JP4221919B2 - Method for specifying location of LAN configuration device and search device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method and a search device for identifying an installation location of a LAN configuration device based on a MAC address assigned to a device (hereinafter referred to as a LAN configuration device) in a LAN (Local Area Network). About.
With the progress of network technology in recent years, the scale of a LAN has increased, and the number of LAN constituent devices and terminal devices accommodated in the LAN constituent devices has also increased. When a failure occurs in such a network environment, it is possible to easily determine the MAC address of the terminal device in which the failure has occurred by checking transmitted and received IP packets.
[0002]
However, in a large-scale LAN, even if the MAC address of a terminal device in which a failure has occurred is determined, it is difficult to determine where the terminal device is installed, and it takes a long time to recover from the failure. It will take.
In such a LAN, there is a need for a method for identifying the location of a LAN component device and a search device that can easily identify the location of the failed terminal device from the MAC address of the failed terminal device.
[0003]
[Prior art]
FIG. 14 is a diagram for explaining the system configuration of the prior art.
In FIG. 14, reference numeral 400 denotes a bridge device as a LAN component device that transfers a packet to an address specified by the header of the packet. 410, 411, 412, 420, and 421 denote the packet header. It is a hub device as a LAN configuration device that transfers to the transfer destination of the address specified in. Reference numerals 300 and 310 denote terminal devices connected to the hub devices 412 and 421.
[0004]
The bridge device 400 includes an IP processing unit 10A and a MAC address learning table (shown as a learning table in the figure) T11. The hub devices 410, 411, 412, 420, and 421 are IP processing 10A and a MAC address learning table T11. IP of bridge device 400 processing 10A and the IP of the hub devices 410 to 421 processing The unit 10A has an IP packet transmission / reception function. In FIG. 14, there is one network, but the bridge device 400 can connect a plurality of networks.
[0005]
Here, the MAC address learning table T11 corresponds to the reception port of the bridge device 400 and the hub device 4ij (i, j = arbitrary number) as the transmission source MAC address of the received IP packet when the layer 2 IP packet is received. It is a table to be registered in.
In FIG. 14, when the terminal device 300 and the terminal device 310 communicate with each other, a path that passes through a LAN configuration device (hereinafter, the bridge device 400 and the hub device 4ij are collectively referred to as a LAN configuration device) constituting the LAN is ⇒ Hub device 412 ⇒ Hub device 410 ⇒ Bridge device 400 ⇒ Hub device 420 ⇒ Hub device 421 ⇒ Terminal device 310
[0006]
At this time, the MAC address learning table T11 of the hub device 412, the hub device 410, the bridge device 400, the hub device 420, and the hub device 421 that passed through all received the MAC address of the terminal device 300 and the packet from the terminal device 300. The port number is registered.
Here, when a failure occurs in the terminal device 300, in order to specify the installation location of the terminal device 300, Telnet (based on the LAN configuration device information such as the MAC addresses of the bridge device 400 and the hub devices 410 to 421) A MAC address learning table specific to each LAN component device vendor by performing remote login to each LAN component device from the management terminal 500 via a virtual terminal protocol) that logs in to another computer from a remote location and performs remote operation. A display command for displaying T11 is input, the MAC address learning table T11 is displayed, and the display is manually analyzed to specify the installation location of the LAN component device.
[0007]
[Problems to be solved by the invention]
In the prior art described with reference to FIG. 14, for example, since the IP address is manually set in each LAN component device, the IP address may be set by mistake. When a LAN constituent device with a duplicate IP address is a server, communication with this server becomes impossible.
[0008]
However, since the LAN used in each company is becoming larger and the business management environment is becoming more severe, organizational changes and personnel movement within the company are frequently performed. The arrangement of components is also frequently changed. However, there are few companies that manage a LAN by constructing a LAN management database including the arrangement of LAN configuration devices including terminal devices.
[0009]
In such a LAN, when a failure occurs in the LAN component device and its MAC address is determined, it is necessary to identify the installation location of the LAN component device where the failure occurred from the MAC address and take action.
However, in general, the LAN configuration device information is often not managed to the connection destination port and the MAC address, so it is long and expensive to specify the installation location of the LAN configuration device from the MAC address. Time is needed.
[0010]
According to the present invention, when a failure occurs in a LAN configuration device, the installation location of the LAN configuration device can be easily identified from the MAC address of the LAN configuration device in which the failure has occurred. It is an object to provide a method and a search device.
