JP2009065617A - Lan communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a LAN communication system capable of simultaneously confirming whether both of a wired LAN interface and a wireless LAN interface of a wireless LAN access point are normally operated. <P>SOLUTION: The wireless LAN access point included in the LAN communication system causes another interface to transmit a response request signal with one of its own wired and wireless LAN interfaces made an address, via another wireless LAN access point, discriminates whether or not the relevant other interface receives a response signal from the relevant one LAN interface corresponding to the relevant response request signal, and outputs, when it is discriminated that the relevant response signal is not received, a fault occurrence notification signal representing occurrence of a fault in the relevant other wireless LAN access point. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a LAN communication system including a plurality of wireless LAN access points each having a wired LAN interface and a wireless LAN interface.

  As a method of confirming that the access point of the wireless LAN is operating normally, periodically send a PING (Packet Internet Groper) from the monitoring device connected to the wired LAN to the wired LAN interface of the access point A method for determining that the access point is operating normally if the monitoring device can receive a response from the access point is known.

For example, in Non-Patent Document 1, if a management terminal is installed in the same IP subnet on a wired LAN, a PING specifying the IP address of the access point is transmitted from the management terminal, and there is a “Reply” response. A method for confirming that the access point is operating normally is shown.
NEC Infrontia Corporation homepage http://www.necinfrontia.co.jp/products/wlan/jp/_Public/productFiles/PK-WL007/doc/SG_PK-WL007_R04.pdf "Wireless LAN access point S (PK-WL007) Startup Guide "

  However, in the case of the method disclosed in Non-Patent Document 1, it can be confirmed that the wired LAN interface of the access point is operating normally, but it cannot be confirmed whether the wireless LAN interface is operating normally. For this reason, even if there is a failure in the wireless LAN interface, there is a problem in that the above-described monitoring method assumes that there is no abnormality in the wireless LAN interface.

  The present invention has been made in view of the above-described problems, and provides a LAN communication system capable of simultaneously confirming whether or not both a wired LAN interface and a wireless LAN interface of a wireless LAN access point are operating normally. The purpose is to do.

  A LAN communication system according to the present invention includes a wired LAN interface that transmits and receives information signals via a wired LAN, and a wireless LAN interface that transmits and receives information signals using a wireless LAN function and can exchange signals with the wired LAN interface. A LAN communication system including a plurality of wireless LAN access points each including at least one of the plurality of wireless LAN access points, a wired LAN interface included in the wireless LAN access point to which the wireless LAN access point belongs, and Response request signal transmitting means for transmitting a response request signal destined for one interface of the wireless LAN interfaces from the other interface via another wireless LAN access point; and the other radio according to the response request signal LA Response signal return means for returning a response signal via an access point, and response signal reception determination for determining whether the other interface has received a response signal from the one LAN interface according to the response request signal And a notification signal output means for outputting a failure occurrence notification signal indicating a failure occurrence in the other wireless LAN access point according to a determination result that the response signal reception determination unit has not received the response signal. It is characterized by including.

  According to the LAN communication system of the present invention, the wireless LAN access point sends a response request signal addressed to one of the wired LAN interface and the wireless LAN interface included in the wireless LAN access point to which the wireless LAN access point belongs to the other interface. To send a response signal via another wireless LAN access point in response to the response request signal. Whether or not a failure has occurred can be confirmed for both the wired and wireless LAN interfaces.

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

  FIG. 1 is a block diagram showing a LAN communication system 1 according to the present invention. The LAN communication system 1 includes wireless LAN access points 100-1 to 100-n (where n is an integer of 2 or more), a monitoring device 200, and a wired LAN 300. Each of the wireless LAN access points 100-1 to 100-n is connected to the wired LAN 300 through a wired LAN interface that the wireless LAN access points 100-1 to 100-n have. Each of the wireless LAN access points 100-1 to 100-n can perform wireless LAN communication with each other by the function of the wireless LAN interface that the wireless LAN access points 100-1 to 100-n have. The monitoring device 200 is connected to the wired LAN 300 by a wired LAN interface that the monitoring device 200 has.

