KR20090063504A - Oma-dm system, device management server and terminal device - Google Patents

Abstract

A system of an OMA-DM protocol using a session initiation protocol, an apparatus management server and a terminal device thereof are provided to manage readily network and improve the configuration/expandability. A DM(Device Management) server(100) generates and transmits an SIP(Session Initiation Pprotocol) including a first OMA(Open Mobile Alliance)-DM(Device Message). The processing mode of the second session initial protocol message is decided by analyzing the message code information of the second session initial protocol message. A user equipment(200) performs the conversion of a first OMA-DM message route by removing header information related to the session initial protocol. An SIP proxy sever(300) transmits the 1/2 session initial protocol messages to the terminal device and apparatus management server.

Description

OMA-DM system, device management server and terminal device {OMA-DM System, Device Management Server and Terminal Device}

The present invention relates to an OMA-DM system, a device management server and a terminal device, and more particularly, to a system, a device management server and a terminal device based on the OMA-DM protocol.

In general, device management technology is a technology that allows a third party to change a device configuration by remotely controlling a value of a variable or an object stored in a specific device in an effective manner.

Device management technology is being developed as an international standard based on SyncML Data Synchronization, written by the SyncML Initiative Forum by the Open Mobile Alliance (OMA), and is already being accepted as a de facto future device management technology standard by other standards bodies and operators worldwide.

OMA-DM (Open Mobile Alliance-Device Management) protocol is a device management protocol proposed by OMA. OMA-DM protocol is an advanced integration of WAP (Wireless Application Protocol) client provisioning and SyncML DM technology. It is written as a standard for wireless network based mobile terminal management but can be applied to wired terminal. Protocol.

The OMA-DM protocol collects configuration settings for a new terminal and environment information of the terminal, manages hardware information, enables setting of a new service for the terminal, and not only remote control of the terminal, but also backups of data. And a restoration protocol.

The OMA-DM protocol sets the configuration of a new terminal, collects environmental information of the terminal, manages hardware information, provides a new service to the terminal, and remotely controls the terminal as well as backing up data and It is also a protocol that can perform a restore function. Therefore, when managing the network using the OMA-DA protocol, it is possible to design a management system that can proactively replace the operator's requirements without being limited by the type of terminal, operating system, installation area, or network technology. have. As a result, not only the network management but also various services can be provided to the network device in association with the user without limitation in time and place.

The conventional OMA-DM protocol uses Synchronization Markup Language (SYNML) using protocols such as Hypertext Transfer Protocol (HTTP), Wireless Session Protocol (WSP), and Object Exchange Protocol (OBEX). ) It was a way to send and receive messages.

1 is a network diagram illustrating an OMA-DM protocol based system for transmitting and receiving a SyncML message using a conventional HTTP method.

The system based on the conventional OMA-DM protocol includes a DM server 10, a DM agent 20, and an IP management server 30.

The DM server 10 transmits an HTTP message including SyncML to the DM agent 20 to inform the communication condition and the communication status. In addition, the DM server 10 initializes its state in accordance with communication conditions, and then transmits a command for managing the operation of the DM agent 20 to the DM agent 20. The DM agent 20 transmits data generated asynchronously with the data based on the command to the DM server 10.

The IP management server 30 grasps the IP related information between the DM server 10 and the DM agent 20 and transmits and receives an HTTP message using the SyncML protocol to the other party's IP. Control communication between

Conventional OMA-DM protocol uses the HTTP, OBEX, WSP protocol. Since these protocols are connected in an end-to-end manner, it is not easy to build a distributed environment, and a system for managing configuration information of each device is required separately. That is, the conventional OMA-DM protocol-based system has a problem in that the message transmission method and network configuration method has a limitation.

In order to solve this problem, the present invention is to provide a system, a device management server and a terminal device based on the OMA-DM protocol using the Session Initiation Protocol (Session Initiation Protocol).

According to an aspect of the present invention, an OMA-DM system generates and transmits a first Session Initiation Protocol (SIP) message including a first OMA-DM message, and receives an externally received agent. A device management server configured to analyze message code information of a second session initial protocol message including an OMA-DM message and determine a processing method of the second session initial protocol message according to a message type; Generate and transmit the second session initial protocol message as a code identifying whether the message is a general message or an event related message, and receive the first session initial protocol message to remove header information related to the session initial protocol to remove the first OMA-DM. A terminal device for converting into a message; And a session start protocol proxy for receiving the first session initial protocol message and the second session initial protocol message from the device management server and the terminal device, respectively, and transmitting the first session initial protocol message and the second session initial protocol message to the terminal device and the device management server, respectively. Include a server.

