configured and managed currently by the terminal;

a first sending module, configured to send an operation instruction for the target module to the terminal, where the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction includes a parameter configuration value of the target module, so that the terminal responds to the operation instruction to set the parameter configuration value as a current parameter configuration value of the target module.

An embodiment of the present invention further provides a computer storage medium, where one or more programs executable by a computer are stored in the computer storage medium, and when the one or more programs are executed by the computer, the computer is caused to execute the method for implementing remote parameter management provided above.

One of the above technical solutions has the following advantages or beneficial effects:

in the embodiment of the invention, a terminal sends a first configuration management request message to a server, wherein the first configuration management request message carries the name of a target module, and the target module is a module which needs to be configured and managed currently by the terminal; the terminal receives an operation instruction sent by the server to the target module, wherein the operation instruction is obtained by the server in response to the first configuration management request message and comprises a parameter configuration value of the target module; and the terminal responds to the operation instruction to set the parameter configuration value as the current parameter configuration value of the target module, so that the server can effectively manage the modules on the terminal.

Drawings

Fig. 1 is a schematic structural diagram of a system applicable to a method for implementing remote parameter management according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of an implementation of remote parameter management according to an embodiment of the present invention;

fig. 3 is a schematic flowchart of another implementation of remote parameter management according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a terminal according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of another terminal according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of another terminal according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of another terminal according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a server according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of another server according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of another server according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of another server according to an embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a system applicable to the method for implementing remote parameter management according to an embodiment of the present invention, as shown in fig. 1, including: a terminal and a server. The terminal is a terminal supporting an OMA DM management protocol, and the server is a server supporting the OMA DM management protocol. The terminal 101 may be a mobile phone, a tablet computer, a personal computer, a notebook computer, a wearable device, and other terminals that can access a network, and it should be noted that a specific type of the terminal 101 is not limited in the embodiment of the present invention. The terminal 101 may establish communication with the server 102, and the server 102 may be an entry level server, a workgroup level server, a department level server, an enterprise level server, or other servers, it should be noted that the specific type of the server is not limited in the embodiment of the present invention.

An embodiment of the present invention provides a method for implementing remote parameter management, as shown in fig. 2, including the following steps:

step 201, a terminal sends a first configuration management request message to a server, where the first configuration management request message carries a name of a target module, and the target module is a module that the terminal needs to be configured and managed currently.

Step 202, the terminal receives an operation instruction sent by the server to the target module, where the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction includes a parameter configuration value of the target module.

Step 203, the terminal responds to the operation instruction to set the parameter configuration value as the current parameter configuration value of the target module.

In this embodiment, as for step 201, the terminal needs to have a trigger condition for initiating parameter configuration management, and a module parameter management menu may be set in different modules of the terminal, or a configuration management main menu is provided and a module to be managed is selected therein, which is not limited as long as the same purpose can be achieved. The user simply clicks on a portal such as this to initiate a session with the server for the exception module. Meanwhile, the terminal is not excluded from automatically checking out the abnormity after the abnormity occurs in the module, and the session notification server can be triggered aiming at the abnormal module. And after the abnormal module is triggered, the terminal sends a first configuration management request message to the server.

Optionally, the sending, by the terminal, the first configuration management request message to the server includes:

and the terminal sends a request packet containing the first configuration management request message to the server, wherein the first configuration management request message is a configuration management request message specified by a protocol OMA DM for managing the terminal in the network through a remote server.

In this embodiment, the terminal sends, to the server, a request packet including the first configuration management request message, where the first configuration management request message is extended use Generic Alert 1226, and the Generic Alert 1226 is a general client-initiated Alert message specified by a protocol. When the terminal is used, only the terminal and the server need to uniformly agree on the Alert Type. For example: the Alert Type aiming at the short message module is as follows: openmobilealiance.dm.sms.devicerequest. When there are multiple modules that need to request parameter management simultaneously, the Alert types can be combined into: org, mobile alliance, dm, sms & call & GPS, device request to indicate that short message, phone and GPS modules all need to request parameter management. There is no need to initiate a request once per module.

In addition, the present embodiment provides the terminal with the capability of an active notification server by extending the Generic Alert message using OMA DM. In addition, other methods based on the OMA DM protocol and capable of enabling a terminal to actively notify a server are also within the present invention. For example: the server and the terminal request other contents of the packet as a notification method by agreement, and the like.

Optionally, after the terminal sends the first configuration management request message to the server, before the terminal receives an operation instruction sent by the server to the target module, the method further includes:

the terminal receives a first parameter acquisition command issued by the server, wherein the first parameter acquisition command is used for acquiring the existing parameter configuration value of the target module, the first parameter acquisition command is sent when the server inquires that the name and the parameter configuration value of the target module exist in a database, and the database is used for storing the parameter configuration value;

the terminal collects the existing parameter configuration value of the target module;

and the terminal sends the existing parameter configuration value of the target module to the server so that the server compares the existing parameter configuration value with the parameter configuration value of the target module in the database, and if the existing parameter configuration value is inconsistent with the parameter configuration value of the target module, the server sends an operation instruction for the target module to the terminal.