  At least one of the wireless LAN access points 100-1 to 100-n determines whether or not a failure has occurred in any of the wireless LAN access points 100-1 to 100-n other than itself by confirming communication of communication signals. And means for notifying the monitoring apparatus 200 of the result of the determination.

The wireless LAN access point 100-1 includes a wired LAN interface 110-1,
A wireless LAN interface 120-1 and a communication determination unit 130-1 are included. Each of the wireless LAN access points 100-2 to 100-n includes the same functional blocks as the wireless LAN access point 100-1. For example, the wireless LAN access point 100-n includes a wired LAN interface 110-n, a wireless LAN interface 120-n, and a communication determination unit 130-n (n is an integer of 2 or more).

  The wired LAN interface 110-1 has an interface function with the wired LAN 300, and can transmit and receive signals via the wired LAN 300.

  The wireless LAN interface 120-1 includes an access point wireless LAN interface 121-1, and a station wireless LAN interface 122-1.

  The access point wireless LAN interface 121-1 is connected from any of the station wireless LAN interfaces 122-2 to 122-n or from a wireless LAN communication terminal (not shown) having a normal wireless LAN function. In response to the request, wireless LAN connection with these is performed, and signals are transmitted and received.

  The station wireless LAN interface 122-1 is a wireless LAN interface as a client in an infrastructure mode defined in IEEE 802.11, which is a wireless LAN standard, in any of the access point wireless LAN interfaces 121-2 to 121-n. Connect and send and receive signals.

  The wired LAN interface 110-1 and the wireless LAN interface 120-1 can exchange signals with each other within the wireless LAN access point 100-1 as necessary. For example, when the wired LAN interface 110-1 receives a signal destined for the interface on the wireless LAN side, the wired LAN interface 110-1 gives the signal to the wireless LAN interface 120-1. In contrast, when the wireless LAN interface 120-1 receives a signal destined for the interface on the wired LAN side, the wireless LAN interface 120-1 gives the signal to the wired LAN interface 110-1.

  The station wireless LAN interface 122-1 sends a response request signal addressed to the wired LAN interface 110-1 to the access point wireless LAN interface (access point wireless LAN interface 121-2 to 121-2) that has established a wireless LAN connection. Any one of 121-n) has a response request signal transmission function. Further, the wired LAN interface 110-1 has a response signal return function for returning a response signal destined for the station wireless LAN interface 122-1, in response to the response request signal.

  The response request signal transmission function and the response signal return function are generally PING (Packet) used for confirming the connection state (communication signal communication state) between communication devices connected to each other via a wired or wireless communication network. It is realized by INternet Groper) function. PING transmits and receives signals (packets) using ICMP (Internet Control Message Protocol) defined in RFC (request for comment) 792 issued by IETF (Internet Engineering Task Force). An ICMP packet with a Type value of 8 is called an ECHO request and corresponds to a response request signal. An ICMP packet having a Type value of 0 is called an ECHO response and corresponds to a response signal. Hereinafter, the response request signal and the response signal are collectively referred to as a PING signal. The destination in the PING signal can be specified by an IP (Internet Protocol) address such as 192.168.0.1.

  When the station wireless LAN interface 122-1 transmits an ICMP packet (response request signal) with a Type value of 8 with the wired LAN interface 110-1 as the destination, the wired LAN interface 110-1 that has received the ICMP packet. Returns an ICMP packet (response signal) with a Type value of 0, with the station wireless LAN interface 122-1 as the destination. If the response request signal does not reach the wired LAN interface 110-1, a wireless LAN access point or a router (not shown) on the signal transmission / reception path sends an ICMP packet (Error) with a Type value of 3. Message) to the station wireless LAN interface 122-1.

  For example, when the wireless LAN interface for the station 122-1 has established a wireless LAN connection with the wireless LAN interface for an access point 121-2, the wireless LAN interface for a station 122-1 has an access point with a wireless LAN function. A response request signal is transmitted to the wireless LAN interface 121-2. At this time, the access point wireless LAN interface 121-2 provides a response request signal to the wired LAN interface 110-2. The wired LAN interface 110-2 transmits a response request signal to the wired LAN interface 110-1 via the wired LAN 300.

