KR101267663B1 - Method for managing gateway configuration information and system for the same - Google Patents

Abstract

Disclosed are a method of managing gateway shape information when a gateway and a soft switch are located on the same subnet, and a system therefor. The system includes a gateway having device-specific gateway location information and broadcasting initialization and registration request information including gateway location information at initial startup; And gateway port and configuration information and gateway network information based on the gateway location information as a reference value, and compares information extracted from initialization and registration request information with storage and management information to perform gateway registration and modification. And a soft switch for transmitting the gateway port and shape information corresponding to the gateway location information and the gateway network information to the gateway.

Gateway, configuration information, soft switch, MAC address, gateway location information

Description

TECHNICAL FOR MANAGING GATEWAY CONFIGURATION INFORMATION AND SYSTEM FOR THE SAME}

The present invention relates to a method of managing the shape information of the gateway, and more particularly, it is possible to easily manage the shape information, such as registration, deletion, mounting position change and information change of the gateway.

Voice over Internet Protocol (VoIP) refers to IP telephony technology for a range of facilities that deliver voice information using IP. The main advantage of VoIP and Internet telephony technology is that it integrates telephone service by utilizing existing IP network, allowing telephone users to receive long-distance and international phone service in internet and intranet environment with only local call charge.

To use VoIP, companies must install VoIP equipment at the gateway. The gateway receives the voice divided into packets from users in the company and sends it to other parts of the intranet or transmits to the PSTN using the T-1 or E1 interface.

In a system equipped with a VoIP gateway, when a VoIP gateway is registered, deleted, a change in the mounting location, or a system information is changed, the operation management device is started / restarted, and the changed information is input by the operator's manual method. There is. In this case, an error due to an incorrect input may occur when inputting a variable such as a subscriber board type or a physical location.

In particular, when registering a new gateway, the system operator must not only input all the information necessary for registration (for example, IP address, system ID, shape information, etc.) to the operation management apparatus, but must also input the new gateway. However, since the gateway system is constructed in an IP network environment, the gateways are not gathered in one place, but are installed in necessary places and geographically dispersed. In this situation, it is not inconvenient to input all the information necessary for registration to the new gateway in advance every time a new gateway is registered. In addition, even in the case of changing the shape information and the system information, the system operator needs a cumbersome process of changing not only the information on the operation management apparatus but also the information on the gateway.

In addition, the operation of inputting or changing the information into the gateway may not be possible by remote connection depending on the nature of the information, and may need to be directly connected to the gateway and executed. In this case, as the number of gateways increases, the amount of work for registering gateways and changing system information also increases.

An object of the present invention is to provide a gateway shape information management method and a system therefor, which can easily manage shape information such as registration, deletion, mounting location change, and information change of a gateway.

According to one aspect of the present invention, a method and system for managing gateway shape information when a gateway and a soft switch are located on the same subnet are disclosed. The system includes a gateway having device-specific gateway location information and broadcasting initialization and registration request information including gateway location information at initial startup; And gateway port and configuration information and gateway network information based on the gateway location information as a reference value, and compares information extracted from initialization and registration request information with storage and management information to perform gateway registration and modification. And a soft switch for transmitting the gateway port and shape information corresponding to the gateway location information and the gateway network information to the gateway. In this method, the soft switch stores and manages gateway port and shape information and gateway network information based on the gateway device-specific gateway location information as a reference value. When broadcasting the registration request information, the soft switch compares the information extracted from the initialization and registration request information with the information stored and managed to register and change the gateway, and the gateway port and shape information corresponding to the gateway location information. And gateway network information to the gateway.