In this embodiment, after receiving the request packet from the terminal, the server parses the message sent by the terminal to determine the abnormal module to be managed. For example: taking the above OMA DM as an example, a Generic Alert message sent by the terminal is analyzed to confirm an abnormal module that needs to be managed.

The server inquires whether a database of the server has corresponding abnormal modules and parameter information, and if so, the server issues a first parameter acquisition command to the terminal, namely an abnormal module parameter acquisition command. After the terminal acquires the command, the terminal analyzes and executes the command according to the session requirement of the OMA DM protocol, namely, the terminal collects the existing parameter configuration value of the target module and feeds back the result to the server. And the server compares the existing parameter configuration value with the parameter configuration value of the target module in the database, if the existing parameter configuration value is inconsistent with the parameter configuration value of the target module in the database, the step 202 is executed, the terminal receives an operation instruction sent by the server to the target module, and the step 203 is executed again to update the existing parameter configuration value of the abnormal module to the parameter configuration value of the target module in the database.

Optionally, after the terminal sends the first configuration management request message to the server, before the terminal receives the operation instruction sent by the server to the target module, the method further includes:

the terminal receives a second acquisition command issued by the server, wherein the second acquisition command is used for acquiring management node information of the target module, the second acquisition command is sent when the server inquires that the name and the parameter configuration value of the target module do not exist in a database, and the database is used for storing the parameter configuration value;

the terminal collects management node information of the target module;

the terminal sends management node information of the target module to the server so that the server can use the management node information to complete dynamic registration of the target module in the database, the database sets a specific value as a parameter configuration value of the target module in the database, and the specific value is a parameter configuration value, an experience value or a value set by a user of the target module of the other terminal.

In this embodiment, after receiving the request packet from the terminal, the server parses the message sent by the terminal to determine the abnormal module to be managed. For example: taking the above OMA DM as an example, a Generic Alert message sent by the terminal is analyzed to confirm an abnormal module that needs to be managed.

The server inquires whether a corresponding abnormal module and parameter information exist in a database of the server, and if not, the terminal issues a second acquisition command which is used for acquiring the management node information of the target module. The terminal collects management node information of the target module and feeds back the result to a server, the server uses the management node information to complete dynamic registration of the target module in the database, and sets a specific value as a parameter configuration value of the target module in the database, wherein the specific value is a parameter configuration value, an experience value or a value set by a user of the target module of the other terminal. Step 202 is performed.

And the terminal receives the operation instruction of the target module sent by the server, and then executes step 203 to update the existing parameter configuration value of the abnormal module to the parameter configuration value of the target module in the database.

Optionally, if the target module is still abnormal after the terminal responds to the operation instruction sent by the server, the terminal sends a second configuration management request message to the server, where the second configuration management request message is used to notify that the target module is still abnormal, so that the server parses the second configuration management request message to confirm that the target module is still abnormal, and sends a script file for solving the abnormality of the target module and a command for executing the script file to the terminal;

and the terminal receives the script file and the command for executing the script file issued by the server and executes the command.

After steps 201, 202 and 203 are executed, if the target module is still abnormal, the terminal sends a second configuration management request message to the server, where the second configuration management request message is used to notify that the target module is still abnormal. The server will perform some special processing operations according to the repair methods prompted in the database. For example: the terminal executes the script file according to the command to complete the whole configuration management.

In addition, if the target module still has an abnormality after the above steps are executed, the server notifies the terminal to end the session and may notify the terminal of the reason that the user cannot configure, and the like. After the interactive session is completed, the server should feed back the situation to the server manager, so that the manager can intervene in time to obtain a corresponding processing mode, and the next configuration management operation can be successfully completed.

It should be noted that the above method can be applied to a terminal supporting the OMA DM management protocol and a server supporting the OMA DM management protocol. In addition, the above method may be applied to the system shown in fig. 1.

In this embodiment, a method for a terminal to actively initiate a remote parameter configuration management request when finding that a target module is abnormal in operation is provided, and a set of adaptive management configuration methods is formulated, so that a server can effectively manage modules on the terminal.

An embodiment of the present invention further provides another method for implementing remote parameter management, as shown in fig. 3, including the following steps:

step 301, a server receives a first configuration management request message sent by a terminal, where the first configuration management request message carries a name of a target module, and the target module is a module that needs to be configured and managed currently by the terminal.