  The wired LAN interface 110-1 returns a response signal whose destination is the station wireless LAN interface 122-1, in response to the response request signal. At this time, the wired LAN interface 110-1 transmits a response signal to the wired LAN interface 110-2 via the wired LAN 300. The wired LAN interface 110-2 provides a response signal to the access point wireless LAN interface 121-2. The access point wireless LAN interface 121-2 transmits a response signal to the station wireless LAN interface 122-1, using the wireless LAN function. The station wireless LAN interface 122-1 receives the response signal by the wireless LAN function.

  As described above, the wireless LAN access point 100-1 transmits and receives the response request signal and the response signal via the wired LAN interface 110-2 and the wireless LAN interface 120-2 included in the wireless LAN access point 100-2. In other words, it is possible to confirm whether or not the wired LAN and the wireless LAN interface of the wireless LAN access point 100-2 are operating normally (whether or not a failure has occurred) by confirming communication of the communication signal. it can.

  The communication determination unit 130-1 uses the station wireless LAN interface 122-1, and sends a response request signal destined for the wired LAN interface 110-1 to the access point wireless LAN interfaces 121-2 to 121-n. Response request signal transmission means for transmitting to any of the above. In addition, the communication determination unit 104-1 is configured to connect the wired LAN interface 110- according to the response request signal until a predetermined determination time elapses after the station wireless LAN interface 122-1 transmits the response request signal. Response signal reception determining means for determining whether or not the station wireless LAN interface 122-1 has received the response signal from 1. The predetermined determination time is not particularly limited and may be set in advance in the communication determination unit 130-1.

  The communication determination unit 130-1 resends the response request signal according to the determination result that the station wireless LAN interface 122-1 has not received the response signal within the predetermined determination time by the response signal reception determination unit. It has a signal retransmission means. The response request signal retransmission unit includes a retransmission number counting unit that counts the number of retransmissions every time the response request signal is retransmitted. The communication determining unit 130-1 uses the response request signal retransmission unit to determine that the actual number of retransmissions exceeds the limit number of retransmissions even when the station wireless LAN interface 122-1 determines that the response signal has not been received within the predetermined determination time. If not, the response request signal is retransmitted. The limit number of retransmissions is not particularly limited and may be set in advance in the communication determination unit 130-1.

  The communication determination unit 130-1 determines whether the station wireless LAN interface 122-1 by the response signal reception determination unit has failed to receive a response signal within a predetermined determination time. The monitoring device 200 is notified to the monitoring device 200 via the wired LAN 300 by a failure occurrence notification signal that a failure has occurred in 100-2.

  The communication determination unit 130-1 transmits a failure occurrence notification signal by SNMP (Simple Network Management Protocol) -Trap used for failure monitoring of general network devices. SNMP is a protocol defined in RFC1157 issued by IETF. There are roughly two methods for exchanging management information by SNMP: MIB and Trap. However, since fault monitoring requires immediacy, it is better to use SNMP-Trap with asynchronous characteristics. .

  Each of the wireless LAN access points 100-2 to 100-n has the same function as the wireless LAN access point 100-1.

  The monitoring device 200 is a device for security monitoring of the LAN communication system 1, and manages the security state of each of the wireless LAN access points 100-1 to 100-n. The monitoring device 200 includes a management table that represents the operation state of each of the wireless LAN access points 100-1 to 100-n. When a failure occurrence notification signal is received via the wired LAN 300, the monitoring device 200 includes: The operating state of the wireless LAN access point that is the subject of notification is updated from the normal state to the failure state.

  FIG. 2 is a flowchart showing a communication determination processing routine by the communication determination unit 130-1. Hereinafter, a communication determination process when the wireless LAN access point 100-1 confirms whether or not a failure has occurred in the wireless LAN access point 100-2 will be described with reference to FIG. Here, it is assumed that the station wireless LAN interface 122-1 has already established a wireless LAN connection with the access point wireless LAN interface 121-2. The communication determination unit 130-1 starts a communication determination process in response to a communication determination start instruction from a control unit (not shown).