[0011]
[Means for Solving the Problems]
1st invention is the identification method of the installation place of the LAN component apparatus provided with the MAC address,
The search device that identifies the installation location of the LAN component device from the MAC address generates an IP address list table from the input segment number and the IP address of the LAN component device,
The IP packet is sequentially transmitted to all the LAN component devices registered in the IP address list table, and the LAN component device that normally returned a response to the IP packet is extracted,
Instructing the LAN component device that has returned a response normally to store the port number and MAC address in the MAC address learning table as the extended MIB information in the extended MIB MAC address learning table,
The extended MIB MAC address learning table Stored in LAN configuration apparatus of Collecting the extended MIB information, generating a MAC address learning list table of LAN constituent devices in the network,
LAN configuration apparatus having a designated MAC address by searching the MAC address learning list table Detect which device port number is connected to This is a method of specifying the installation location of the LAN component device.
[0012]
According to the first aspect of the invention, for example, when a failure occurs in a LAN constituent device that constitutes a LAN and the installation location of the LAN constituent device is specified from the MAC address, first, the IP address list table from the segment number and the IP address Is generated. When a MAC address search command is input from the search device, when the search device determines that the input command is a MAC address search command, it sequentially transmits IP packets to all LAN configuration devices registered in the IP address list table. Then, the LAN constituent device whose IP packet response is normal is specified.
[0013]
Next, the LAN component apparatus that has normally responded to the IP packet is instructed to store the information in the MAC address learning table in the extended MIB MAC address learning table, and receives the result. Here, since the information in the MAC address learning table is stored in the extended MIB MAC address learning table of each LAN component device, the search device collects information of the extended MIB MAC address learning table from each LAN component device. Then, a MAC address learning list table is generated.
[0014]
In the MAC address learning list table, the MAC addresses and port numbers of all the LAN constituent devices in the LAN are written.
This MAC address learning list table is searched, the connection state for each port number of each LAN component device is determined, and the installation location of the LAN component device having the designated MAC address is specified.
[0015]
The second invention is a method of specifying the installation location of a LAN component device to which a MAC address is assigned,
A LAN in which a search device that identifies an installation location of a LAN component device from a MAC address transmits an IP packet by broadcast to all LAN component devices within the input segment number, and normally returns a response to the IP packet. An IP address list table is automatically generated from the component device,
The IP packet is sequentially transmitted to all the LAN component devices registered in the IP address list table, and the LAN component device that normally returned a response to the IP packet is extracted,
Instructing the LAN component device that has returned a response normally to store the port number and MAC address in the MAC address learning table as the extended MIB information in the extended MIB MAC address learning table,
The extended MIB MAC address learning table Stored in LAN configuration apparatus of The extended MI B information Information, and generate a MAC address learning list table of LAN configuration devices in the network,
LAN configuration apparatus having a designated MAC address by searching the MAC address learning list table Detect which device port number is connected to This is a method of specifying the installation location of the LAN component device.
[0016]
According to the second aspect of the invention, for example, when a failure occurs in a LAN component device that constitutes a LAN and the installation location of the LAN component device is specified from the MAC address, a MAC address search command is input from the search device. When the search device determines that the input command is a MAC address search command, the search device broadcasts an IP packet to all LAN constituent devices in the specified segment, and returns a response to the IP packet normally. An IP address list table is automatically generated from the component device.
[0017]
Next, IP packets are sequentially transmitted to all the LAN constituent devices registered in the IP address list table, and the LAN constituent devices whose IP packet responses are normal are specified.
Next, the LAN component apparatus that has normally responded to the IP packet is instructed to store the information in the MAC address learning table in the extended MIB MAC address learning table, and receives the result. Here, since the information in the MAC address learning table is stored in the extended MIB MAC address learning table of each LAN component device, the search device collects information of the extended MIB MAC address learning table from each LAN component device. Then, a MAC address learning list table is generated.
[0018]
In the MAC address learning list table, the MAC addresses and port numbers of all the LAN constituent devices in the LAN are written.
This MAC address learning list table is searched, the connection state for each port number of each LAN component device is determined, and the installation location of the LAN component device having the designated MAC address is specified.
[0019]
A third aspect of the invention is a search device for specifying the installation location of a LAN configuration device assigned a MAC address,
A command receiving unit for analyzing the input command; an IP address list table generating unit for generating an IP address list table from the segment number input via the command receiving unit and the IP address of the LAN component device;
The MAC address for instructing the LAN configuration apparatus registered in the IP address list table to store the port number and MAC address in the MAC address learning table in the extended MIB MAC address learning table as the extended MIB information and collecting the storage result A pre-learning table collection processing unit;
A MAC address learning table collection processing unit that collects information of the extended MIB MAC address learning table of the LAN component device that has normally returned a response, and generates a MAC address learning list table;
LAN configuration apparatus having a designated MAC address by searching the MAC address learning list table Detect which device port number is connected to And a MAC address search processing unit.