Step 302, the server sends an operation instruction for the target module to the terminal, where the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction includes a parameter configuration value of the target module, so that the terminal responds to the operation instruction to set the parameter configuration value as a current parameter configuration value of the target module.

Optionally, the receiving, by the server, the first configuration management request message sent by the terminal includes:

the server receives a request packet which is sent by the terminal and contains the first configuration management request message, wherein the first configuration management request message is the first configuration management request message specified by OMA DM.

In this embodiment, the server receives a request packet including the first configuration management request message sent by the terminal, where the first configuration management request message is extended use Generic Alert 1226, and the Generic Alert 1226 is a general client-initiated Alert message specified by a protocol. When the terminal is used, only the terminal and the server need to uniformly agree on the Alert Type. For example: the Alert Type aiming at the short message module is as follows: openmobilealiance.dm.sms.devicerequest. When there are multiple modules that need to request parameter management simultaneously, the Alert types can be combined into:

org, mobile alliance, dm, sms & call & GPS, device request to indicate that short message, phone and GPS modules all need to request parameter management. There is no need to initiate a request once per module.

In addition, the present embodiment provides the terminal with the capability of an active notification server by extending the Generic Alert message using OMA DM. In addition, other methods based on the OMA DM protocol and capable of enabling a terminal to actively notify a server are also within the present invention. For example: the server and the terminal request other contents of the packet as a notification method by agreement, and the like.

Optionally, after the server receives the first configuration management request message sent by the terminal, before the server sends an operation instruction for the target module to the terminal, the method further includes:

the server issues a first parameter acquisition command to the terminal, wherein the first parameter acquisition command is used for acquiring the existing parameter configuration value of the target module, and the first parameter acquisition command is sent when the server inquires a database for storing the parameter configuration value, wherein the database contains the name and the parameter configuration value of the target module;

the server receives the existing parameter configuration value of the target module, wherein the existing parameter configuration value of the target module is sent to the server by the terminal in response to the first parameter acquisition command;

and the server compares the existing parameter configuration value with the parameter configuration value of the target module in the database, and if the existing parameter configuration value is inconsistent with the parameter configuration value of the target module in the database, the server sends an operation instruction of the target module to the terminal.

In this embodiment, after receiving the request packet from the terminal, the server parses the message sent by the terminal to determine the abnormal module to be managed. For example: taking the above OMA DM as an example, a Generic Alert message sent by the terminal is analyzed to confirm an abnormal module that needs to be managed.

The server inquires whether a database of the server has corresponding abnormal modules and parameter information, and if so, the server issues a first parameter acquisition command to the terminal, namely an abnormal module parameter acquisition command. After the terminal acquires the command, the terminal analyzes and executes the command according to the session requirement of the OMA DM protocol, namely, the terminal collects the existing parameter configuration value of the target module and feeds back the result to the server. And the server compares the existing parameter configuration value with the parameter configuration value of the target module in the database, and when the existing parameter configuration value is inconsistent with the parameter configuration value of the target module, the server issues an operation instruction for the target module to the terminal, and the terminal responds to the operation instruction and sets the parameter configuration value as the current parameter configuration value of the target module.

Optionally, after the server receives the first configuration management request message sent by the terminal, before the server sends an operation instruction for the target module to the terminal, the method further includes:

the server sends a second acquisition command to the terminal, wherein the second acquisition command is used for acquiring management node information of the target module and is sent when the server inquires a database for storing parameter configuration values and does not have the name and the parameter configuration values of the target module;

the server receives management node information of the target module, wherein the management node information of the target module is sent to the server by the terminal in response to the second acquisition command;

the server uses the management node information to complete dynamic registration of the target module in the database, so as to set a specific value as a parameter configuration value of the target module in the database, wherein the specific value is a parameter configuration value, an experience value or a value set by a user of the target module of the other terminal.

In this embodiment, after receiving the request packet from the terminal, the server parses the message sent by the terminal to determine the abnormal module to be managed. For example: taking the above OMA DM as an example, a Generic Alert message sent by the terminal is analyzed to confirm an abnormal module that needs to be managed.

The server inquires whether a corresponding abnormal module and parameter information exist in a database of the server, and if not, the terminal issues a second acquisition command which is used for acquiring the management node information of the target module. The terminal collects management node information of the target module and feeds back the result to a server, the server uses the management node information to complete dynamic registration of the target module in the database, and sets a specific value as a parameter configuration value of the target module in the database, wherein the specific value is a parameter configuration value, an experience value or a value set by a user of the target module of the other terminal. And the terminal receives an operation instruction of the target module sent by the server and updates the existing parameter configuration value of the abnormal module into the parameter configuration value of the target module in the database.