According to another aspect of the present invention, disclosed is a method and system for managing gateway shape information when the first and second gateways are located on the same subnet and the first and second gateways and soft switches are not located on the same subnet. do. The system includes a first gateway having device-specific gateway location information and broadcasting initialization and registration request information including gateway location information at initial startup; A second gateway converting the initialization and registration request information into an IP packet to transmit registration agent information to the soft switch, and transmitting the gateway port and shape information and the gateway network information received from the soft switch to the first gateway; And store and manage gateway port and configuration information and gateway network information using the gateway location information as a reference value, and compare and extract information stored from the registration agent information with the information stored and managed to perform registration and change of the first gateway. And a soft switch for transmitting the gateway port and shape information corresponding to the gateway location information and the gateway network information to the second gateway. In this method, the first gateway includes its own gateway location information at initial startup, while the soft switch stores and manages the gateway port and shape information and the gateway network information based on the gateway device specific gateway location information. When the initialization and registration request information is broadcasted, the second gateway converts the initialization and registration request information into an IP packet and transmits the registration information to the soft switch, and the soft switch is extracted from the registration information and stored and managed. The first gateway is registered and changed by comparing the information. When the soft switch transmits the gateway port and shape information corresponding to the gateway location information and the gateway network information to the second gateway, the second gateway transmits the gateway port and shape information and the gateway network information received from the soft switch to the first gateway. do.

According to the present invention, when registering a new gateway, the system operator does not need to directly input all information (for example, IP address, system ID, shape information, etc.) necessary for registration to the new gateway in advance. In addition, when modifying the shape information and system information of the gateway, the system operator simply needs to modify the information of the shape information management DB of the soft switch. Therefore, the system operator's work is simplified when registering the gateway and changing the system information.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions will not be described in detail if they obscure the subject matter of the present invention.

1 is a diagram illustrating a configuration of a VoIP gateway system to which a shape information management method according to the present invention is applied.

Referring to FIG. 1, in the VoIP gateway system, a VoIP gateway 10, a soft-switch 20, a system operator terminal 30, and the like are connected to an Ethernet or IP network.

The system operator terminal 30 supports the operator to perform registration, deletion, device location change and system information change of the VoIP gateway 10 through a web browser.

The VoIP gateway 10 is connected between a public telephone network (PSTN) and an intranet or an IP network to provide a VoIP function. In the present invention, the VoIP gateway 10 includes gateway location information of device sharing. In one embodiment, the gateway location information may be a combination of a system ID and a slot ID. The gateway location information is included in the initialization and registration request information transmitted by the VoIP gateway 10 to register its own information, or in the registration information transmitted by the VoIP gateway 10 registering the information of another VoIP gateway. . The gateway location information only needs to be set once once when the VoIP gateway 10 is installed, and there is no need to change thereafter.

The soft switch 20 is an exchange equipment that supports the next generation IP communication service. The soft switch 20 serves as a platform that integrates and controls IP communication networks between carriers and supports next-generation communication services such as Internet telephony, wired / wireless integration, and home networks to general subscribers. . In the present invention, the soft switch 20 stores and manages information necessary for registering, deleting, changing the mounting position of the VoIP gateway 10, and changing system information. Examples of the information include gateway location information, gateway port and shape information, gateway network information, and the like. Among them, the gateway location information serves as reference information for associating the pieces of information. The system operator generates gateway location information as many gateway devices as the number of gateway devices to be installed, and then stores the gateway port and the configuration information and the gateway network information with the gateway location information and stores them in the configuration information management DB as shown in FIG. 2. The shape information management DB is stored in the shape information management unit 21 of the soft switch 20 and is managed by the shape information management unit 21.

Here, the gateway port and shape information may include gateway type, telephone number for each port, terminal or trunk type for each port, port number, signaling method, and other unique characteristic information of the gateway. In addition, the gateway network information includes information such as a medium access control (MAC) address, a gateway IP address, a subnet mask, a router IP, a server (soft switch) IP address, and the like. The MAC address, however, does not necessarily have to be entered initially by the system operator. The MAC address may be automatically registered by the shape information management unit 21 of the soft switch 20 in the gateway registration process later.

Hereinafter, when the VoIP gateway 10 is located in the same subnet (sub-network) as the soft switch 20 (first embodiment) and in a different subnet (sub-network) (second embodiment) The shape information management method of the present invention will be described.

First, with reference to FIG. 3, the first embodiment when the VoIP gateway 10 is located in the same subnet as the soft switch 20 will be described.