[0020]
According to the third invention, the search device comprises:
The command received by the command receiving unit is analyzed, and if the input command is an IP address list table generation command, the IP address list table generation unit is activated, and the IP address from the segment number and the IP address input at the same time Generate the list table manually. Next, the MAC address learning table pre-collection processing unit instructs the LAN configuration apparatus stored in the IP address list table to store the information in the MAC address learning table in the extended MIB MAC address learning table. Receive. The MAC address learning table collection processing unit collects information of the extended MIB MAC address learning table from the LAN configuration apparatus that has been able to store the MAC address learning table in the extended MIB MAC address learning table, and generates a MAC address learning list table.
[0021]
Since this MAC address learning list table stores all LAN constituent devices in the LAN, their MAC addresses, and the MAC addresses of the LAN constituent devices accommodated for each port number, the MAC address search processing unit By searching the MAC address learning list table, it is possible to specify the installation location of the LAN component apparatus having the designated MAC address.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a diagram for explaining the system configuration of the present invention.
In FIG. 1, reference numeral 100 denotes a bridge device as a LAN configuration device that transfers a packet to a transfer destination of an address specified by a header in the packet, and 110, 111, 112, 120, and 121 denote packets. It is a hub device as a LAN component device that transfers to the transfer destination of the address specified by the header. In FIG. 1, there is one network, but the bridge device 400 can connect a plurality of networks. Reference numerals 300 and 310 denote terminal devices connected to the hub devices 112 and 121.
[0023]
The bridge device 100 and the hub devices 110, 111, 112, 120, and 121 include an IP processing unit 10A, a MAC address learning table T11, and an extended MIB MAC address learning table (indicated as an extended MBT in the figure) T12. The IP processing unit 10A and the MAC address learning table T11 of the bridge device 100 and the hub devices 110 to 121 are the same as those described in the related art of FIG.
[0024]
In the present invention, the extended MIB MAC address learning table T12 is provided in each LAN component device. In the present invention, by using the extended MIB, it is possible to collect the extended MIB MAC address learning table T12 from each LAN component device by the same process even in a multi-vendor environment. In FIG. 1, when the terminal device 300 and the terminal device 310 communicate with each other, the path passing through the LAN constituent devices constituting the LAN is as follows: the terminal device 300 → the hub device 112 → the hub device 110 → the bridge device 100 → the hub device 120 → The operation of registering the MAC address of the terminal device 300 and the port number receiving the packet from the terminal device 300 in all the MAC address learning tables T11 of the LAN device via which the hub device 121 is the terminal device 310 is shown in FIG. This is the same as the 14 prior art. (In FIG. 1, the MAC address of the terminal device 300 is “a” and the MAC address “a” is written in correspondence with the received port number.)
In this state, ICMP (Internet Control Message Protocol, a protocol for performing error notification and communication status diagnosis) Ping request (TCP / IP network) to all LAN components registered in the IP address list table from the search terminal 200 In step (1), a command for checking whether or not the IP packet has reached the destination is transmitted. The LAN component apparatus that has received the Ping request returns a Ping response to the Ping request to the search terminal 200.
[0025]
Also during the transmission / reception of the Ping, the MAC address of the LAN component device that has transmitted the Ping request in correspondence with the port, here, the search terminal 200 is registered in the port that has received the Ping request. (In FIG. 1, the MAC address of the search device 200 is “b”, and the MAC address “b” is written in correspondence with the received port number.)
The search device 200 sends a command for writing the information in the MAC address learning table T11 to the extended MIB MAC address learning table T12. By writing the information of the MAC address learning table T11 of each LAN component device into the extended MIB MAC address learning table T12, the extended MIB MAC address learning table T12 of all LAN component devices can be collected from the search device 200 by the extended MIB. It becomes. In this way, the information in the extended MIB MAC address learning table T12 of all LAN constituent devices in the network is stored in the MAC address learning list table T22 (shown as a learning list table in the figure) of the search device 200.
[0026]
By searching the MAC address learning list table T22 according to the following procedures (1) to (3), it is possible to easily identify the LAN configuration device that accommodates the LAN configuration device having the designated MAC address and the port number. It becomes possible.
(1) The search device 200 searches the MAC address learning list table T22 with the designated MAC address “a”. Here, the LAN component device (hub device 111 in FIG. 1) that has not learned the designated MAC address “a” in the MAC address learning list table T22 is excluded.