Optionally, if the target module is still abnormal after the server sends the operation instruction for the target module to the terminal, the server receives a second configuration management request message sent by the terminal, where the second configuration management request message is used to notify that the target module is also abnormal, so that the server parses the second configuration management request message to confirm that the target module is also abnormal, and issues a script file for solving the abnormality of the target module and a command for executing the script file to the terminal, so that the terminal responds to the command for executing the script file issued by the server.

In this embodiment, if the target module is abnormal after steps 301 and 302 are executed, the server receives a second configuration management request message sent by the terminal, where the second configuration management request message is used to notify that the target module is abnormal. The server will perform some special processing operations according to the repair methods prompted in the database. For example: the terminal executes the script file according to the command to complete the whole configuration management.

In addition, if the target module still has an abnormality after the above steps are executed, the server notifies the terminal to end the session and may notify the terminal of the reason that the user cannot configure, and the like. After the interactive session is completed, the server should feed back the situation to the server manager, so that the manager can intervene in time to obtain a corresponding processing mode, and the next configuration management operation can be successfully completed.

It should be noted that the above method can be applied to a terminal supporting the OMA DM management protocol and a server supporting the OMA DM management protocol. In addition, the above method may be applied to the system shown in fig. 1.

In this embodiment, a method for a terminal to actively initiate a remote parameter configuration management request when finding that a target module is abnormal in operation is provided, and a set of adaptive management configuration methods is formulated, so that a server can effectively manage modules on the terminal.

As shown in fig. 4, an embodiment of the present invention provides a structure of a terminal, including the following modules:

a first sending module 401, configured to send a first configuration management request message to a server, where the first configuration management request message carries a name of a target module, and the target module is a module that needs to be configured and managed currently by the terminal;

a first receiving module 402, configured to receive an operation instruction sent by the server for the target module, where the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction includes a parameter configuration value of the target module;

a first response module 403, configured to respond to the operation instruction to set the parameter configuration value as the current parameter configuration value of the target module.

Optionally, the first sending module is configured to send a request packet including the first configuration management request message to the server, where the first configuration management request message is a configuration management request message specified by a protocol OMA DM for managing a terminal in a network through a remote server.

Optionally, as shown in fig. 5, the terminal further includes:

a second receiving module 404, configured to receive a first parameter acquisition command sent by the server, where the first parameter acquisition command is used to acquire an existing parameter configuration value of the target module, and the first parameter acquisition command is sent when the server queries that a database stores a name and a parameter configuration value of the target module, where the database is used to store the parameter configuration value;

a first collecting module 405, configured to collect an existing parameter configuration value of the target module;

a second sending module 406, configured to send the existing parameter configuration value of the target module to the server, so that the server compares the existing parameter configuration value with the parameter configuration value of the target module in the database, and if the existing parameter configuration value is inconsistent with the parameter configuration value of the target module, the server sends the operation instruction to the terminal.

Optionally, as shown in fig. 6, the terminal further includes:

a third receiving module 407, configured to receive a second acquisition command issued by the server, where the second acquisition command is used to acquire management node information of the target module, and the second acquisition command is sent when the server queries that a database does not have a name and a parameter configuration value of the target module, where the database is used to store the parameter configuration value;

a second collecting module 408, configured to collect management node information of the target module;

a third sending module 409, 4010 is configured to send management node information of the target module to the server, so that the server completes dynamic registration of the target module in the database using the management node information, where the database sets a specific value as a parameter configuration value of the target module in the database, and the specific value is a parameter configuration value, an experience value, or a value set by a user of the target module of the other terminal.

Optionally, as shown in fig. 7, the terminal further includes:

a fourth sending module 4010, configured to send a second configuration management request message to the server if the target module is still abnormal after the terminal responds to the operation instruction sent by the server, where the second configuration management request message is used to notify that the target module is still abnormal, so that the server parses the second configuration management request message to confirm that the target module is still abnormal, and sends a script file for solving the abnormality of the target module and a command for executing the script file to the terminal;

the first response module 403 is configured to receive the script file and the command for executing the script file sent by the server, and execute the command.

In this embodiment, the terminal may be the terminal in the embodiments shown in fig. 2 to fig. 3, and any implementation of the terminal in the embodiments shown in fig. 2 to fig. 3 may be implemented by the terminal in this embodiment, which is not described herein again.

The embodiment provides a terminal for actively initiating a remote parameter configuration management request when a target module is abnormally operated, overcomes the defects of no pertinence and low efficiency of the traditional parameter configuration management, and realizes effective management of a server on a module on the terminal.

As shown in fig. 8, an embodiment of the present invention provides a structure of a server, including the following modules:

the first receiving module 501: the terminal is used for receiving a first configuration management request message sent by the terminal, wherein the first configuration management request message carries a name of a target module, and the target module is a module which needs to be configured and managed currently by the terminal;

first transmitting module 502: the terminal is configured to send an operation instruction for the target module to the terminal, where the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction includes a parameter configuration value of the target module, so that the terminal responds to the operation instruction to set the parameter configuration value as a current parameter configuration value of the target module.