The device management server according to an aspect of the present invention generates and transmits a command for managing the operation of a terminal device as a first synchronization markup language (SyncML) message, and generates the command based on the command in the terminal device. A device management server unit for receiving data or event-related data generated asynchronously as a second sync markup language message; And converting the first synchronous markup language message received from the device management server into a session initial protocol transmission message including session information and transmitting the same to the session start protocol proxy server, and initializing the session received from the session start protocol proxy server. The message code type of the protocol received message is analyzed to remove the header information related to the session initial protocol in the case of a general message, convert the header information to the second synchronous markup language message, and transmit the message to the device management server. It includes a session initial protocol message server unit for driving a process for processing protocol messages and multi-processing.

According to an aspect of the present invention, after executing a command received from a device management server, the terminal device may generate data generated based on the command or event-related data generated asynchronously in a first synchronization markup language. A device management agent unit for generating and transmitting a SyncML) message; And converting the first synchronous markup language message received from the device management agent into a session initial protocol transmission message including session information and transmitting the same to the session start protocol proxy server, and initializing the session received from the session start protocol proxy server. And a session initiation protocol message client unit for removing the header information related to the session initiation protocol, converting the received protocol message into a second synchronous markup language message, and transmitting the protocol reception message to the device management agent unit.

By the above-described configuration, the OMA-DM system using the session initial protocol according to the present invention can be expected to easily configure and manage the network between the device management server and the terminal device, and to be fast and easy to expand.

OMA-DM system using the session initial protocol according to the present invention can save the cost of building a system for separate device access management and has an advantage in the expansion and maintenance by facilitating the network configuration.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise. In addition, the terms “… unit”, “… unit”, “module”, “block”, etc. described in the specification mean a unit that processes at least one function or operation, which is hardware or software or a combination of hardware and software. It can be implemented as.

FIG. 2 is a network diagram illustrating an OMA-DM protocol based system using a Session Initiation Protocol (hereinafter referred to as SIP) according to an embodiment of the present invention.

The OMA-DM system according to the embodiment of the present invention includes a DM server 100, a terminal device 200, and a SIP proxy server 300. At this time, when viewed from the SIP server, the DM server 100 and the terminal device 200 become SIP terminals.

The DM server 100 includes a DM server unit 110 and a SIP message server unit 120.

The DM server unit 110 notifies the terminal device 200 of the communication condition and the communication status, and generates and transmits a command for managing the operation of the terminal device 200.

The SIP message server unit 120 receives the SyncML message from the DM server unit 110, converts the SyncML message into a SIP message including the SyncML message, and transmits the converted SIP message to the SIP message client unit through the SIP proxy server 300. Here, the SIP message includes session information in the message header.

In addition, the SIP message server unit 120 receives the SIP message from the SIP proxy server 300 and determines whether the SIP message is a general message or an asynchronous event-related message, and converts the SIP message into a SyncML message in the case of the general message. It transmits to the DM server unit 110, in case of an event-related message, processes an event-related message by identifying an SIP connection state and driving an additional process.

Here, the general message is a message for performing a remote control or command for the terminal device 200, using a general data transmission and reception method. In addition, the general message may include a get command for collecting related information, a set command for changing a value of the related information, a replace command, and the like.

Here, the event-related message is a message for asynchronously transmitting the relevant information generated in the terminal device 200, for example, an alarm message, a keepalive (Keepalive) message, etc., the content set in the terminal device 200 Accordingly, when a related message is generated, the message is asynchronously transmitted to the DM server 100.

The terminal device 200 includes a DM agent unit 210 and a SIP message client unit 220.

The DM agent 210 executes a command received from the DM server 100, transmits data generated based on the command to the DM server 100, or transmits event-related data generated asynchronously to the DM server 100. To send).

The SIP message client 220 converts the SIP message received through the SIP proxy server 300 from the DM server 100 into a SyncML message and transmits the converted SIP message to the DM agent 210. In addition, the SIP message client unit 220 converts the SyncML message received from the DM agent unit 210 into a SIP message and transmits the SIP message server unit 120 to the SIP message server unit 120 through the SIP proxy server 300. Here, the SIP message includes session information in the message header.

