KR101277857B1 - Communication access apparatus and control method thereof - Google Patents

Abstract

The present invention relates to a communication connection device and a control method thereof. According to another aspect of the present invention, there is provided a method of controlling a communication access device, including: determining whether an IP address of a connected communication terminal conflicts with another communication terminal IP address; Generating a GARP (Gratuitous Address Resolution Protocol) packet including the collided IP address when a collision of the IP address occurs as a result of the determination; Transmitting the generated GARP packet to at least the connected communication terminal; And allocating a new IP address to the connected communication terminal according to the IP address allocation request from the connected communication terminal.

Description

COMMUNICATION ACCESS APPARATUS AND CONTROL METHOD THEREOF

The present invention relates to a communication access device and a control method thereof, and more particularly, to a communication access device for detecting an IP collision situation of an accessing communication terminal and reassigning an IP address.

Recent wireless communication terminals are configured to communicate with a wireless LAN access device to perform an Internet connection.

However, in the case of using the wireless communication terminals while moving freely, it is important to block the communication channel with the previously connected WLAN access device and to create the communication channel with other WLAN access devices closer to each other to ensure the mobility.

As described above, a process in which the wireless communication terminal switches its communication connection from one wireless LAN access device to another wireless access point is called 'handover'.

However, when the wireless communication terminal is in the handover state, there may be a case where an IP address collision of the corresponding wireless communication terminal occurs.

For example, when a wireless communication terminal accesses a wireless LAN access point AP1, the wireless communication terminal receives an IP address from AP1 and then uses the IP address. If the IP address assigned from AP1 is used as it is, AP2 may collide with the IP address previously assigned to another wireless communication terminal.

In this case, the wireless communication terminal cannot perform normal wireless LAN communication, and eventually causes a user inconvenience because it is necessary to restart the wireless LAN module (for example, a WiFi module) provided in the wireless communication terminal.

However, even when the WLAN module is restarted by the wireless communication terminal itself, a short disconnection time of several seconds occurs, and thus, a seamless roaming service is not provided.

Registered Patent No. 10-0471791

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problem, and an object thereof is a communication access device for quickly allocating a new IP address when an IP address collision occurs in a handover situation of a wireless communication terminal, and its It is to provide a control method.

In order to achieve the above object, a communication access device according to the present invention includes an address conflict determination unit that determines whether a collision occurs between an IP address of a connected communication terminal and another communication terminal IP address; A packet generation unit for generating a gratutous address resolution protocol (GARP) packet including the collided IP address when a collision of an IP address occurs as a result of the determination of the address collision determination unit; A transmitter for transmitting the GARP packet generated by the packet generator to at least the connected communication terminal; And an address allocator for allocating a new IP address to the connected communication terminal according to the IP address allocation request from the connected communication terminal.

In addition, to achieve the above object, a control method of a communication access device according to the present invention comprises the steps of: determining whether a collision occurs with an IP address of another connected communication terminal IP address; Generating a GARP (Gratuitous Address Resolution Protocol) packet including the collided IP address when a collision of the IP address occurs as a result of the determination; Transmitting the generated GARP packet to at least the connected communication terminal; And allocating a new IP address to the connected communication terminal according to the IP address allocation request from the connected communication terminal.

As described above, according to the present invention, when an IP address collision occurs in a handover situation of a communication terminal, a new IP address can be quickly assigned.

In addition, the wireless LAN access device may prevent the communication failure caused by the error of the default gateway information in the wireless communication terminal by transmitting the default gateway information to the access terminal.

Furthermore, by using the GARP packet for IP update or ARP table update, it is not necessary to add a function for separate protocol processing to the communication terminal.

1 is a schematic structural diagram of an entire system including a communication connection device according to a first embodiment of the present invention,
Fig. 2 is a functional block diagram of the communication connection device of Fig. 1,
3 is a functional block diagram of a communication connection device according to a first embodiment of the present invention,
4 to 5 are control flowcharts of the entire system including the communication connection device according to the first embodiment of the present invention,
6 is a control flowchart of an entire system including a communication connection device according to a second embodiment of the present invention;

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The overall system configuration including the communication connection device according to the first embodiment of the present invention is shown in FIG.

Referring to FIG. 1, the entire system includes a wireless communication terminal 300, a first communication connection device 100, a second communication connection device 200, and a service providing server 400.

As shown in the figure, the wireless communication terminal 300 can communicate with the first communication connection device 100 and the second communication connection device 200. In this embodiment, the wireless communication terminal 300 is a first communication device. Access to the communication access device 100 is assigned an IP (IP: Internet Protocol) address and receives and sets default gateway information to communicate with the service providing server 400 and handover to the second communication access device 200. It is assumed that the situation.