[0027]
(2) A Ping request is transmitted to the LAN constituent device learning the designated MAC address “a”. At this time, the extended MIB is collected from the LAN component apparatus that transmitted the Ping request, and the MAC address learning list table T22 is updated. Here, the port number of the LAN constituent device in which the MAC address “a” designated in the process (1) is written is extracted, and the MAC address “b” of the search device 200 is written in the port number. The LAN constituent device (hub device 121 in FIG. 1) is excluded if it is written.
[0028]
(3) The port number in which the MAC address “a” in the remaining LAN constituent devices (the bridge device 100 and the hub devices 110 and 112 in FIG. 1) is written is extracted. A search is made as to whether or not the MAC address of any LAN configuration device exists in the extracted port number of the LAN configuration device. If nothing exists, the LAN configuration device having the port number (hub in FIG. 1) is searched. The device 112) is a LAN configuration device having a designated MAC address.
[0029]
FIG. 2 is a diagram for explaining the configuration of the search device according to the first embodiment of the present invention.
2, 201 is a command receiving unit, 202 is an IP address list table generating unit, T21 is an IP address list table, 203 is a pre-MAC address learning table collection processing unit, and 204 is a MAC address learning table collection. 205 is an ICPM unit, 206 is an IP unit, 207 is an SNMP (Simple Network Management Protocol, management protocol under TCP / IP network environment) manager unit, T22 is a MAC address learning list table, and 208 is a MAC address. A search processing unit, 209 is a command output unit, and 210 is a MAC address management unit.
[0030]
In FIG. 2, when the command receiving unit 201 analyzes the input command and determines that the command is “IP address list generation command (command is shown as CMD in the figure)”, the IP address list table generation unit 202 is activated. The IP address list table T21 is generated from the input segment number and IP address.
Subsequently, when a search command is input, the ICPM unit 205 is requested to transmit an ICPM Ping request. Next, the MAC address learning table pre-collection processing unit 203 instructs the LAN configuration apparatus that has normally responded to the Ping request to generate the extended MIB MAC address learning table T12 using an IP packet. The MAC address learning table collection processing unit 204 sets, in the SNMP manager unit 207, an index value in which the extended MIB MAC address learning table T12 is stored in the GET command for the LAN component device that has normally responded to the IP packet. Request transmission. When the extended MIB attribute in the GET response to the GET command is the extended MIB MAC address learning list table, the contents of the extended MIB MAC address learning table T12 are stored in the MAC address learning list table T22, and the MAC address of the LAN component device is associated with the port number. Store.
[0031]
FIG. 3 is a diagram for explaining the hub device of the present invention.
3, 101 is an IP unit, 102 is an SNMP agent unit, 103 is an extended MIB MAC address learning table generation unit, 104 is a MAC address management unit, T11 is a MAC address learning table, and T12 is an extended MIB MAC address learning table. FIG. 3 shows the configuration of the hub device, but the basic configuration of the bridge device is the same and only the processing of the IP unit 101 is different.
[0032]
In FIG. 3, the IP unit 101 transmits / receives IP packets to / from other LAN constituent devices, and stores the MAC addresses of the transmitted / received IP packets in the MAC address learning table T11. Also, upon receiving an instruction to create the extended MIB MAC address learning table T12 from the search device 200, the extended MIB MAC address learning table generation unit 103 is activated, and the information in the MAC address learning table T11 and the MAC address management unit 104 automatically. The MAC address of the LAN component device is acquired and set as an extended MIB in the extended MIB MAC address learning table T12.
[0033]
Next, when the SNMP agent unit 102 receives a GET command from the SNMP manager unit 207 of the search device 200, the SNMP agent unit 102 transmits information of the extended MIB MAC address learning table T12 to the search device 200 as a GET response.
FIG. 4 is a diagram for explaining an IP address list table and a MAC address learning list table according to the present invention.
[0034]
FIG. 4A shows the IP address list table T21. The IP address list table T21 is obtained by dividing the entire network into a plurality of segments and registering the IP addresses of LAN constituent devices accommodated in the segments.
FIG. 4B shows a MAC address learning list table T22. The MAC address learning list table T22 is generated by reading the information in the extended MIB MAC address learning table T12 provided in each LAN component device. The IP address, MAC address, port number, and port number for each LAN component device are generated. Each time, the MAC address of the partner LAN constituent device that communicated with the port is registered.
[0035]
FIG. 5 is a diagram for explaining an extended MIB MAC address learning table.
The extended MIB MAC address learning table T12 is provided in each LAN component device. The extended MIB MAC address learning table as an attribute, the MAC address of the own device, the port number, and the MAC of the partner LAN component device that communicated with the port. Address is registered.
