JP2003218869A - Communication system and newly participating communication device detection method used therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication system which can immediately detect a newly participating communication device when it is connected, without adding a function to the communication device itself. <P>SOLUTION: An information management device 11 in a communication device group 1 which already exists holds or updates information for communicating, and a notifying device 12 notifies configuration information of a network 100 which issues packets used for assistance of an address setting of a communication device 2 which newly participates in the network 100. An address setting portion 21 of the communication device 2 which newly participates in the network 100 realizes the address setting. A packet monitoring portion 31 of a packet monitoring device 3 monitors packets flowing through the connected network 100, and a packet detecting portion 32 detects a target packet among the monitored packets. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system and a method for detecting a newly joining communication device used therein, and more particularly to a method for detecting a newly joining communication device in a network.

[0002]

2. Description of the Related Art Conventionally, in a network, when a communication device that performs communication for the first time is connected to the network, information for communication with the communication device is not set at all.

Therefore, by the time actual communication is started, various kinds of information for communication are managed not only for communication devices newly joining the network but also for managing configuration information of the existing network. It is necessary to set it in the device.

[0004]

In the above-mentioned conventional network, very troublesome work is required to set information necessary for communication in each device, and such work is automatically performed. Is required to do so. In fact, automatic setting of such information is not easy,
The current situation is that manual settings are complicated.

Moreover, there is a demand to make the setting efficiently and immediately when a newly participating communication device connects to the network. However, under the present circumstances, it is not easy to immediately detect that a communication device has newly joined the network.

[0006] Further, it is inevitable that a communication device that newly joins the network is additionally equipped with a new function for automatically performing the information setting.

Communication devices that newly join the network are devices having various implementations, and it is difficult to create new functions in accordance with those implementations and to additionally implement them, and in general, those The administrator of the device will not easily allow the addition of a new function to the communication device, and even if the device administrator permits it, the time and effort will be enormous. That is, in order to realize this function, it is expected that it can be performed without adding any function to the communication device itself that newly joins the network.

Therefore, an object of the present invention is to solve the above-mentioned problems, and to immediately detect the connection of a newly joining communication device without adding a function to the communication device itself. Another object of the present invention is to provide a method for detecting a newly participating communication device used therein.

[0009]

In a communication system according to the present invention, an address duplication detection packet for verifying whether or not an address to be used exists on the network when a communication device newly connects to the network. And a packet monitoring device for monitoring the packets on the network, and a detecting means for detecting the address duplication detecting packet from the packets monitored by the monitoring means. Is equipped with.

According to the method of detecting a newly joining communication device according to the present invention, when a communication device newly connects to a network, a packet for detecting an address duplication for verifying whether or not an address to be used exists on the network. A method of detecting a newly joining communication device in a communication system for transmitting, comprising: a packet monitoring device that monitors a packet on the network, detecting the address duplication detection packet from the monitored packets. ing.

That is, the network of the present invention allows a communication device having various implementations to dynamically participate in the network without adding any function to the communication device itself. It is intended to provide a system for immediately detecting new participation.

The first step for a communication device newly joining the network to start communication is to create an address, confirm that the created address is not duplicated on the network, and It is to set in the device. In this address setting procedure, a packet for confirming (detecting) duplication of the address created by itself from the communication device newly joining the network to the network (hereinafter, the address duplication detection Packet).

Therefore, a packet monitoring device for monitoring the above-mentioned packet for detecting the address duplication is installed in advance on the network, and the packet for detecting the address duplication sent from the communication device newly joining the network is installed. Also, the packet monitoring device detects the presence or absence of a response packet to the packet within a predetermined time, so that it is possible to immediately detect that a new communication device has joined the network.

The packet for detecting the address duplication to be detected is sent out in the first procedure for the communication device newly joining the network to start communication. The detection of participation in the network will be performed immediately.