That is, even though the wireless communication terminal 300 is currently connected to the second communication connection device 200, the wireless communication terminal 300 still uses the IP address allocated from the first communication connection device 100, and also from the first communication connection device 100. The default gateway information is set as the received gateway information.

Hereinafter, the function of the second communication connection device 200 made in such a situation will be described.

As shown in FIG. 2, the second communication access device 200 includes a communication interface 210, an address conflict determination unit 220, a packet generator 250, a transmitter 240, and an address allocator 260. , A storage unit 230, a connection detection unit 270, and an information extraction unit 280 may be configured.

The communication interface 210 performs a function of forming a wireless communication channel with the wireless communication terminal 300. The wireless communication terminal 300 and the second communication connection device 200 are configured to communicate with the wireless communication channel. It can transmit and receive signals, information, and packets.

The address collision determination unit 220 performs a function of determining whether the IP address of the connected communication terminal 300 is the same as the IP address of another communication terminal 300, that is, whether a collision occurs.

That is, a plurality of wireless communication terminals may be connected to the second communication access device 200, and thus, a new IP address may be connected to the second communication access device 200 according to the handover process (that is, the IP address from the first communication access device 100). IP address of the wireless communication terminal assigned to the may be the same as the IP address of the other wireless communication terminal that was previously connected.

As such, when the IP addresses of different wireless communication terminals using the same communication access device are the same, normal communication is not performed. The address collision determination unit 220 determines the collision state of the IP address.

As a method of determining the collision of the IP address, the address collision determination unit 220 may use the Mac address of the terminal to be connected. To this end, the storage unit 230 must be provided with a matching table matching IP addresses and MAC addresses of the wireless communication terminals 300 to be accessed in advance, and should be updated from time to time.

For example, the address conflict determination unit 220 compares the IP address and MAC address of the newly connected communication terminal 300 with the IP address-Mac address matching table provided in the storage unit 230 to determine whether there is an IP collision. You can do it. That is, the address conflict determination unit 220 matches an IP address of the newly connected communication terminal 300 with a MAC address different from that of the newly connected communication terminal 300, and stores the same in the matching table. If it is, the IP address of the newly connected communication terminal 300 can be determined that the collision.

The packet generation unit 250, if a collision of the IP address occurs as a result of the determination of the address collision determination unit 220, the GARP (Gratuitous ARP (Address IP) including the IP address of the newly connected communication terminal) Resolution Protocol)) Creates a packet.

One of the purposes of the original GARP packet is to determine if a particular terminal has another terminal on the network with the same IP address, and the specific terminal includes its currently assigned IP address equally at the source and destination. The GARP packet is distributed to the network (ie, GARP request packet transmission) to determine whether there is a response from another terminal (ie, GARP response packet). If there is a response from the other terminal, the specific terminal determines that its current IP address is in conflict with the IP address of the other terminal, and goes through a process for updating the IP address.

Since the structure of the GARP packet itself is only known technology, a detailed description thereof will be omitted.

However, in the present exemplary embodiment, the second communication access device 200 that has already detected the IP address collision situation between the other communication terminals generates the GARP signal. Here, the GARP packet generated by the packet generator 250 of the second communication access device 200 may correspond to a GARP response packet.

The transmitter 240 transmits the GARP packet generated by the packet generator 250 to at least the communication terminal 300. That is, the transmitter 240 may broadcast the GARP packet to all the devices of the network by broadcasting, or may transmit only the newly connected, that is, the communication terminal 300 causing the IP address collision.

The address allocating unit 260 performs a function of allocating a new IP address to the connected communication terminal 300 according to an IP address allocation request from the connected communication terminal 300.

That is, as described above, the wireless communication terminal 300 receiving the GARP packet undergoes a process for updating its own IP address, for example, a second communication access device using a Dynamic Host Configuration Protocol (DHCP) protocol. Request 200 to allocate a new address.

At this time, the address allocating unit 260 performs a function of allocating a new IP address in response to the request of the wireless communication terminal 300.

For example, the address allocator 260 may select one of the address available ranges that can be allocated without conflicting addresses and assign the IP address to the wireless communication terminal 300, wherein the IP address is assigned to the wireless communication terminal 300. Allocating includes not only storing and managing the allocation information, but also all of transmitting the allocated IP address to the wireless communication terminal 300. In this case, the address allocator 260 may also extract gateway information and transmit the same to the wireless communication terminal 300.

Meanwhile, the connection detection unit 270 detects a new connection of the wireless communication terminal 300. That is, the connection detection unit 270 performs a function of detecting a connection from a new wireless communication terminal 300 that is previously connected and has not been assigned an IP address.

The information extracting unit 280 performs a function of extracting the provided gateway information when the connection detecting unit 270 detects a new connection of the communication terminal 300. In particular, the information extracting unit 280 extracts the MAC address of the gateway.