Optionally, the first receiving module is configured to receive the first configuration management request message sent by the terminal, and includes: receiving a request packet containing the first configuration management request message sent by the terminal, wherein the first configuration management request message is the first configuration management request message specified by OMA DM.

Optionally, as shown in fig. 9, the server further includes:

a second sending module 503, configured to issue a first parameter acquisition command to the terminal, where the first parameter acquisition command is used to acquire an existing parameter configuration value of the target module, and the first parameter acquisition command is sent when the server queries that a database for storing the parameter configuration value has a name and a parameter configuration value of the target module;

a second receiving module 504, configured to receive an existing parameter configuration value of the target module, where the existing parameter configuration value of the target module is sent to the server by the terminal in response to the first parameter acquisition command;

a comparing module 505, configured to compare the existing parameter configuration value with the parameter configuration value of the target module in the database, and if the comparison is inconsistent, the server sends an operation instruction for the target module to the terminal.

Optionally, as shown in fig. 10, the server further includes:

a third sending module 506, configured to send a second acquisition command to the terminal, where the second acquisition command is used to acquire management node information of the target module, and the second acquisition command is sent when the server queries that a database for storing parameter configuration values does not have names and parameter configuration values of the target module;

a third receiving module 507, configured to receive management node information of the target module, where the management node information of the target module is sent to the server by the terminal in response to the second acquisition command;

a registration module 508, configured to complete dynamic registration of the target module in the database by using the management node information, so as to set a specific value as a parameter configuration value of the target module in the database, where the specific value is a parameter configuration value, an experience value, or a value set by a user of the target module of the other terminal.

Optionally, as shown in fig. 11, the server further includes:

a fourth receiving module 509, configured to receive a second configuration management request message sent by the terminal if the target module is still abnormal after the server sends the operation instruction for the target module to the terminal, where the second configuration management request message is used to notify that the target module is still abnormal;

a parsing module 5010, configured to parse the second configuration management request message to confirm that the target module is abnormal;

a fourth sending module 5011, configured to issue a script file for solving the abnormality of the target module and a command for executing the script file to the terminal, so that the terminal responds to the command for executing the script file issued by the server.

In this embodiment, the server may be the server in the embodiments shown in fig. 2 to fig. 3, and any implementation of the server in the embodiments shown in fig. 2 to fig. 3 may be implemented by the server in this embodiment, which is not described herein again.

The embodiment provides a server capable of completing management operation in a self-adaptive manner when a target module is abnormal in operation, overcomes the defects of no pertinence and low efficiency of the traditional parameter configuration management, and realizes effective management of the server on the module on the terminal.

It will be understood by those skilled in the art that all or part of the steps of the method for implementing the above embodiments may be implemented by hardware associated with program instructions, and the program may be stored in a computer readable medium, and when executed, the program includes the following steps:

sending a first configuration management request message to a server, wherein the first configuration management request message carries a name of a target module, and the target module is a module which needs to be configured and managed currently by the terminal;

receiving an operation instruction sent by the server to the target module, wherein the operation instruction is obtained by the server in response to the first configuration management request message and includes a parameter configuration value of the target module;

responding to the operation instruction to set the parameter configuration value as the current parameter configuration value of the target module.

Optionally, sending a first configuration management request message to the server includes:

and sending a request packet containing the first configuration management request message to the server, wherein the first configuration management request message is a configuration management request message specified by a protocol OMA DM for managing the terminal in the network through a remote server.

Optionally, after sending the first configuration management request message to the server, before receiving the operation instruction sent by the server to the target module, the method further includes:

receiving a first parameter acquisition command issued by the server, wherein the first parameter acquisition command is used for acquiring the existing parameter configuration value of the target module, and the first parameter acquisition command is sent when the server inquires that the name and the parameter configuration value of the target module exist in a database, and the database is used for storing the parameter configuration value;

acquiring the existing parameter configuration value of the target module;

and sending the existing parameter configuration value of the target module to the server so that the server compares the existing parameter configuration value with the parameter configuration value of the target module in the database, and sending the operation instruction to the terminal by the server when the existing parameter configuration value is inconsistent with the parameter configuration value of the target module in the database.

Optionally, after sending the first configuration management request message to the server, before receiving the operation instruction sent by the server to the target module, the method further includes:

receiving a second acquisition command issued by the server, wherein the second acquisition command is used for acquiring management node information of the target module, and the second acquisition command is sent when the server inquires that a database does not have the name and the parameter configuration value of the target module, and the database is used for storing the parameter configuration value;

collecting management node information of the target module;

and sending management node information of the target module to the server so that the server finishes dynamic registration of the target module in the database by using the management node information, wherein the database sets a specific value as a parameter configuration value of the target module in the database, and the specific value is a parameter configuration value, an experience value or a value set by a user of the target module of the other terminal.