  First, the communication determining unit 130-1 causes the station wireless LAN interface 122-1 to transmit a PING signal destined for the wired LAN interface 110-1 to the access point wireless LAN interface 121-2 (step S1). S1).

  Next, the communication determining unit 130-1 receives the response PING signal from the wired LAN interface 110-1 until the predetermined determination time elapses after the station wireless LAN interface 122-1 transmits the PING signal. It is determined whether or not (S2).

  If it is determined that the wired LAN interface 110-1 has received a response PING signal, the communication determination unit 130-1 waits until a predetermined standby time elapses from the determination time (S3). The communication determination unit 130-1 confirms the presence / absence of a communication determination end instruction from a control unit (not shown) after the predetermined standby time has elapsed (S4). The communication determination unit 130-1 continues the process from step S1 if there is no monitoring end instruction, and ends the communication determination process if there is a communication determination end instruction.

  On the other hand, when it is determined that the wired LAN interface 110-1 has not received a response PING signal within a predetermined determination time, the communication determination unit 130-1 performs the following determination. That is, the communication determining unit 130-1 determines whether or not the number of retransmissions of the response request signal exceeds the limit number of retransmissions (S5).

  If the communication determination unit 130-1 determines that the actual number of retransmissions does not exceed the limit number of retransmissions, the communication determination unit 130-1 increments the number of retransmissions (S6) and continues the processing from step S1. On the other hand, when the communication determining unit 130-1 determines that the actual number of retransmissions exceeds the limit number of retransmissions, a failure occurrence notification signal indicating that a failure has occurred in the wireless LAN access point 100-2 to be monitored. To the monitoring device 200 via the wired LAN 300 (S7).

  After the notification, the communication determination unit 130-1 waits until a predetermined waiting time elapses (S3). The communication determination unit 130-1 continues the processing from step S1 if there is no communication determination end instruction from a control unit (not shown) after the predetermined standby time has elapsed, and performs communication determination processing if there is a communication determination end instruction. finish.

  FIG. 3 is a diagram illustrating a transmission / reception path of a PING signal in the above-described communication determination process. The dotted line in the figure represents the PING signal transmission path SD. The PING signal transmitted by the station wireless LAN interface 122-1 passes through the access point wireless LAN interface 121-2 and the wired LAN interface 110-2 included in the wireless LAN access point 100-2 in this order, and the wired LAN. It is received by the interface 110-1. The alternate long and short dash line in the figure represents the return path RP of the PING signal. The PING signal returned by the wired LAN interface 110-1 passes through the wired LAN interface 110-2 and the access point wireless LAN interface 121-2 included in the wireless LAN access point 100-2 in order, and then the station wireless LAN. It is received by the interface 122-1.

  As described above, the wireless LAN access point 100-1 according to the present embodiment establishes a connection with the wireless LAN access point 100-2 to be monitored by the wireless LAN function, and from its own wireless LAN interface 120-1, A PING signal destined for the wired LAN interface 110-1 is transmitted to the wireless LAN access point 100-2.

  When the wired LAN interface 110-1 receives the PING signal via the wireless LAN access point 100-2, the wired LAN interface 110-1 returns a PING signal destined for the wireless LAN interface 120-1. Further, the wireless LAN access point 100-1 determines whether or not the wireless LAN interface 120-1 has received the PING signal returned from the wired LAN interface 110-1 via the wireless LAN access point 100-2. .

  As described above, since the transmission and return of the PING signal is made via the wireless LAN access point 100-2 to be monitored, the wireless LAN access point 100-1 transmits and receives the wireless LAN by transmitting and receiving the PING signal. Whether or not a failure has occurred in the access point 100-2 can be determined. If there is a failure in the wired or wireless interface of the wireless LAN access point 100-2, the wireless LAN access point 100-1 cannot receive a reply PING signal, and this causes the wireless LAN access point 100-2 to It can be determined that a failure has occurred.