Herein, the gateway refers to a device to be passed when the wireless communication terminal 300 wants to communicate with a device that is not on the same network. Each wireless communication terminal 300 uses a subnet mask to identify a device corresponding to a specific IP address. You can determine whether you are on the same network as yourself.

When the gateway information including the MAC address is extracted as described above, the packet generation unit 250 described above generates a GARP packet including the extracted gateway information, and the transmission unit 240 generates the GARP packet generated by the packet generation unit 250. It transmits to the newly connected communication terminal 300.

As described above, the transmitter 240 may transmit the GARP packet to all devices on the network.

Upon receiving such gateway information, the wireless communication terminal 300 updates an ARP (Address Resolution Protocol) table for the gateway using MAC information included in the gateway information.

3 shows a functional block of the communication connection device 200 'according to the second embodiment of the present invention.

The difference in configuration of FIGS. 3 and 2 is that the packet analyzer 290 is included instead of the connection detector 270 of FIG. 2.

Referring to FIG. 2, only the differences from the above description will be described.

The packet analyzer 290 analyzes data packets received from the connected wireless communication terminal 300.

For example, the packet analyzer 290 extracts a destination IP address and a MAC address from the received data packet.

The information extracting unit 280 ′ extracts the gateway information provided when it is determined that the MAC address of the gateway is incorrectly set in the wireless communication terminal 300 by using the analysis result of the packet analyzing unit 290. Perform.

For example, the information extracting unit 280 'determines that the destination IP address of the packet received from the wireless communication terminal 300 is an address in another network (subnet mask may be used), and at the same time, the destination MAC address is If it is determined that their MAC address is different, it is determined that wrong information (ie, an incorrect IP address and / or MAC address) for the default gateway is set in the corresponding wireless communication terminal 300.

Subsequently, the packet generator 250 ′ generates a GARP packet including the gateway information (for example, the gateway IP address and the MAC address) extracted by the information extractor 280 ′, and the transmitter 240 ′. Sending the generated GARP packet is the same as in the previous embodiment.

Hereinafter, a control and signal flow of a communication access device 200 and a communication terminal 300 communicating with the same according to an embodiment of the present invention will be described with reference to FIG. 4.

In the figure, the communication terminal 300 is indicated by the smartphone 300. In addition, the communication access device 200 is denoted by AP1, AP2, which is only to indicate the handover situation, the substantial function of the present invention is performed in the AP2 (200).

The smartphone 300 may have a handover situation due to various reasons such as the movement of the smartphone 300 in the state of transmitting and receiving data with the server 400 via the AP1 100, and as a result, the smartphone 300 may establish a new wireless connection with AP2 200.

The process of wireless connection between the smartphone 300 and the AP2 200 may include, for example, a process such as AP Search, Authentication, Association, etc. These processes correspond to previously known contents in the wireless LAN access technology field. The description is omitted.

The AP2 200 determines whether or not the smart phone 300 having a new wireless connection causes an IP collision with other terminals, and generates an GARP packet including an IP address causing the collision when the IP 300 causes an IP collision.

In this case, the generated GARP packet may include not only an IP address but also a MAC address of a terminal registered to match the IP address.

The AP2 200 transmits the generated GARP packet to the smartphone 300. Accordingly, the smartphone 300 may recognize that its IP address is causing a collision.

That is, when the received GARP packet includes the same value as the IP address in the destination address IP area and the value different from the own MAC address is included in the destination address MAC area, the smartphone 300 includes the own IP. It is to detect that another device having the same address is already communicating with the AP2 200.

Accordingly, the smartphone 300 performs a communication according to the DCHP with the AP2 200 to receive a new IP address.

Specifically, the wireless communication terminal 300 transmits a signal for searching for a DHCP server 400 on a corresponding subnet (LAN) using its MAC address, and the AP2 200 receives the received table. In the empty IP or IP address according to the static table to check and assign the IP address, default gateway information, lease period, a message including the subnet mask is generated and sent to the smartphone (300).

After that, the smartphone 300 writes a REQUEST message and transmits it, and the AP2 200 receiving the confirmation message uses the IP address, lease duration, and default gateway information based on the REQUEST message transmitted by the smartphone 300. Transmit the corresponding response signal.

At this time, the AP2 200 may be registered with the IP address information assigned to the smart phone 300, of course.

The smartphone 300 updates and registers an IP address received through the above-described DHCP process, and uses the assigned IP address for later communication.

Subsequently, the smartphone 300 may update the ARP table through communication with the AP2 200 using the ARP packet, and then may transmit and receive data with the server 400 via the AP2 200.

Hereinafter, a process of including the gateway information in the GARP packet by the communication access device 200 (that is, AP2) according to an embodiment of the present invention will be described with reference to FIG. 5.

In the present embodiment, as in the previous example, the smartphone 300 has a handover situation while transmitting and receiving data with the server 400 via the AP1 (100) to form a new wireless connection with the AP2 (200). It presupposes and demonstrates.

