JP3866994B2 - Network management system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is composed of a network (managed system) including a plurality of network configuration devices and transmission paths connecting these devices, and a monitoring device (management station) that monitors the network and collects management information. Relates to a network management system.
[0002]
[Prior art]
Conventionally, a network including a plurality of transmission devices as network configuration devices and transmission paths connecting these transmission devices, and a monitoring device that monitors the network and collects management information such as failure information and device status information There are various network management systems configured.
[0003]
For example, in the first network management system, a monitoring device and a representative transmission device are connected in accordance with a protocol such as HDLC (High-level Data Link Control), and the monitoring device is a number that specifies a communication destination using this protocol. Management information is collected by associating a management number (monitoring target) with a device number for identifying a transmission device to be managed.
[0004]
In the second network management system, the monitoring device is connected to all transmission devices constituting the network according to the IP protocol so that IP (Internet Protocol) communication is possible. Management information is collected by identifying specific transmission apparatuses based on IP addresses.
[0005]
Further, in the third network management system, a proxy agent (proxy agent) is arranged to monitor a plurality of non-SNMP transmission apparatuses having no IP address in accordance with the protocol SNMP (Simple Network Management Protocol). Yes.
[0006]
[Problems to be solved by the invention]
However, in the first network management system, the communication speed is slow in protocols such as HDLC, and it is inevitable that it takes time when a large amount of data needs to be collected as management information. In addition, the IP communication environment becomes very low-priced with the spread of LAN (Local Area Network), and the monitoring device is usually composed of a personal computer or workstation. However, it is not possible to apply a communication environment such as HDLC to the monitoring device. Inevitable cost increase.
[0007]
In the second network management system, when the monitoring device and all the transmission devices are connected so as to be capable of IP communication, a configuration in which the monitoring device and all the transmission devices are connected by an IP line dedicated for monitoring different from the transmission path. However, it requires a dedicated monitoring IP line, which increases costs. It is also possible to adopt a configuration in which a part of the bandwidth of the transmission line is used for monitoring IP communication. In this configuration, all transmission apparatuses use an IP communication function (transmission) that uses a part of the bandwidth of the transmission line. In a transmission apparatus having a plurality of paths, it is necessary to support a relay / branch function including routing, and the cost increases particularly when applied to an existing transmission apparatus.
[0008]
In the third network management system, since a proxy agent (proxy agent) is newly arranged to monitor the transmission apparatus, an increase in cost is inevitable.
[0009]
An object of the present invention is to provide a network management system that enables high-speed collection of management information without causing an increase in cost.
[0010]
Another object of the present invention is to provide a network management system that enables high-speed collection of management information without significantly changing existing facilities.
[0011]
Another object of the present invention is to provide a network management system that enables high-speed collection of management information without requiring a newly arranged device such as a proxy agent.
[0012]
[Means for Solving the Problems]
In order to solve the above problems, a network management system according to the present invention includes a plurality of network configuration devices each assigned a unique device number and performing communication using an inter-device frame including the device number, and these networks. A network including a transmission line connecting the component devices;
It is connected to a representative network constituent device among the plurality of network constituent devices through an IP line that transmits the IP frame, and collects management information by specifying a network constituent device to be monitored by an IP address included in the IP frame. A monitoring device;
The representative network component device is:
An interconversion result between the device number uniquely assigned to the plurality of network configuration devices and the IP address used by the monitoring device to identify the network configuration device to be monitored is represented as the inter-device frame and There is a first processing means for enabling the collection of the management information by reflecting each in the IP frame.
[0013]
In this configuration, the representative network configuration device has the device number uniquely assigned to the plurality of network configuration devices for reference by the first processing unit, and the monitoring device is the monitoring target. First holding means for holding the IP address used for specifying the network configuration device in association with each other is further provided.
[0014]
Further, the inter-device frame includes a device number of a transmission source and a transmission destination as the device number, and the IP frame includes an IP address of a transmission source and a transmission destination as the IP address,
The first processing means copies the data in the data part of the inter-device frame and the IP frame to each other.
[0015]
In addition, the representative network configuration device reflects the mutual conversion result between the SNMP message used by the monitoring device and the message supported by the monitored network configuration device in the inter-device frame and the IP frame, respectively. The image processing apparatus further includes a second processing unit that enables the management information to be collected.
[0016]
Further, the representative network configuration device includes information for specifying the SNMP message used by the monitoring device for reference by the second processing unit, and the monitoring target network configuration device supports the information There is further provided second holding means for holding information for specifying the message in association with each other.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
[0018]
[First Embodiment]
A network management system according to the first embodiment of the present invention will be described with reference to FIGS. 1, 2, 3, and 4.
[0019]
The network management system 1 includes a network (managed system) 4 including a plurality of transmission devices (# 1 to # 5) 2 as network configuration devices and a transmission path 3 connecting these transmission devices 2, and the network 4 And a monitoring device (management station) 6 that collects management information such as failure information and device status information by monitoring the network through a network (hereinafter also simply referred to as an IP network) 5 of the IP network.
[0020]
Each of the transmission devices 2 constituting the network 4 is specifically an optical multiplexing device or the like, and accommodates a plurality of terminal devices not shown. Here, the transmission apparatus (# 1) 2 to the transmission apparatus (# 5) 2 adopt a connection form as shown in FIG. 4 via the transmission line 3, but are connected in cascade or ring (loop) connection. It is also possible to adopt other connection forms.
[0021]
The transmission device (# 1) 2 is a representative transmission device of the network 4 with respect to the monitoring device 6. The monitoring device 6 connected to the representative transmission device 2 through the IP line 5 can be constituted by a personal computer or a workstation.