[0036]
FIG. 6 is a flowchart of IP address list table generation processing according to the first embodiment of this invention. Hereinafter, the generation processing of the IP address list table T21 will be described according to the steps of the flowchart (indicated as S in the figure).
S101: The IP address list table generation command is input to the search device 200 with the segment number and the IP address of the LAN component device accommodated in the segment number.
[0037]
S102: The command receiving unit 201 analyzes the input command and recognizes that it is an IP address list table generation command.
S103: The command receiving unit 201 activates the IP address list table generating unit 202. The IP address list table generating unit 202 sets the segment number and the LAN configuration device accommodated in the segment (hereinafter, the LAN configuration device is IP in the flowchart). (Referred to as a device) is stored in the IP address list table T21 described with reference to FIG.
[0038]
7 and 8 are flowcharts (part 1 and part 2) of the MAC address learning table generation processing according to the embodiment of the first invention of the present invention.
S201: A MAC address learning table generation command is input specifying a network address.
S202: The command receiving unit 201 analyzes the command and recognizes that it is a MAC address learning list table generation command.
[0039]
S203: The MAC address learning table pre-collection processing unit 203 extracts the IP address stored in correspondence with the designated segment, and requests the ICPM unit 205 to send a Ping request. The destination address of the Ping request is an IP address stored in the IP address list table T21, and the source address is the IP address of the own device.
[0040]
S204: The ICPM unit 205 receives the Ping response.
S205: The MAC address learning table pre-collection processing unit 203 extracts the source address in the Ping response of the LAN constituent device whose Ping response was normal, and generates a creation instruction event for the extended MIB MAC address learning table T12. S206: An extended MIB MAC address learning table creation instruction is set in the IP packet, and is transmitted to the LAN component apparatus in which the Ping response is normal.
[0041]
S207: The IP unit 101 of the LAN configuration device receives the IP packet, activates the extended MIB MAC address learning table generation unit 103 from the content, and refers to the MAC address and MAC address learning table T11 of the local LAN configuration device, The information is stored in the extended MIB MAC address learning table T12. (The alphabet in the flowchart follows the same alphabet on the next page)
S208: The IP unit 101 sets the own IP address as the transmission source address and the storage result as data in the IP packet, and transmits the IP packet.
[0042]
S209: The IP unit 206 of the search device 200 receives the IP packet, and the MAC address learning table pre-collection processing unit 203 extracts the source address of the IP packet of the LAN constituent device whose reception result is normal.
S210: A storage index value storing the extended MIBMAC address learning table T12 is extracted.
[0043]
S211: The MAC address learning table collection processing unit 204 sets the storage index value of the extended MIB MAC address learning table T12 to the LAN component device whose IP packet reception result is normal in the SNMP manager unit 207. Request transmission.
S212: The SNMP agent unit 102 of the LAN component apparatus receives the GET command, extracts information of the extended MIB MAC address learning table T12 from the index value, and sets and transmits the extracted extended MIB information in the GET response.
[0044]
S213: The MAC address learning table collection processing unit 204 of the LAN configuration apparatus extracts the source address and the extended MIB information with a normal GET response, and stores them in correspondence with the segment in the MAC address learning list table T22.
S214: Output completion of storage as a command execution result.
The steps shown to the left in the flowchart indicate the processing of the search device 200, and the steps shown to the right indicate the processing of the hub device 4ij.
[0045]
9, 10 and 11 are flowcharts (No. 1, No. 2 and No. 3) of the MAC address search processing according to the first embodiment of the present invention.
The MAC address learning list table T22 at the time when the search by the processing of this flowchart is started is created according to the processing of FIGS.
S301: A MAC address search command is inputted by specifying a MAC address and a segment number.
[0046]
S302: The command receiving unit 201 analyzes the command and recognizes that it is a MAC address search command.
S303: The MAC address search processing unit 208 searches the MAC address learning list table T22 linked to the segment number from the MAC address, and the IP address, MAC address, and port number of the LAN configuration apparatus that accommodates the specified MAC address. The MAC address accommodated in the port is extracted. (The hub device 111 that is not extracted is excluded as a target.)
S304: It is determined whether there is one extracted LAN configuration device.
[0047]
S305: If there are two or more extracted LAN constituent devices, the IP address of the extracted LAN constituent devices is extracted.
S306: The ICPM unit 205 sets the IP address extracted from the transmission destination address and the transmission source address in the Ping request, and transmits the IP address.
S307: Receive a Ping response from the LAN component device.
[0048]
S308: The IP unit 206 transmits an IP packet instructing the creation of the extended MIB MAC address learning table T12 to the LAN component device in which the Ping response is normal.