The packet for detecting the address duplication occurs only once when the communication device connects to the network and starts communication for the first time. This is different from the original purpose,
This is a packet having characteristics suitable for the purpose of detecting a communication device newly joined to the network, and the method of detecting the communication device newly joined to the network by monitoring the packet for detecting the address duplication is the system. As a result, it is an optimal system with no excess or deficiency.

Further, after it is detected that the communication device has joined the network, it is necessary to set the address information of the detected communication device in various devices to prepare the communication environment, and the new communication device becomes the network. It is necessary to obtain the address information of the detected communication device as well as to detect that it has joined the network, but for the packet for address duplication detection that is detected by the packet monitoring device, it newly joins the network. The address information of the communication device is included, and the address information of the detected communication device can be acquired at the same time.

As described above, in the present invention, a packet monitoring device is introduced, and a packet for address duplication detection issued in a first address setting procedure performed by a communication device newly joining the network is detected. By detecting the presence / absence of a response packet to the packet within a predetermined time, it is possible to confirm that the communication device newly joins the network without adding a function to the communication device itself newly joining the network. It becomes possible to detect immediately.

[0018]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of a communication system according to an embodiment of the present invention. In FIG. 1, a communication system according to an embodiment of the present invention includes an existing communication device group 1 that manages configuration information of the network 100, a communication device 2 that newly joins the network 100, and a communication device group 1. And a packet monitoring device 3 that monitors packets sent from the communication device 2 to the network 100 to detect target packets, and a network 100 that connects these devices.

The existing communication device group 1 is a network used for assisting the address setting of the information management device 11 that stores and updates information for communication and the communication device 2 that newly joins the network 100. The notification device 12 notifies 100 pieces of configuration information. The communication device 2 that newly joins the network 100 includes an address setting unit 21 that realizes address setting.

The packet monitoring device 3 is a packet monitoring unit 3 for monitoring packets flowing through the connected network 100.
1 and a packet detection unit 32 that detects a target packet from the monitored packets.

FIG. 2 is a sequence chart showing the operation at the time of successful address setting in the communication system according to the embodiment of the present invention. With reference to FIGS. 1 and 2, the operation of the communication device 2 newly joining the network 100 when the address setting is successful in the communication system according to the embodiment of the present invention will be described.

First, in order to perform communication, the communication device 2 is connected to the network 100 by physically connecting a cable (not shown) or the like and turning on the power of the device.
(Step S1 in FIG. 2).

Next, as the first procedure performed by the communication device 2, the address is set by the address setting unit 21 (steps S2 to S7 in FIG. 2). As a method for automatically performing this address setting, IETF (Inte
rnet Engineering Task For
ce) by RFC (Request For Co)
Mments) 2462.

The address setting procedure is performed by the network 1
This is performed by receiving in the communication device 2 a packet issued from the notification device 12 in the existing communication device group 1 that manages the configuration information and the like of 00 and notifying the configuration information of the network 100 (step S3 in FIG. 2). , S4).

Since the packet for notifying the configuration information is flown on the network 100 at a constant interval, the communication device 2 can receive the packet for notifying the configuration information after waiting for the constant interval.

When it is desired to receive the packet notifying the configuration information without waiting for the time, the communication device 2 optionally issues a packet requesting the immediate issuance of the packet notifying the configuration information. By,
The notification device 12 can be caused to issue a packet notifying the configuration information of the network 100, and the communication device 2 can receive the packet notifying the configuration information (step S2 in FIG. 2).
~ S4).

Information obtained from the packet notifying the received configuration information (identification information for identifying the network 100, etc.) is combined with the identification information of the communication device 2 to be a candidate for an address used by the communication device 2 ( Figure 2 Step S
3, S4).

It is confirmed that this candidate address is not a duplicate address that is already used by another communication device. This method is performed by IETF R
"Neighborhood search" published as FC2461 is used. First, a packet for confirming that the address is not a duplicate address used in another communication device (hereinafter referred to as an address duplication detection packet) is issued from the communication device 2 to the network 100 by multicast. To be done. The address duplication detection packet includes candidate address information (step S5 in FIG. 2).