Optionally, the method further includes:

after responding to the operation instruction sent by the server, if the target module is still abnormal, the terminal sends a second configuration management request message to the server, wherein the second configuration management request message is used for informing that the target module is also abnormal, so that the server analyzes the second configuration management request message to confirm that the target module is also abnormal, and sends a script file for solving the abnormality of the target module and a command for executing the script file to the terminal;

and receiving the script file and a command for executing the script file issued by the server, and executing the command.

It will be understood by those skilled in the art that all or part of the steps of the method for implementing the above embodiments may be implemented by hardware associated with program instructions, and the program may be stored in a computer readable medium, and when executed, the program includes the following steps:

receiving a first configuration management request message sent by a terminal, wherein the first configuration management request message carries a name of a target module, and the target module is a module which needs to be configured and managed currently by the terminal;

and sending an operation instruction for the target module to the terminal, wherein the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction comprises a parameter configuration value of the target module, so that the terminal responds to the operation instruction to set the parameter configuration value as a current parameter configuration value of the target module.

Optionally, receiving the first configuration management request message sent by the terminal includes:

receiving a request packet containing the first configuration management request message sent by the terminal, wherein the first configuration management request message is the first configuration management request message specified by OMA DM.

Optionally, after receiving the first configuration management request message sent by the terminal, before sending an operation instruction for the target module to the terminal, the method further includes:

issuing a first parameter acquisition command to the terminal, wherein the first parameter acquisition command is used for acquiring the existing parameter configuration value of the target module, and the first parameter acquisition command is sent when the server inquires a database for storing the parameter configuration value, wherein the database contains the name and the parameter configuration value of the target module;

receiving the existing parameter configuration value of the target module, wherein the existing parameter configuration value of the target module is sent to the server by the terminal in response to the first parameter acquisition command;

and comparing the existing parameter configuration value with the parameter configuration value of the target module in the database, and if the existing parameter configuration value is inconsistent with the parameter configuration value of the target module in the database, executing the step that the server sends an operation instruction for the target module to the terminal.

Optionally, after receiving the first configuration management request message sent by the terminal, before sending an operation instruction for the target module to the terminal, the method further includes:

sending a second acquisition command to the terminal, wherein the second acquisition command is used for acquiring management node information of the target module and is sent when the server inquires a database for storing parameter configuration values and does not have the name of the target module and the parameter configuration values;

receiving management node information of the target module, wherein the management node information of the target module is sent to the server by the terminal in response to the second acquisition command;

and using the management node information to complete dynamic registration of the target module in the database so as to set a specific value as a parameter configuration value of the target module in the database, wherein the specific value is a parameter configuration value, an experience value or a value set by a user of the target module of the other terminal.

Optionally, the method further includes:

if the target module is abnormal after the server sends the operation instruction of the target module to the terminal, receiving a second configuration management request message sent by the terminal, wherein the second configuration management request message is used for informing that the target module is abnormal so that the server analyzes the second configuration management request message to confirm that the target module is abnormal, and issuing a script file for solving the abnormality of the target module and a command for executing the script file to the terminal so that the terminal responds to the command for executing the script file issued by the server.

The storage medium may be a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (16)

1. A method for realizing remote parameter management is characterized by comprising the following steps:

a terminal sends a first configuration management request message to a server, wherein the first configuration management request message carries the name of at least one target module, the target module is an abnormal module which needs to be configured and managed currently by the terminal, and the first configuration management request message is sent after the abnormal module is triggered;

the terminal receives an operation instruction sent by the server to the target module, wherein the operation instruction is obtained by the server in response to the first configuration management request message and comprises a parameter configuration value of the target module;

the terminal responds to the operation instruction to set the parameter configuration value as the current parameter configuration value of the target module;

after the terminal sends the first configuration management request message to the server, before the terminal receives an operation instruction of the target module sent by the server, the method further includes:

the terminal receives a first parameter acquisition command issued by the server, wherein the first parameter acquisition command is used for acquiring the existing parameter configuration value of the target module, the first parameter acquisition command is sent when the server inquires that the name and the parameter configuration value of the target module exist in a database, and the database is used for storing the parameter configuration value;

the terminal collects the existing parameter configuration value of the target module;

and the terminal sends the existing parameter configuration value of the target module to the server so that the server compares the existing parameter configuration value with the parameter configuration value of the target module in the database, and if the existing parameter configuration value is inconsistent with the parameter configuration value of the target module, the terminal receives an operation instruction sent by the server to the target module.