Since the VoIP gateway 10 has not yet set the IP address and its valid IP address information of the soft switch 20 on which the shape information management unit 21 is driven after startup (that is, the IP address of the soft switch 20). And because its valid IP address information is not yet valid), the initialization and registration request information is broadcast on the Ethernet or IP network (301). At this time, the initialization and registration request information includes the MAC address of the VoIP gateway 10 (hereinafter referred to as 'gateway MAC address A') and the location information of the VoIP gateway 10 (hereinafter referred to as 'gateway location information B'). And type information of the VoIP gateway 10 (hereinafter referred to as 'gateway type information C').

When the initialization and registration request information broadcasted from the VoIP gateway 10 is received (302), the shape information management unit 21 of the soft switch 20 is the gateway MAC address (A) and gateway position information from the initialization and registration request information. After extracting (B) and the gateway type information (C), the gateway port and shape information corresponding to the gateway position information (B) are examined in the shape information management DB to determine whether the gateway type information matches (303). That is, it compares the extracted gateway type information C with the gateway type information of the gateway port and shape information corresponding to the gateway location information B, and determines whether there is a match.

When the determination result 303 matches the gateway type information, the shape information management unit 21 of the soft switch 20 determines that the gateway MAC address A of the shape information management DB is different from the gateway location information B. Check whether it is connected to (304). That is, it checks whether the MAC address is duplicated.

As a result of the determination 303, if the gateway type information is inconsistent, the shape information management unit 21 of the soft switch 20 sends a warning message (eg, a "gateway type mismatch" message) to the gateway MAC address A and the gateway location information. (B) and the gateway type information (C) are transmitted and output to the system operator terminal 30 (305).

If the inspection result 304, the gateway MAC address (A) is not connected with other gateway location information other than the gateway location information (B) (that is, the MAC address is not registered duplicate), the shape of the soft switch 20 The information manager 21 checks gateway network information corresponding to the gateway location information B in the shape information management DB to determine whether to register a MAC address (306).

As a result of the check 304, if the gateway MAC address A is connected to another gateway location information D other than the gateway location information B (that is, the MAC address is registered twice), the soft switch 20 The configuration information management unit 21 sends a deletion confirmation request message asking whether to delete the MAC address of the gateway network information corresponding to the gateway location information (D) to which the gateway MAC address (A) is connected in the configuration information management DB. ) And the gateway MAC address (A) to the system operator terminal (30). At this time, if the system operator accepts the deletion confirmation request message (307), the configuration information management unit 21 of the soft switch 20 is the MAC address of the gateway network information corresponding to the gateway location information (D) in the configuration information management DB. After deleting 308, the operation is performed again from the “306” step. However, when the system operator rejects the deletion confirmation request message (307), the gateway initialization and registration procedure ends.

If the MAC address is not registered in the determination result 306, the shape information management unit 21 of the soft switch 20 selects the MAC address of the gateway network information corresponding to the gateway position information B in the shape information management DB. After registering with the gateway MAC address (A) (309), the VoIP gateway 10 requesting initial registration of the gateway port and shape information corresponding to the gateway location information (B) and the gateway network information using the gateway MAC address (A). To transmit (310).

As a result of the determination 306, if the MAC address is registered, the shape information management unit 21 of the soft switch 20 determines whether to modify the MAC address of the gateway network information corresponding to the gateway position information B in the shape information management DB. A correction confirmation request message asking for the message is transmitted to the system operator terminal 30 along with the gateway location information (B), the pre-registered MAC address, and the gateway MAC address (A) to be registered. At this time, if the system operator accepts the modification confirmation request message (311), the configuration information management unit 21 of the soft switch 20 is the MAC address of the gateway network information corresponding to the gateway location information (B) in the configuration information management DB Is changed to the gateway MAC address (A) (312), the VoIP gateway requesting initial registration using the gateway MAC address (A) and the gateway port and shape information corresponding to the gateway location information (B) ( 10) (310). However, when the system operator rejects the modification confirmation request message (311), the gateway initialization and registration procedure ends.