The SIP proxy server 300 searches for and transmits the SIP message received from the DM server 100 or the terminal device 200 based on the session information, to the terminal device 200 or the DM server 100 to transmit the SIP message. In other words, the SIP proxy server 300 transmits a SIP message including the SyncML message received from the DM server 100 or the terminal device 200 to the terminal device 200 or the DM server 100 using session information. Function In addition, the SIP proxy server 300 stores or updates information related to the SIP protocol used in the DM server 100 and the terminal device 200 to manage the SIP proxy server 300.

Next, the format of the SIP message will be described in detail with reference to FIG. 3.

3 is a view for explaining the format of a SIP message according to an embodiment of the present invention.

The format of a SIP message according to an embodiment of the present invention includes message information 420, a message header 440, a blank line 460, and a message body 480.

The message information 420 is an area for storing the type information of the message indicating whether the SIP version, the request message or the response message.

The message header 440 is an area for storing detailed information related to a message, such as session information of the SIP protocol.

The blank line 460 is an area where the message code 470 is stored. Here, the message code 470 includes an event message as '1', a general message Get as a '2', a general message Set as a '3', and a general message Replace as a '4'. .

The message body 480 is an area where actual data such as SyncML message is stored.

Next, the internal configuration of the SIP message server 120 of the DM server 100 according to an embodiment of the present invention will be described in detail with reference to FIG. 4.

4 is a block diagram showing the internal configuration of the SIP message server unit 120 according to an embodiment of the present invention.

SIP message server 120 according to an embodiment of the present invention is the first SIP protocol module 122, the server message logic module 124, the first message generation database 126, the first service logic module 128 and The first data storage module 129 is included.

The first SIP protocol module 122 is a module for generating information related to the SIP protocol required when converting a SyncML message received from the DM server unit 110 into a SIP message. In addition, the first SIP protocol module 122 includes the session information in the message header 440 to generate a SIP message.

Here, the information related to the SIP protocol includes all related information for generating the SIP protocol, such as session information and message type.

In addition, when receiving the SIP message from the SIP proxy server 300, the first SIP protocol module 122 removes header information related to the SIP protocol and converts the header information into a SyncML message.

When the server message logic module 124 receives a SIP received message from the SIP proxy server 300, the server message logic module 124 analyzes a code according to a message type in association with a message generating database, and performs a message of some type (general message or event related message). Determine the SIP message processing method according to the message type.

The first message generation database 126 stores message codes according to message types, information related to the SIP protocol, and session information.

The first service logic module 128 converts a SyncML message received from the DM server unit 110 into a SIP message using the first SIP protocol module 122 and the first message generation database 126 to convert the SIPML server into a SIP proxy server ( 300). In addition, when the first service logic module 128 receives the SIP message from the SIP proxy server 300, the first service logic module 128 determines whether the SIP message is transmitted from the DM agent, and determines the first SIP protocol module 122 and the first message generation database. Using 126, the SIP received message received from the SIP proxy server 300 is converted into a SyncML message and transmitted to the DM server 110.

The first data storage module 129 temporarily receives a SyncML message from the DM server unit 110 or temporarily stores a SIP message to be transmitted to the SIP proxy server 300. In addition, the first data storage module 129 temporarily receives a SIP message from the SIP proxy server 300 or temporarily stores a SyncML message to be transmitted to the DM server unit 110.

Next, the processing logic of the server message logic module 124 according to the embodiment of the present invention will be described with reference to FIG. 5.

5 is a diagram illustrating processing logic of the server message logic module 124 according to an embodiment of the present invention.

In general, the DM server 100 does not transmit an event related message to the terminal device 200. The event-related message may transmit the related information about the terminal device 200 from the terminal device 200 to the DM server 100 in real time to the DM server 100 and continuously build the related information from the DM server 100. This is a message to make sure.

When the server message logic module 124 receives the SIP message from the SIP proxy server 300 (S100), the server message logic module 124 determines whether the SIP message is an event related message and converts the SIP message into a SyncML message when the SIP message is not an event related message. In case of an event-related message, it is determined whether an existing session is maintained (S102, S104, S106).

When the existing message is maintained, the server message logic module 124 drives a process for processing an event SIP message so that related messages are multi-processed in real time (S108), and when the existing session is not maintained. In operation S104, the SIP message is converted into a SyncML message.

Next, an internal configuration of the SIP message client 220 of the terminal device 200 according to an embodiment of the present invention will be described in detail with reference to FIG. 6.