2. The method of claim 1, wherein the terminal sending a first configuration management request message to the server comprises:

and the terminal sends a request packet containing the first configuration management request message to the server, wherein the first configuration management request message is a configuration management request message specified by a protocol OMA DM for managing the terminal in the network through a remote server.

3. The method of claim 1, wherein after the terminal sends the first configuration management request message to the server, before the terminal receives the operation instruction for the target module sent by the server, the method further comprises:

the terminal receives a second acquisition command issued by the server, wherein the second acquisition command is used for acquiring management node information of the target module, the second acquisition command is sent when the server inquires that the name and the parameter configuration value of the target module do not exist in a database, and the database is used for storing the parameter configuration value;

the terminal collects management node information of the target module;

the terminal sends management node information of the target module to the server so that the server can use the management node information to complete dynamic registration of the target module in the database, the database sets a specific value as a parameter configuration value of the target module in the database, and the specific value is a parameter configuration value, an experience value or a value set by a user of the target module of other terminals.

4. The method of claim 1, wherein the method further comprises:

if the target module is abnormal after the terminal responds to the operation instruction sent by the server, the terminal sends a second configuration management request message to the server, wherein the second configuration management request message is used for informing the target module of the abnormality so that the server analyzes the second configuration management request message to confirm the target module of the abnormality and sends a script file for solving the abnormality of the target module and a command for executing the script file to the terminal;

and the terminal receives the script file and the command for executing the script file issued by the server and executes the command.

5. A method for realizing remote parameter management is characterized by comprising the following steps:

a server receives a first configuration management request message sent by a terminal, wherein the first configuration management request message carries a name of at least one target module, the target module is an abnormal module which needs to be configured and managed currently by the terminal, and the first configuration management request message is sent after the abnormal module is triggered;

the server sends an operation instruction for the target module to the terminal, wherein the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction comprises a parameter configuration value of the target module, so that the terminal responds to the operation instruction to set the parameter configuration value as a current parameter configuration value of the target module;

after the server receives the first configuration management request message sent by the terminal, before the server sends an operation instruction for the target module to the terminal, the method further includes:

the server issues a first parameter acquisition command to the terminal, wherein the first parameter acquisition command is used for acquiring the existing parameter configuration value of the target module, and the first parameter acquisition command is sent when the server inquires a database for storing the parameter configuration value, wherein the database contains the name and the parameter configuration value of the target module;

the server receives the existing parameter configuration value of the target module, wherein the existing parameter configuration value of the target module is sent to the server by the terminal in response to the first parameter acquisition command;

and the server compares the existing parameter configuration value with the parameter configuration value of the target module in the database, and if the existing parameter configuration value is inconsistent with the parameter configuration value of the target module in the database, the server sends an operation instruction of the target module to the terminal.

6. The method of claim 5, wherein the server receiving the first configuration management request message sent by the terminal comprises:

the server receives a request packet which is sent by the terminal and contains the first configuration management request message, wherein the first configuration management request message is the first configuration management request message specified by OMA DM.

7. The method of claim 5, wherein after the server receives the first configuration management request message sent by the terminal, before the server sends an operation instruction for the target module to the terminal, the method further comprises:

the server sends a second acquisition command to the terminal, wherein the second acquisition command is used for acquiring management node information of the target module and is sent when the server inquires a database for storing parameter configuration values and does not have the name and the parameter configuration values of the target module;

the server receives management node information of the target module, wherein the management node information of the target module is sent to the server by the terminal in response to the second acquisition command;

the server uses the management node information to complete dynamic registration of the target module in the database so as to set a specific value as a parameter configuration value of the target module in the database, wherein the specific value is a parameter configuration value, an experience value or a value set by a user of the target module of other terminals.

8. The method of claim 5, wherein the method further comprises:

if the target module is abnormal after the server sends an operation instruction for the target module to the terminal, the server receives a second configuration management request message sent by the terminal, wherein the second configuration management request message is used for informing that the target module is abnormal, so that the server analyzes the second configuration management request message to confirm that the target module is abnormal, and issues a script file for solving the abnormality of the target module and a command for executing the script file to the terminal, so that the terminal responds to the command for executing the script file issued by the server.