A second embodiment in which the VoIP gateway 10 is located on a different subnet from the soft switch 20 will now be described with reference to FIG. 4.

First, the VoIP gateway 10 having valid gateway network information is selected from among the VoIP gateways 10 located on the same subnet (Sub-Network) (401), and a registration agent module is installed in the corresponding VoIP gateway 10. Hereinafter, the VoIP gateway on which the registration agent module is installed is referred to as a 'second gateway'. Correspondingly, the VoIP gateway requesting registration or change agent as the second gateway is referred to as a 'first gateway'.

The first gateway broadcasts initialization and registration request information over an Ethernet or IP network (402).

When the broadcasted initialization and registration request information is received from the first gateway (403), the registration agent module of the second gateway extracts the MAC address (E) of the first gateway from the initialization and registration request information (404). Enable the conversion between packets and IP packets.

The registration agent module of the second gateway converts the initialization and registration request information into registration agency information, and then converts the initialization and registration request information into registration information into IP packets using its network information (405).

When registration information is received from the second gateway (406), the shape information management unit 21 of the soft switch 20 determines the MAC address (A), location information (B), and type information of the first gateway from the registration information. After extracting the C), the gateway port and the shape information corresponding to the gateway position information B are examined in the shape information management DB to determine whether the gateway type information matches (407).

The following steps "408" to "416" are the same as the steps "304" to "312" of the first embodiment, and thus a detailed description thereof will be omitted. However, after the MAC address registration or change is completed, the gateway port and shape information corresponding to the gateway location information (B) and the gateway network information are transmitted to the second gateway in step 414 (step 310 of FIG. 3). There is a difference in that. Thereafter, the second gateway converts the IP packet of the gateway port and shape information and the gateway network information received from the soft switch 20 into an Ethernet packet, and then converts the MAC address E extracted in the step 404 into an Ethernet packet. In operation 417, the data is transmitted to the first gateway.

Although the present invention has been described in connection with some embodiments thereof, it should be understood that various changes and modifications may be made therein without departing from the spirit and scope of the invention as understood by those skilled in the art. something to do. It is also contemplated that such variations and modifications are within the scope of the claims appended hereto.

1 is a diagram showing the configuration of a VoIP gateway system to which the shape information management method according to the present invention is applied.

2 is an explanatory diagram showing a configuration example of a shape information management DB according to an embodiment of the present invention.

3 is a flowchart illustrating a gateway shape information management method according to a first embodiment of the present invention.

4 is a flowchart illustrating a gateway shape information management method according to a second embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

10: VoIP Gateway 20: Soft Switch

21: configuration information management unit 30: system operator terminal

Claims (11)