6 is a block diagram showing the internal configuration of the SIP message client 220 according to an embodiment of the present invention.

SIP message client 220 according to an embodiment of the present invention is a second SIP protocol module 222, a client message logic module 224, a second message generation database 226, a second service logic module 228 and A second data storage module 229 is included.

The second SIP protocol module 222 is a module for generating information related to the SIP protocol required when converting a SyncML message received from the DM agent 210 into a SIP message. In addition, the second SIP protocol module 222 includes the session information in the message header 440 to generate a SIP message.

In addition, when receiving the SIP message from the SIP proxy server 300, the second SIP protocol module 222 removes the header information related to the SIP protocol and converts the SIP message into a SyncML message.

The client message logic module 224 determines what type of message (general message or event related message) the received SyncML message is, and generates a SIP transmission message using code information according to the message type. That is, the client message logic module 224 generates a SIP transmission message by including a code for identifying whether the message is a general message or an event related message.

The second message generation database 226 includes a message code according to the message type, information related to the SIP protocol, and session information.

The second service logic module 228 converts the SyncML message received from the DM agent 210 into a SIP message using the second SIP protocol module 222 and the second message generation database 226 to convert the SyncML message into a SIP message. 300). In addition, when the second service logic module 228 receives the SIP message from the SIP proxy server 300, the second service logic module 228 determines whether the SIP message is transmitted from the DM server 100, and determines the second SIP protocol module 222 and the second SIP message. The SIP message received from the SIP proxy server 300 using the message generation database 226 is converted into a SyncML message and transmitted to the DM agent 210.

The second data storage module 229 receives the SyncML message from the DM agent 210 and temporarily stores the SyncML message, or temporarily stores a SIP message to be transmitted to the SIP proxy server 300. In addition, the second data storage module 229 receives the SIP message from the SIP proxy server 300 to temporarily store the SIP message, or temporarily stores a SyncML message to be transmitted to the DM agent.

7 is a view for explaining the organic structure of the OMA-DM system using SIP according to an embodiment of the present invention.

The SIP proxy server 300 manages the DM server 100 and the terminal device 200 as SIP terminals. The SIP proxy server 300 exchanges data with the DM server 100 and the terminal device 200 through a SIP message.

SIP terminal is classified by session information (SIP unique number) given by SIP, not IP based. So, even if the location of DM server 1, DM server 2 is changed or the location of DM devices is changed, it can be used as it is. Do.

The embodiments of the present invention described above are not implemented only by the apparatus and / or method, but may be implemented through a program for realizing a function corresponding to the configuration of the embodiments of the present invention, a recording medium on which the program is recorded, and the like. Such implementations may be readily implemented by those skilled in the art from the description of the above-described embodiments.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a network diagram illustrating a system based on the OMA-DM protocol for transmitting and receiving SynML messages in a conventional HTTP manner.

2 is a network diagram illustrating an OMA-DM protocol based system using a session start protocol according to an embodiment of the present invention.

3 is a view for explaining the format of a SIP message according to an embodiment of the present invention.

4 is a block diagram showing an internal configuration of a SIP message server unit according to an embodiment of the present invention.

5 is a diagram illustrating processing logic of a server message logic module according to an embodiment of the present invention.

6 is a block diagram illustrating an internal configuration of a SIP message client unit according to an embodiment of the present invention.

7 is a view for explaining the organic structure of the OMA-DM system using SIP according to an embodiment of the present invention.

Claims (10)