If another communication device already connected to the network 100 has already used the above candidate address, when another communication device receives a packet for address duplication detection, In response to this address duplication detection packet, a response packet indicating that the candidate address is already used and duplicated and cannot be used by the communication device 2 is sent by multicast (step in FIG. 2). S5, S6).

In the case where the candidate addresses are duplicated as described above, the response packet indicating the duplication is fixed after the address duplication detection packet for verifying that the candidate addresses are available is sent. Always delivered in time.

When the candidate addresses are not duplicated, a response packet indicating duplication is not sent to the network 100. Therefore, by confirming that a response packet indicating duplication is not transmitted at all even after waiting for a certain period of time after a packet for address duplication detection for verifying that the candidate address is available is transmitted, The candidate address becomes an address that can be used by the communication device 2 (steps S5 and S6 in FIG. 2).

The packet monitoring device 3 sends an address duplication detection packet for verifying whether or not the candidate addresses are duplicated, which flows to the connected network 100, and a response packet indicating duplication within a fixed time. I am watching for a flow.

By monitoring these packets, the packet monitoring device 3 can grasp a series of address setting procedures of the communication device 2 and its state without adding a new function to the communication device 2.

When the packet monitoring device 3 detects a packet for detecting address duplication for verifying whether the candidate addresses do not overlap, and then cannot wait for a fixed time to detect a response packet indicating duplication, The packet monitoring device 3 can confirm that the address of the communication device 2 has been set correctly, and at the same time, the network 10
It is detected that a new communication device 2 has joined 0 (FIG. 2).
Step S7).

Information of the candidate address is included in the packet for detecting the address duplication for verifying whether or not the candidate address is duplicated. By this detection processing, the packet monitoring device 3 newly communicates with the network 100. Not only the fact that the device 2 has joined can be detected, but also the address information used by the new communication device 2 can be acquired.

Whether or not the address information acquired by the packet monitoring device 3 belongs to a valid address space can be checked. If the acquired address information is information belonging to an incorrect address space, it can be processed as if the new communication device 2 joining the network 100 was not detected.

As described above, in the present embodiment, the packet monitoring device receives the packet for detecting the address duplication and the response packet indicating the duplication in response to the first procedure performed by the communication device 2 newly joining the network 100. The new communication device 2 connected to the network 100 is immediately detected when the communication device 2 is connected to the network 100 by monitoring by 3 and detecting that the new communication device 2 has joined the network 100. be able to.

Further, in this embodiment, the network 100
A packet monitoring device external to the communication device 2 includes a packet for address duplication detection that occurs with a procedure performed by a communication device 2 that newly joins the communication and a response packet that indicates duplication to the packet. 3 by monitoring the communication device 2
Since it is possible to detect that 0 has newly joined,
The communication device 2 newly joining the network 100 can detect that the communication device 2 newly joins the network 100 without adding a function to the communication device 2 itself.

Further, in this embodiment, the packet for address duplication detection which is generated in accordance with the procedure performed by the communication device 2 newly joining the network 100 to be monitored by using the packet monitoring device 3 for starting communication is described. Since the address information used by the communication device 2 is included, not only is it detected that a new communication device 2 has joined the network 100, but the address information used by the communication device 2 is also acquired at the same time. be able to.

Furthermore, in the present embodiment, the communication device 2 newly joining the network 100 responds to the packet for the address duplication detection and the duplication to the packet for the procedure which is performed only once when the communication is started. By monitoring the packet and the packet monitoring device 3, a new communication device 2 connected to the network 100 can be detected.

In this case, in the present embodiment, a packet for detecting an address duplication that occurs with a procedure performed by a communication device 2 that newly joins the network 100 to be monitored using the packet monitoring device 3 for starting communication. Contains the address information used by the new communication device 2,
Since it is possible to verify whether or not the address information belongs to an incorrect address space, in the case of the communication device 2 which sets an address in an invalid address space and starts communication, a new communication is made to the network 100. Device 2
Can be treated as if it did not detect that it has joined.