S309: The IP unit 101 of the LAN configuration apparatus receives the IP packet, activates the extended MIB MAC address learning table generation unit 103, and stores the MAC address of the local LAN configuration apparatus and the information of the MAC address learning table T11 in the MAC address management unit 104. Then, the MAC address learning table T11 is referred to and stored in the extended MIB MAC address learning table T12.
[0049]
S310: The IP unit 101 sets an IP packet as a transmission source address and a storage result as data, and transmits the IP packet.
S311: The IP unit 206 receives the IP packet, the MAC address learning table pre-collection processing unit 203 extracts the source address of the IP packet of the LAN constituent device whose reception result is normal, and the SNMP manager unit 207 receives the GET command. Is set to the index value of the extended MIB MAC address learning table T12 and transmitted.
[0050]
S312: The SNMP agent unit 102 receives the GET command, extracts information from the extended MIB MAC address learning table T12, sets the extracted extended MIB information in the GET response, and transmits it.
S313: The SNMP manager unit 207 receives the GET response, and the MAC address learning table collection processing unit 204 extracts the source address and the extended MIB information for which the GET response is normal, and responds to the corresponding segment in the MAC address learning list table T22. Store.
[0051]
S314: The MAC address of the search device 200 is detected from the MAC address management unit 210.
S315: The MAC address registered in correspondence with the port number of the first LAN component device extracted in S304 is extracted.
S316: It is determined whether the MAC address of the search device 200 matches the MAC address extracted in S315. If they match, the next LAN configuration device is set and the process returns to S315. (If they match, the hub device 121 in FIG. 1 is excluded as a target.)
S317: If they do not match, the IP addresses and port numbers of the LAN configuration devices that do not match are extracted.
[0052]
S318: It is determined whether all of the LAN constituent devices are finished.
S319: If not completed, set the next LAN component and return to S315.
S320: It is determined whether or not there is one mismatching LAN configuration device.
S321: When there are two or more mismatching LAN configuration devices, the MAC address of the LAN configuration device itself is extracted.
[0053]
S322: Extracting the IP address and the MAC address corresponding to the port number of the inconsistent LAN constituent devices.
S323: It is determined whether or not the MAC address of the mismatching LAN constituent device extracted in S320 exists in the MAC address extracted in S321. (If present, the bridge device 100 and the hub devices 110 and 112 in FIG. 1 are excluded as targets.)
S324: Extract next device
S326: Extract the IP address and port number of the LAN constituent device that did not exist. (The hub device 112 in FIG. 1 is specified.)
S325: The IP address and port number extracted in S324 are output as a command execution result.
[0054]
When the network address and the MAC address are designated by the processing of the above flowchart, the IP address and port number of the LAN component apparatus that accommodates the LAN component apparatus having the designated MAC address can be searched.
FIG. 12 is a diagram for explaining a search device according to the second embodiment of the present invention.
The command reception unit 201, IP address list table T21, pre-MAC address learning table collection processing unit 203, MAC address learning table collection processing unit 204, ICPM unit 205, IP unit 206, SNMP manager unit 207, MAC address learning in FIG. The list table T22, the MAC address search processing unit 208, the command output unit 209, and the MAC address management unit 210 have the same configuration as that of the first embodiment of the present invention described with reference to FIG.
[0055]
In the embodiment of the second invention in FIG. 12, the IP address list table automatic generation unit 211 is configured as the IP address list table generation unit 202, and when an IP address list table automatic generation command is input, The address list table automatic generation unit 211 requests the ICPM unit 205 to send a ping request by broadcast, and automatically generates the IP address list table T21 by the Ping response from the LAN component device. The configuration in which the table automatic generation unit 211 is connected to the SNMP manager unit 207 and the ICPM unit 205 directly is different from that of the first embodiment.
[0056]
FIG. 13 is a flowchart of IP address list table automatic generation processing according to the second embodiment of the present invention.
S401: An IP address list automatic generation command is input to the search device 200 by specifying a segment number.
S402: The command receiving unit 201 analyzes the input command and recognizes that it is an IP address list automatic generation command.
[0057]
S403: The command reception unit 201 activates the IP address list table automatic generation unit 211, and the IP address list table automatic generation unit 211 sets the network address part to all “1”. With this setting, all LAN constituent devices in the LAN are subjected to the following processing.
S404: The ICPM unit 205 transmits a Ping request by broadcast targeting a LAN configuration device whose network address is all “1”.
[0058]
S405: The ICPM unit 205 receives a Ping response.