9. A terminal, comprising:

a first sending module, configured to send a first configuration management request message to a server, where the first configuration management request message carries a name of at least one target module, the target module is an abnormal module that needs to be configured and managed currently by the terminal, and the first configuration management request message is sent after the abnormal module is triggered;

a first receiving module, configured to receive an operation instruction sent by the server for the target module, where the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction includes a parameter configuration value of the target module;

the first response module is used for responding to the operation instruction so as to set the parameter configuration value as the current parameter configuration value of the target module;

the terminal further comprises:

a second receiving module, configured to receive a first parameter acquisition command sent by the server, where the first parameter acquisition command is used to acquire an existing parameter configuration value of the target module, and the first parameter acquisition command is sent when the server queries that a database has a name and a parameter configuration value of the target module, where the database is used to store the parameter configuration value;

the first acquisition module is used for acquiring the existing parameter configuration value of the target module;

and the second sending module is used for sending the existing parameter configuration value of the target module to the server so as to enable the server to compare the existing parameter configuration value with the parameter configuration value of the target module in the database, and when the existing parameter configuration value is inconsistent with the parameter configuration value of the target module, the server sends the operation instruction to the terminal.

10. The terminal of claim 9, wherein the first sending module is configured to send a request packet containing the first configuration management request message to the server, and the first configuration management request message is a configuration management request message specified by a protocol OMA DM for managing terminals in a network through a remote server.

11. The terminal of claim 9, wherein the terminal further comprises:

a third receiving module, configured to receive a second acquisition command issued by the server, where the second acquisition command is used to acquire management node information of the target module, and the second acquisition command is sent when the server queries that a database does not have a name and a parameter configuration value of the target module, where the database is used to store the parameter configuration value;

the second acquisition module is used for acquiring the management node information of the target module;

a third sending module, configured to send management node information of the target module to the server, so that the server completes dynamic registration of the target module in the database using the management node information, where the database sets a specific value as a parameter configuration value of the target module in the database, and the specific value is a parameter configuration value, an experience value, or a value set by a user of the target module of another terminal.

12. The terminal of claim 9, wherein the terminal further comprises:

a fourth sending module, configured to send a second configuration management request message to the server if the target module is still abnormal after the terminal responds to the operation instruction sent by the server, where the second configuration management request message is used to notify the target module that the target module is still abnormal, so that the server parses the second configuration management request message to confirm that the target module is still abnormal, and sends a script file for solving the abnormality of the target module and a command for executing the script file to the terminal;

and the first response module is used for receiving the script file sent by the server and a command for executing the script file, and responding to the command.

13. A server, comprising:

a first receiving module, configured to receive a first configuration management request message sent by a terminal, where the first configuration management request message carries a name of at least one target module, the target module is an abnormal module that needs to be configured and managed currently by the terminal, and the first configuration management request message is sent after the abnormal module is triggered;

a first sending module, configured to send an operation instruction for the target module to the terminal, where the operation instruction is obtained by the server in response to the first configuration management request message, and the operation instruction includes a parameter configuration value of the target module, so that the terminal responds to the operation instruction to set the parameter configuration value as a current parameter configuration value of the target module;

the server further comprises:

the second sending module is used for issuing a first parameter acquisition command to the terminal, wherein the first parameter acquisition command is used for acquiring the existing parameter configuration value of the target module, and the first parameter acquisition command is sent when the server inquires that the name and the parameter configuration value of the target module exist in a database for storing the parameter configuration value;

a second receiving module, configured to receive an existing parameter configuration value of the target module, where the existing parameter configuration value of the target module is sent to the server by the terminal in response to the first parameter acquisition command;

and the comparison module is used for comparing the existing parameter configuration value with the parameter configuration value of the target module in the database by the server, and when the existing parameter configuration value is inconsistent with the parameter configuration value of the target module, the server sends an operation instruction for the target module to the terminal.

14. The server according to claim 13, wherein the first receiving module is configured to receive the first configuration management request message sent by the terminal, and includes: receiving a request packet containing the first configuration management request message sent by the terminal, wherein the first configuration management request message is the first configuration management request message specified by OMA DM.

15. The server of claim 13, wherein the server further comprises:

a third sending module, configured to send a second acquisition command to the terminal, where the second acquisition command is used to acquire management node information of the target module, and the second acquisition command is sent when the server queries that a database for storing parameter configuration values does not have names and parameter configuration values of the target module;

a third receiving module, configured to receive management node information of the target module, where the management node information of the target module is sent to the server by the terminal in response to the second acquisition command;

and the registration module is used for finishing dynamic registration of the target module in the database by using the management node information so as to set a specific value as a parameter configuration value of the target module in the database, wherein the specific value is a parameter configuration value, an experience value or a value set by a user of the target module of other terminals.

16. The server of claim 13, wherein the server further comprises:

a fourth receiving module, configured to receive a second configuration management request message sent by the terminal if the target module is still abnormal after the server sends an operation instruction for the target module to the terminal, where the second configuration management request message is used to notify that the target module is still abnormal;

the analysis module is used for analyzing the second configuration management request message to confirm that the target module is abnormal;

and the fourth sending module is used for issuing a script file for solving the abnormity of the target module and a command for executing the script file to the terminal so that the terminal responds to the command for executing the script file issued by the server.

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