FIG. 3 is a sequence chart showing the operation when the address setting fails in the communication system according to the embodiment of the present invention. Referring to FIGS. 1 and 3, in the communication system according to the embodiment of the present invention, the operation when the address setting of the communication device 2 newly joining the network 100 fails, that is, the newly added communication device 2 is generated. The operation will be described in the case where the created address already exists on the network 100 and is duplicated.

First, in order to perform communication, processing such as physically connecting a cable or turning on the power of the device is performed, and the communication device 2 newly joining the network 100 is connected to the network 100.

Next, as the first procedure performed by the communication device 2, the address setting section 21 sets an address. The address setting procedure is performed by the communication device 2 receiving a packet issued from the notification device 12 in the existing communication device group 1 and notifying the configuration information of the network 100.

Since the packet for notifying the configuration information is sent on the network 100 at a constant interval, the communication device 2 can receive the packet for notifying the configuration information after waiting for the fixed interval.

When it is desired to receive the packet notifying the configuration information without waiting for the time, the communication device 2 issues a packet requesting the immediate issuance of the packet notifying the configuration information as an optional method. By,
The notification device 12 can be caused to issue a packet notifying the configuration information of the network 100, and the communication device 2 can receive the packet notifying the configuration information.

Information (identification information or the like for identifying the network 100) obtained from the received packet notifying the configuration information is combined with the identification information of the communication device 2 to become a candidate for the address used by the communication device 2. .

A packet for address duplication detection for confirming that the candidate address is not a duplicate address already used by another communication device and verifying that it is an available address is generated. , Is issued from the communication device 2 to the network 100 by multicast.
The address duplication detection packet for this verification includes candidate address information.

If another communication device already connected to the network has already used this candidate address, when the other communication device receives the packet for detecting the address duplication, this In response to the address duplication detection packet, a response packet indicating that the candidate address is already used and duplicated and cannot be used by the communication device 2 is sent by multicast (step S8 in FIG. 3). ).

In the case where the candidate addresses are duplicated as described above, the response packet indicating the duplication is fixed after the address duplication detection packet for verifying that the candidate addresses are available is transmitted. Always delivered in time.

When the packet monitoring device 3 receives a response packet indicating duplication within a fixed time, it is detected that the newly added communication device 2 could not be registered using the address (FIG. 3 steps S9, S1
0).

FIG. 4 is a sequence chart showing the operation of the communication system according to another embodiment of the present invention. A communication system according to another embodiment of the present invention has the same configuration as the communication system according to the embodiment of the present invention shown in FIG. In this embodiment, in one embodiment of the present invention, an IP (Internet Protocol) is used for some reason.
l) A case where the address is not desired to be used by the newly added communication device 2 will be described.

In this case, the configuration of each device is the same as that of the embodiment of the present invention, but the packet monitoring device 3 intentionally sends the packet indicating the address duplication to the packet transmitting unit 33 (not shown). including.

First, in order to perform communication, processing such as physically connecting a cable and turning on the power of the device is performed, and the communication device 2 newly joining the network 100 is connected to the network 100.

Next, as the first procedure performed by the communication device 2, the address acquisition setting unit 21 in the communication device 2 sets the address. This address setting procedure is similar to that of the above-described embodiment of the present invention. Information obtained from the packet notifying the received configuration information (network 1
(For example, the identification information identifying 00) is combined with the identification information of the communication device 2 to be a candidate for the address used by the communication device 2.

A packet for address duplication detection for confirming that the candidate address is not a duplicate address already used by another communication device and verifying that it is an available address is generated. , Is issued from the communication device 2 to the network 100 by multicast.
The address duplication detection packet for this verification includes candidate address information.

If the administrator of the network 100 does not want to use the address issued by the communication device 2 for some reason, the candidate address is used as in the case where the candidate addresses are duplicated. After receiving the packet for address duplication detection for verifying that it is possible, a packet indicating duplication is transmitted from the packet transmission unit 33 within a fixed time (steps S11 and S12 in FIG. 4).
By transmitting the packet indicating duplication, the communication device 2 recognizes that the candidate addresses are duplicated (step S13 in FIG. 4).