  In particular, since the wireless LAN access point according to the present embodiment transmits and receives a PING signal between the wired LAN interface and the wireless LAN interface, both the wired and wireless LAN interface of the wireless LAN access point to be monitored by a single PING signal transmission and reception. The presence or absence of failure can be confirmed.

  In the present embodiment, the case where the wireless LAN access point 100-1 confirms whether or not a failure has occurred in the wireless LAN access point 100-2 has been described, but each of the wireless LAN access points 100-2 to 100-n also Whether or not a failure has occurred in any of the wireless LAN access points 100-1 to 100-n other than itself can be confirmed by the same processing.

  In this embodiment, the station wireless LAN interface 122-1 transmits a PING signal, and the wired LAN interface 110-1 sequentially passes through the access point wireless LAN interface 121-2 and the wired LAN interface 110-2. Although the case of receiving the PING signal has been described, the same effect can be obtained even if the PING signal is transmitted / received through the reverse path.

  That is, the wired LAN interface 110-1 transmits a PING signal, and the station wireless LAN interface 122-1 sequentially transmits the PING signal via the wired LAN interface 110-2 and the access point wireless LAN interface 121-2. You may make it receive. In this case, the wired LAN interface 110-1 transmits a PING signal destined for the station wireless LAN interface 122-1 to the wired LAN interface 110-2.

  FIG. 4 is a diagram illustrating another transmission / reception path of the PING signal. The dotted line in the figure represents the transmission path SD when the above-described wired LAN interface 110-1 first transmits a PING signal. The alternate long and short dash line in the figure represents the return path RP of the PING signal in this case. The PING signal returned by the station wireless LAN interface 122-1 passes through the access point wireless LAN interface 121-2 and the wired LAN interface 110-2 included in the wireless LAN access point 100-2 in this order, and the wired LAN. It is received by the interface 110-1.

It is a block diagram showing a LAN communication system. It is a flowchart showing a communication determination processing routine. It is a figure showing the transmission / reception path | route of a PING signal. It is a figure showing another transmission / reception path | route of a PING signal.

Explanation of symbols

1 LAN communication system 100-1 to 100-n Wireless LAN access point 110-1 to 110-n Wired LAN I / F (interface)
120-1 to 120-n Wireless LAN I / F (interface)
121-1 to 121-n Wireless LAN I / F (interface) for access points
122-1 to 122-n Station wireless LAN I / F (interface)
130-1 to 130-n Communication determination unit 200 Monitoring device 300 Wired LAN

Claims (5)

A plurality of each including a wired LAN interface that transmits and receives information signals via a wired LAN, and a wireless LAN interface that transmits and receives information signals using a wireless LAN function and that is capable of transmitting and receiving signals to and from the wired LAN interface. A LAN communication system including a wireless LAN access point,
At least one of the plurality of wireless LAN access points is:
Response request signal transmission for transmitting a response request signal destined for one of the wired LAN interface and the wireless LAN interface included in the wireless LAN access point to which the device belongs to from the other interface via the other wireless LAN access point Means,
Response signal return means for returning a response signal via the other wireless LAN access point in response to the response request signal;
Response signal reception determining means for determining whether or not the other interface has received a response signal from the one LAN interface according to the response request signal;
Notification signal output means for outputting a failure occurrence notification signal indicating a failure occurrence at the other wireless LAN access point according to a determination result that the response signal reception determination means has not received the response signal. A featured LAN communication system.   2. The wireless LAN access point includes response request signal retransmission means for retransmitting the response request signal in accordance with a determination result that the response signal reception determination means has not received the response signal. The LAN communication system according to 1.   The response request signal retransmission unit includes a retransmission number counting unit that counts the number of retransmissions of the response request signal, and retransmits the response request signal only when the number of retransmissions is equal to or less than a limit number of retransmissions. The LAN communication system according to claim 2.   The LAN communication system according to claim 1, wherein the response request signal and the response signal are PING signals.   The LAN communication system according to claim 1, wherein the failure occurrence notification signal is an SNMP-Trap signal.

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