S406: The IP address list table automatic generation unit 211 extracts the source address in the Ping response of the LAN component apparatus in which the Ping response is normal, and uses the index value indicating the location where the extended MIB MAC address learning table T12 is stored. Extract.
[0059]
S407: The SNMP manager unit 207 transmits a GET command in which the storage index value of the extended MIB MAC address learning table T12 is set to the LAN constituent device whose reception result of the Ping response is normal.
S408: The SNMP manager unit 207 receives the GET response.
S409: When the received GET response is normal and the extended MIB attribute is the extended MIB MAC address learning table, the IP address list table generating unit 211 sets the source address in the GET response as the IP address in the segment in the IP address list table T21. Store.
[0060]
The IP address list table T21 is generated by the processing of the flowcharts of S401 to S409. The generation processing of the MAC address learning list table T22 and the search of the MAC address after generating the IP address list table T21 are the same as the processing of the flowchart described in the first embodiment of the present invention.
(Supplementary Note 1) A method for specifying the installation location of a LAN component device to which a MAC address is assigned,
The search device that identifies the installation location of the LAN component device from the MAC address generates an IP address list table from the input segment number and the IP address of the LAN component device,
The IP packet is sequentially transmitted to all the LAN component devices registered in the IP address list table, and the LAN component device that normally returned a response to the IP packet is extracted,
Instructing the LAN component device that has returned a response normally to store the port number and MAC address in the MAC address learning table as the extended MIB information in the extended MIB MAC address learning table,
Collecting information of the extended MIB MAC address learning table from the LAN component device that has been normally stored in the extended MIB MAC address learning table, and generating a MAC address learning list table of the LAN component devices in the network,
Search the MAC address learning list table to identify the installation location of the LAN component device having the specified MAC address;
A method for specifying an installation location of a LAN component device.
[0061]
(Supplementary Note 2) A method for specifying the installation location of a LAN component device to which a MAC address is assigned,
A LAN in which a search device that identifies an installation location of a LAN component device from a MAC address transmits an IP packet by broadcast to all LAN component devices within the input segment number, and normally returns a response to the IP packet. An IP address list table is automatically generated from the component device,
The IP packet is sequentially transmitted to all the LAN component devices registered in the IP address list table, and the LAN component device that normally returned a response to the IP packet is extracted,
Instructing the LAN component device that has returned a response normally to store the port number and MAC address in the MAC address learning table as the extended MIB information in the extended MIB MAC address learning table,
Collecting information of the extended MIB MAC address learning table from the LAN component device that has been normally stored in the extended MIB MAC address learning table, and generating a MAC address learning list table of the LAN component devices in the network,
Search the MAC address learning list table to identify the installation location of the LAN component device having the specified MAC address;
A method for specifying an installation location of a LAN component device.
[0062]
(Supplementary Note 3) A search device for specifying the installation location of a LAN component device to which a MAC address is assigned,
A command reception unit for analyzing the input command;
An IP address list table generating unit that generates an IP address list table from the segment number input via the command receiving unit and the IP address of the LAN component device;
The MAC address for instructing the LAN configuration apparatus registered in the IP address list table to store the port number and MAC address in the MAC address learning table in the extended MIB MAC address learning table as the extended MIB information and collecting the storage result A pre-learning table collection processing unit;
A MAC address learning table collection processing unit that collects information of the extended MIB MAC address learning table of the LAN component device that has normally returned a response, and generates a MAC address learning list table;
A MAC address search processing unit that searches the MAC address learning list table and identifies an installation location of a LAN configuration device having a specified MAC address;
A search device characterized by comprising.
[0063]
(Supplementary Note 4) In the search device according to Supplementary Note 3,
When the IP address list table generating unit receives a MAC address search command in the command receiving unit, the IP address list table generating unit transmits an IP packet by broadcast to all LAN constituent devices in the network registered in the IP address list table. From the IP address list table automatic generation unit that automatically generates the IP address list table in the network from the response,
A search device characterized by comprising.
[0064]
【The invention's effect】
According to the present invention, when a failure occurs in a LAN component device having a certain MAC address, even if the LAN component device information is not managed, the MAC address of the LAN component device (eg, terminal / server) in which the failure has occurred is detected. It becomes possible to easily identify the IP address and connection port number of a LAN component device (for example, a bridge device / hub device) connected to a LAN component device (for example, a terminal / server) in which a failure has occurred.
[0065]
Therefore, even when a failure occurs in the LAN component device, the failure can be dealt with quickly, and the failure can be terminated in a short time.