Therefore, the communication device 2 cannot use the candidate address, selects another candidate address again, and again detects the duplication as described above for the new candidate address. Note that the packet monitoring device 3 can perform processing as if it did not detect that a new communication device 2 has joined the network 100 by sending out a packet indicating duplication.

[0059]

As described above, according to the present invention, in a communication system in which a communication device sends a packet for address duplication detection when a new connection is made to the network, a packet monitoring device for monitoring a packet on the network monitors the packet. By detecting the packet for detecting the address duplication from the packets to be added, it is possible to immediately detect that the communication device is connected without adding a function to the newly participating communication device itself. To be

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a communication system according to an exemplary embodiment of the present invention.

FIG. 2 is a sequence chart showing an operation when address setting is successful in the communication system according to the exemplary embodiment of the present invention.

FIG. 3 is a sequence chart showing an operation when an address setting fails in the communication system according to the exemplary embodiment of the present invention.

FIG. 4 is a sequence chart showing an operation of a communication system according to another embodiment of the present invention.

[Explanation of symbols]

1 Existing communication device group 2 Communication devices that newly join the network 3 Packet monitoring device 11 Information management device 12 Notification device 21 Address setting section 31 Packet monitoring unit 32 packet detector 100 networks

   ─────────────────────────────────────────────────── ─── Continued front page    F-term (reference) 5K030 GA12 GA14 HA08 HB08 HD09                       JA10 MA06 MC03 MD09                 5K033 AA05 BA08 CB15 DB20 EA06                       EC02 EC03

Claims (10)

[Claims] 1. A communication system for transmitting a packet for address duplication detection for verifying whether or not an address to be used exists on the network when the communication device newly connects to the network. A communication system comprising: a packet monitoring device including a monitoring unit that monitors the above packet, and a detection unit that detects the address duplication detection packet from the packets monitored by the monitoring unit. 2. The packet monitoring device, in the detecting means, sends a response packet indicating the duplication of the address to the packet within a preset period of time after the packet for detecting the address duplication is transmitted. The communication system according to claim 1, wherein when it is not detected, it is detected that a new communication device is connected to the network. 3. The packet monitoring device performs processing so as not to detect that a new communication device is connected to the network in the case of a communication device which sets an address in an invalid address space and starts communication. The communication system according to claim 2, wherein 4. The packet for detecting address duplication comprises:
The communication system according to claim 2 or 3, further comprising address information used by a communication device that has newly joined the network. 5. The packet monitoring device includes means for transmitting a packet indicating address duplication when the address information indicates a preset address, and the packet monitoring device transmits the packet indicating address duplication. The communication system according to claim 4, wherein processing is performed so as not to detect that a new communication device is connected to the network. 6. A communication device newly joining in a communication system, which transmits a packet for address duplication detection for verifying whether or not an address to be used exists on the network when the communication device newly connects to the network. A detection method, comprising: a packet monitoring device that monitors a packet on the network, the step of detecting the address duplication detection packet from the monitored packets. Detection method. 7. The packet monitoring device, when a response packet indicating the duplication of the address is not detected for the packet within the predetermined time set after the packet for detecting the address duplication is transmitted, 7. The method of detecting a newly participating communication device according to claim 6, further comprising detecting that a new communication device is connected to the network. 8. The packet monitoring device performs processing so as not to detect that a new communication device has been connected to the network in the case of a communication device that sets an address in an invalid address space and starts communication. The method for detecting a newly joining communication device according to claim 7, wherein: 9. The address duplication detection packet comprises:
9. The method for detecting a newly joining communication device according to claim 7, further comprising address information used by the newly connected communication device. 10. The packet monitoring apparatus includes a step of transmitting a packet indicating an address duplication when the address information indicates a preset address, and the packet monitoring apparatus transmits the packet indicating the address duplication. 10. The method of detecting a newly participating communication device according to claim 9, wherein the process is performed so as not to detect that a new communication device is connected to the network.