Each time AP2 200 detects a wireless connection of the new smartphone 300, the AP2 200 extracts gateway information (IP address and MAC address of the gateway) and generates a GARP packet including the extracted gateway information.

That is, the AP2 200 generates and transmits a GARP packet having the extracted IP address and MAC address as a destination address.

The smartphone 300 receives this and updates the ARP table according to the received GARP packet. Accordingly, the smartphone 300 can set correct information (correct IP address and MAC address) for the gateway.

Thereafter, the smartphone 300 may perform data transmission / reception with the server 400 using the newly set gateway information.

As described above, when the wireless communication terminal 300 newly connects, when the gateway access information is transmitted in the GARP packet by the communication access device 200, the wireless communication terminal 300 beforehand generates gateway information before a communication failure occurs due to incorrect gateway information. Since it can be renewed, it is possible to minimize user inconvenience caused by communication failure.

6 is different from 5 in that AP2 200 analyzes a packet received from the smartphone 300 to determine whether a MAC address of the gateway set in the smartphone 300 is an error.

For example, the AP2 200 determines that the destination IP address is among the packets received from the smartphone 300 based on the subnet mask, and is determined to be in an external network, and at the same time, the destination MAC address among the received packets is provided to the AP2 200. If the gateway MAC address is different from that of the smartphone 300, it may be determined that incorrect gateway information is set.

The subsequent process, that is, the process of extracting the gateway information and including it in the GARP packet and transmitting it to the smartphone 300 is the same as that of FIG.

In the above embodiments, the communication access device 200 according to the present invention is an example of a wireless LAN access device, but the communication access device 200 according to the present invention may correspond to a device used in a wired communication section. Of course.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is to be understood that such variations and modifications are intended to be included in the scope of the appended claims.

100, 200: communication connection device 300: communication terminal
400: server 210: communication interface
220: address conflict determination unit 230: storage unit
240: transmission unit 250: packet generation unit
260: address assignment unit 270: connection detection unit
280: information extraction unit 290: packet analysis unit

Claims (8)

(a) determining whether an IP address of the newly connected communication terminal conflicts with another communication terminal IP address;
(b) generating a Ratuitous Address Resolution Protocol (GARP) packet including the collided IP address when the collision of the IP address occurs as a result of the determination of step (a);
(c) transmitting the generated GARP packet to at least the connected communication terminal;
(d) allocating a new IP address to the connected communication terminal according to an IP address allocation request from the connected communication terminal. The method of claim 1,
In the step (a), it is determined whether a collision occurs with another communication terminal IP address by comparing the IP address and MAC address of the connected communication terminal with the contents of the IP address-Mac address matching table. A control method of a communication connection device. The method of claim 1,
Extracting provided gateway information when detecting a new connection of the communication terminal;
Generating a GARP packet including the extracted gateway information;
And transmitting the generated GARP packet to at least the newly connected communication terminal. The method of claim 1,
Analyzing the data packet received from the connected communication terminal and extracting gateway information provided when it is determined that the MAC address of the gateway is incorrectly set in the communication terminal;
Generating a GARP packet including the extracted gateway information;
And transmitting the generated GARP packet to at least the connected communication terminal. An address conflict determination unit that determines whether or not the IP address of the newly connected communication terminal conflicts with another communication terminal IP address;
A packet generation unit for generating a gratutous address resolution protocol (GARP) packet including the collided IP address when a collision of an IP address occurs as a result of the determination of the address collision determination unit;
A transmitter for transmitting the GARP packet generated by the packet generator to at least the connected communication terminal;
And an address allocator for allocating a new IP address to the connected communication terminal in response to an IP address allocation request from the connected communication terminal. The method of claim 5,
Further comprising a storage unit for storing the IP address-Mac address matching table of the connected communication terminal,
The address collision determination unit may compare the IP address and MAC address of the connected communication terminal with the contents of the IP address-Mac address matching table provided to determine whether a collision occurs with another communication terminal IP address. Device. The method of claim 5,
A connection detecting unit detecting a new connection of the communication terminal;
When the connection detection unit detects a new connection of the communication terminal further comprises an information extraction unit for extracting the provided gateway information,
The packet generation unit generates a GARP packet including the gateway information extracted by the information extraction unit,
And the transmission unit transmits the GARP packet generated by the packet generation unit to at least the newly connected communication terminal. The method of claim 5,
A packet analyzer which analyzes a data packet received from the connected communication terminal;
If it is determined that the MAC address for the gateway is incorrectly set in the communication terminal by using the analysis result of the packet analyzer further includes an information extraction unit for extracting the gateway information provided in advance,
The packet generation unit generates a GARP packet including the gateway information extracted by the information extraction unit,
And the transmission unit transmits the GARP packet generated by the packet generation unit to at least the connected communication terminal.

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