Furthermore, by mounting an extended MIB MAC address learning table, which is an extended MIB of the present invention, on a LAN component device, it becomes possible to easily search for a LAN component device that accommodates a MAC address even in a multi-vendor environment.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a system configuration of the present invention
FIG. 2 is a diagram for explaining the search device according to the first embodiment of this invention.
FIG. 3 is a diagram illustrating a hub device according to the present invention.
FIG. 4 is a diagram illustrating an IP address list table and a MAC address learning list table according to the present invention.
FIG. 5 is a diagram illustrating an extended MIB MAC address learning table according to the present invention.
FIG. 6 is a flowchart of IP address list table generation processing according to the first embodiment of this invention;
FIG. 7 is a flowchart (part 1) of the MAC address learning table generation processing according to the first embodiment of this invention;
FIG. 8 is a flowchart (part 2) of the MAC address learning table generation processing according to the first embodiment of this invention;
FIG. 9 is a flowchart (part 1) of MAC address search processing according to the first embodiment of this invention;
FIG. 10 is a flowchart (part 2) of the MAC address search process according to the embodiment of the first invention of the present invention;
FIG. 11 is a flowchart (part 3) of the MAC address search process according to the embodiment of the first invention of the present invention;
FIG. 12 is a diagram illustrating a search device according to the second embodiment of this invention.
FIG. 13 is a flowchart of IP address list table automatic generation processing according to the second embodiment of the present invention;
FIG. 14 is a diagram for explaining the system configuration of the prior art
[Explanation of symbols]
100, 400 bridge device
110, 111, 112, 120, 121, 410, 411, 412, 420, 421 Hub device
101, 206 IP part
102 SNMP agent section
103 Extended MIB MAC address learning table generator
104, 210 MAC address management unit
200 search device
201 Command receiving part
202 IP address list table generation unit
203 Pre-MAC address learning table collection processing unit
204 MAC address learning table collection processing unit
205 ICPM Department
207 SNMP manager
208 MAC address search processor
209 Command output part
211 IP address list table automatic generation unit
300, 310 terminal device
500 Management terminal device
T11 MAC address learning table
T12 Extended MIBMAC address learning table
T21 IP address list table
T22 MAC address learning list table

Claims (3)

A method for specifying the installation location of a LAN configuration device assigned a MAC address,
The search device that identifies the installation location of the LAN component device from the MAC address generates an IP address list table from the input segment number and the IP address of the LAN component device,
The IP packet is sequentially transmitted to all the LAN component devices registered in the IP address list table, and the LAN component device that normally returned a response to the IP packet is extracted,
Instructing the LAN component device that has returned a response normally to store the port number and MAC address in the MAC address learning table as the extended MIB information in the extended MIB MAC address learning table,
The Collect extended MI B information of the extended MIBMAC address the LAN configuration device that stores the learning table, generates a MAC address learning list table of LAN component devices in the network,
Search the MAC address learning list table to detect which device port number the LAN component device having the specified MAC address is connected to.
A method for specifying an installation location of a LAN component device. A method for specifying the installation location of a LAN configuration device assigned a MAC address,
A LAN in which a search device that identifies an installation location of a LAN component device from a MAC address transmits an IP packet by broadcast to all LAN component devices within the input segment number, and normally returns a response to the IP packet. An IP address list table is automatically generated from the component device,
The IP packet is sequentially transmitted to all the LAN component devices registered in the IP address list table, and the LAN component device that normally returned a response to the IP packet is extracted,
Instructing the LAN component device that has returned a response normally to store the port number and MAC address in the MAC address learning table as the extended MIB information in the extended MIB MAC address learning table,
The Collect extended MI B information of the extended MIBMAC address the LAN configuration device that stores the learning table, generates a MAC address learning list table of LAN component devices in the network,
Search the MAC address learning list table to detect which device port number the LAN component device having the specified MAC address is connected to.
A method for specifying an installation location of a LAN component device. A search device for specifying a location of a LAN configuration device to which a MAC address is assigned,
A command receiving unit for analyzing the input command; an IP address list table generating unit for generating an IP address list table from the segment number input via the command receiving unit and the IP address of the LAN component device;
The MAC address for instructing the LAN configuration apparatus registered in the IP address list table to store the port number and MAC address in the MAC address learning table in the extended MIB MAC address learning table as the extended MIB information and collecting the storage result A pre-learning table collection processing unit;
A MAC address learning table collection processing unit that collects information of the extended MIB MAC address learning table of the LAN component device that has normally returned a response, and generates a MAC address learning list table;
A MAC address search processing unit that searches the MAC address learning list table and detects to which port number a LAN constituent device having a specified MAC address is connected ;
A search device characterized by comprising.

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