In the OMA-DM system for generating and transmitting an OMA-DM message based on the Open Mobile Alliance-Device Management (OMA-DM) protocol, Generate and transmit a first Session Initiation Protocol (SIP) message including a first OMA-DM message, and send message code information of a second session initial protocol message including a second OMA-DM message received from the outside. A device management server analyzing and determining a processing method of the second session initial protocol message according to a message type; Generate and transmit the second session initial protocol message as a code identifying whether the message is a general message or an event related message, and receive the first session initial protocol message to remove header information related to the session initial protocol to remove the first OMA-DM. A terminal device for converting into a message; And A session initiation protocol proxy server that receives the first session initiation protocol message and the second session initiation protocol message from the device management server and the terminal device, respectively, and transmits the first session initiation protocol message to the terminal device and the device management server based on session information. OMA-DM system comprising a. According to claim 1, The device management server, Generating a command for managing the operation of the terminal device or receiving data generated based on the command from the terminal device, receiving event-related data generated asynchronously in the terminal device, the event-related data, the command A device management server unit for transmitting and receiving the received data in a synchronization markup language (SyncML) message; And Converting the first synchronous markup language message received from the device management server into the first session initial protocol message including session information and transmitting the same to the session start protocol proxy server, and receiving the session start protocol proxy server. Session initiation protocol message server for removing the header information related to the session initiation protocol, converting the second session initiation protocol message into a second sync markup language message, and transmitting the message to the device management server. OMA-DM system comprising a. The method of claim 2, The session initial protocol message server unit, In case of converting the first synchronous markup language message into the first session initial protocol message, information related to the session initial protocol is generated, and header information related to the session initial protocol is removed from the second session initial protocol message. A first session initiation protocol module for converting to a second sync markup language message; A server message logic module configured to determine a message processing method according to a message type by analyzing a message code type of the second session initial protocol message; And Converts the first synchronous markup language message into the first session initial protocol message by using the first session initial protocol module and the server message logic module, and transmits the first synchronous markup language message to the session initial protocol proxy server; A first service logic module converting a protocol message into the second sync markup language message and transmitting the protocol message to the device management server unit OMA-DM system comprising a. The method of claim 3, wherein The server message logic module, Determining whether the second session initial protocol message is a general message or an event related message; converting the second session initial protocol message into the second synchronous markup language message if the general message is used; and processing an event session initial protocol message if the event related message is used. OMA-DM system, characterized in that for driving multiple processing. According to claim 1, The terminal device, After executing the command received from the device management server, and transmits the data generated on the basis of the command to the device management server, asynchronously generates event-related data to the device management server, A device management agent unit configured to transmit / receive the command, the event related data, and the generated data in the sync markup language message; And Converting the second synchronous markup language message received from the device management agent into the second session initial protocol message including session information and transmitting the same to the session start protocol proxy server, and receiving the session start protocol proxy server. Session initiation protocol message client unit for transmitting the first session initiation protocol message to the device management agent by converting the header information related to the session initiation protocol to a first sync markup language message. OMA-DM system comprising a. The method of claim 5, The session initial protocol message client unit, In case of converting the second sync markup language message to the second session initial protocol message, information related to the session initial protocol is generated, and header information related to the session initial protocol is removed from the first session initial protocol message. A second session initiation protocol module for converting to a first sync markup language message; A client message logic module configured to receive the second sync markup language message, determine a message type, and generate the second session initial protocol message including code information according to the message type; And Converts the second synchronous markup language message into the second session initial protocol message by using the second session initial protocol module and the client message logic module, and transmits the second synchronous markup language message to the session initial protocol proxy server; A second service logic module for converting a protocol message into the first sync markup language message and transmitting the protocol message to the device management agent; OMA-DM system comprising a. Commands for managing the operation of the terminal device are generated and transmitted as a first synchronization markup language (SyncML) message, and data generated based on the command in the terminal device or event-related data generated asynchronously. A device management server unit receiving the second sync markup language message; And Converts the first synchronous markup language message received from the device management server into a session initial protocol transmission message including session information and transmits the message to a session start protocol proxy server, and the session initial protocol received from the session start protocol proxy server. The message code type of the received message is analyzed to remove the header information related to the session initiation protocol in the case of a general message, to convert it to the second synchronous markup language message, and to transmit the message to the device management server. Session initiation protocol message server unit for multi-processing by driving a process for processing a message Device management server comprising a. The method of claim 7, wherein The session initial protocol message server unit, If the session initial protocol received message is the event related message, it is determined whether the existing session is maintained. If the existing session is not maintained, the session initial protocol reception message is converted into the second synchronous markup language message, and the existing session is maintained. If so, the device management server, characterized in that the multi-process by driving a process for processing the event session initial protocol message. After executing a command received from the device management server, a device for generating and transmitting data generated based on the command or asynchronously generated event-related data in a first synchronization markup language (SyncML) message A management agent unit; And Converts the first synchronous markup language message received from the device management agent into a session initial protocol transmission message including session information and transmits the message to a session start protocol proxy server, and the session initial protocol received from the session start protocol proxy server. Session initiation protocol message client unit for removing the header information related to the session initiation protocol, converting the received message into second sync markup language message, and transmitting the message to the device management agent unit. Terminal device comprising a. The method of claim 9, The session initial protocol message client unit, And generating the session initial protocol transmission message as a code identifying whether the message is a general message or an event related message and transmitting the generated code to the session start protocol proxy server.

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