A system for managing the shape information of the gateway, A first gateway having device-specific gateway location information and broadcasting initialization and registration request information including the gateway location information at initial startup; Converts the initialization and registration request information into an IP packet to transmit registration agent information to a soft switch, and transmits gateway port and shape information and gateway network information received from the soft switch to the first gateway, A second gateway located on the same subnet as; And Storing and managing the gateway port and shape information and the gateway network information by using the gateway location information as a reference value, and registering the first gateway by comparing the information extracted from the registration agent information with the information stored and managed; After performing the change operation, and transmits the gateway port and shape information and the gateway network information corresponding to the gateway location information to the second gateway, including a soft switch not located on the same subnet as the second gateway. System. The method of claim 1, The information extracted from the registration agent information includes a hardware address (MAC address), location information, and type information of the first gateway. 3. The method of claim 2, When the initialization and registration request information is received from the first gateway, the second gateway extracts a hardware address (MAC address) of the first gateway from the initialization and registration request information, and extracts the initialization and registration request information. After converting the registration information into the IP packet by using the network information of its own to the soft switch, and converts the gateway port and shape information and the gateway network information received from the soft switch into an Ethernet packet Send to the first gateway using a hardware address (MAC address) of the first gateway. 4. The method according to any one of claims 1 to 3, The gateway location information is composed of a combination of a system ID and a slot ID, The gateway port and shape information includes a gateway type, a phone number for each port, a terminal or relay line type for each port, a port number, and a signaling method. The gateway network information includes a MAC address, an IP address, a subnet mask, a router IP, and a soft switch IP address. As a method of managing the shape information of the gateway, a) the soft switch storing and managing the gateway port and the shape information and the gateway network information based on the gateway location information unique to the gateway device; b) when the first gateway broadcasts initialization and registration request information including its gateway location information at initial startup, the second gateway converts the initialization and registration request information into an IP packet and converts the registration information into a soft switch. Transmitting; c) the soft switch comparing the information extracted from the registration agent information with the information stored and managed to perform registration and change of the first gateway; d) when the soft switch transmits the gateway port and shape information and the gateway network information corresponding to the gateway location information to the second gateway, the gateway port and shape information received by the second gateway from the soft switch; And transmitting the gateway network information to the first gateway, And the first and second gateways are located on the same subnet, and the first and second gateways and the soft switch are not located on the same subnet. The method of claim 5, The information extracted from the registration agent information includes a hardware address (MAC address), location information, and type information of the first gateway. The method of claim 6, In step b), when the initialization and registration request information is received from the first gateway, the second gateway extracts a hardware address (MAC address) of the first gateway from the initialization and registration request information, and the initialization. And converts registration request information into the registration agent information, converts the registration request information into an IP packet using its network information, and transmits the converted IP packet to the soft switch. In step d), the gateway port and shape information received from the soft switch and the gateway network information are converted into an Ethernet packet and transmitted to the first gateway using a hardware address (MAC address) of the first gateway. Way. 8. The method according to any one of claims 5 to 7, The gateway location information is composed of a combination of a system ID and a slot ID, The gateway port and shape information includes a gateway type, a phone number for each port, a terminal or relay line type for each port, a port number, and a signaling method. The gateway network information comprises a MAC address, an IP address, a subnet mask, a router IP, a soft switch IP address. 9. The method of claim 8, C), c1) the soft switch extracts a gateway MAC address (A), gateway location information (B), and gateway type information (C) from the initialization and registration request information or the registration agent information, and then enters the gateway location information (B). Inspecting corresponding gateway port and shape information to determine whether gateway type information matches; c2) if the gateway type information is identical, determining whether the gateway MAC address (A) is connected to other gateway location information other than the gateway location information (B) if the gateway type information matches; c3) if the check result indicates that the gateway MAC address (A) is not connected with other gateway location information other than the gateway location information (B) (ie, the MAC address is not registered repeatedly), the soft switch is configured as the gateway. Analyzing the gateway network information corresponding to the location information (B) and analyzing whether to register a MAC address; c4) if the MAC address is not registered, the soft switch registers the MAC address of the gateway network information corresponding to the gateway location information (B) as the gateway MAC address (A); c5) As a result of the analysis, if the MAC address is registered, a modification confirmation request message asking whether the soft switch modifies the MAC address of the gateway network information corresponding to the gateway location information (B) is sent to the gateway location information ( B), transmitting to the system operator terminal together with the MAC address already registered and the gateway MAC address (A) to be registered; And c6) when the system operator accepts the modification confirmation request message, the soft switch changing the MAC address of the gateway network information corresponding to the gateway location information (B) to the gateway MAC address (A). How to. 10. The method of claim 9, If the gateway type information does not match, the soft switch sends a gateway type mismatch message to the system operator terminal together with the gateway MAC address (A), the gateway location information (B), and the gateway type information (C). The method further comprises the step of transmitting. 10. The method of claim 9, As a result of the check, if the gateway MAC address (A) is connected with other gateway location information (D) other than the gateway location information (B) (i.e., the MAC address is registered repeatedly), the soft switch is configured to the gateway MAC. A deletion confirmation request message asking whether to delete the MAC address of the gateway network information corresponding to the gateway location information (D) to which the address (A) is connected is sent to the gateway location information (D) and the gateway MAC address (A). Transmitting together to the system operator terminal; And If the system operator accepts the deletion confirmation request message, the soft switch deletes the MAC address of the gateway network information corresponding to the gateway location information (D), and then performing the operation from the step c3). How to.

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