[0022]
The representative transmission device 2 includes a processing unit 20 having a branch function unit 30 and a frame conversion function unit (address conversion function unit) 31, an address management table 21, an in-device monitoring unit 22, a transmission path 3, and an IP line. 5, each interface unit (not shown) for connection to 5.
[0023]
The other transmission devices (# 2 to # 5) 2 connected directly or indirectly to the representative transmission device 2 through the transmission line 3 are not different in configuration from existing transmission devices, and have a branch function unit 30. Unit 20, in-device monitoring unit 22, and interface unit for connection to transmission path 3, but these components are not shown.
[0024]
In each transmission device (# 1 to # 5) 2, the branch function unit 30 of the processing unit 20 connects the in-device monitoring unit 22 of the own device to the monitoring device 6, or the in-device monitoring unit 22 of another device is monitored. 6 is switched according to whether it is connected to 6. In each transmission device 2, the in-device monitoring unit 22 collects failure information in the own device or status information of the own device as management information and notifies the monitoring device 6 of the information.
[0025]
In the representative transmission device 2, the frame conversion function unit 31 of the processing unit 20 performs frame mutual conversion between the IP frame 40 and the inter-transmission device frame 50, strictly speaking, address mutual conversion between an IP address and a device number.
[0026]
The frame conversion function unit 31 converts the IP frame 40 received from the monitoring device 6 through the IP line 5 into the inter-transmission device frame 50 in cooperation with the processing unit 20 and transmits it to the transmission path 3.
[0027]
For this purpose, the frame conversion function unit 31 replaces the “transmission source IP address” in the IP header portion of the received IP frame 40 with the device number of the own transmission device as the “transmission source device number” of the inter-transmission device frame 50. To "".
[0028]
The frame conversion function unit 31 registers the device number of the transmission device corresponding to the “destination IP address” in the IP header portion of the received IP frame 40 in advance in association with the IP address and the device number. (See FIGS. 2 and 3).
[0029]
The frame conversion function unit 31 sets the device number of the transmission device acquired from the address management table 21 as the “destination device number” of the inter-transmission device frame 50.
[0030]
Further, the frame conversion function unit 31 stores (copies) the IP data part in the IP frame 40 in the data part of the inter-transmission apparatus frame 50, transmits the converted inter-transmission apparatus frame 50 to the transmission path 3, and The data is sent to the in-device monitoring unit 22 of the device.
[0031]
On the other hand, the frame conversion function unit 31 receives the frame 50 between the transmission devices transmitted from the other transmission devices (# 2 to # 5) 2 or the in-device monitoring unit 22 of the own device in cooperation with the processing unit 20. The inter-transmission apparatus frame 50 is converted into an IP frame 40 and transmitted to the monitoring apparatus 6 through the IP line 5.
[0032]
For this purpose, the frame conversion function unit 31 associates the IP address corresponding to the “source device number” and “destination device number” of the received inter-transmission device frame 50 with the IP address and the device number of the transmission device. Obtained from the address-related table 21 registered in advance.
[0033]
The frame conversion function unit 31 sets an IP address corresponding to the “source device number” acquired from the address management table 21 in the “source IP address” of the IP frame 40, and sets the data part in the inter-transmission device frame 50. Store (copy) in the IP data part of the IP frame 40.
[0034]
Further, the frame conversion function unit 31 sets the IP address of the monitoring device 6 registered in advance in the storage unit (not shown) in the “destination IP address” of the IP frame 40, or from the monitoring device 6. When the IP frame 40 is received, the IP address of the monitoring device 6 stored in the storage unit is set, other IP header information is added to the IP header portion of the IP frame 40, and the converted IP frame 40 is transferred to the IP line 5 To the monitoring device 6.
[0035]
Next, a specific operation example in the network management system 1 according to the first embodiment described above will be described. Here, a case where the monitoring apparatus 6 monitors the transmission apparatus (# 2) 2 having the apparatus number: 02 and collects management information will be described.
[0036]
In the monitoring device 6, IP addresses of all the transmission devices (# 1 to # 5) 2 constituting the network 4 are registered in advance, and a representative transmission device (## connected to the monitoring device 6 via the IP line 5) 1) In 2, IP addresses of all transmission devices (# 1 to # 5) 2 constituting the network 4 and device numbers corresponding thereto are registered in advance, and IP addresses of the monitoring devices 6 are registered in advance. Keep it.
[0037]
The IP frame 40 transmitted from the monitoring device 6 toward the transmission device (# 2) 2 is received by the processing unit 20 of the representative transmission device (# 1) 2 connected to the monitoring device 6 through the IP line 5. Is done.
[0038]
Here, in the IP header portion of the transmitted IP frame 40, the IP address of the monitoring device 6: 10.11.123.100 as the transmission source IP address and the transmission device (# 2) 2 as the transmission destination IP address. IP address: 10.11.123.2 is included.
[0039]
The frame conversion function unit 31 performs the following processes S11 to S13 in order to convert the received IP frame 40 into the inter-transmission apparatus frame 50.
[0040]
S11: The device number: 02 corresponding to the transmission destination IP address: 10.11.123.2 is acquired from the address relation table 21, and is set as the “transmission destination device number” of the inter-transmission device frame 50.
[0041]
S12: The data in the IP data portion of the IP frame 40 is copied to the data portion of the inter-transmission device frame 50.
[0042]
S13: The device number: 01 of the own device is set in the “transmission source device number” of the inter-transmission device frame 50. As a result, the processing unit 20 transmits the inter-transmission device frame 50 whose address has been converted to the transmission path 3.
[0043]
The inter-transmission apparatus frame 50 that has been address-converted by the frame conversion function unit 31 of the transmission apparatus (# 1) 2 and transmitted to the transmission path 3 by the processing unit 20 has the transmission destination apparatus number “02”. (# 2) Received at 2.
[0044]
In the transmission apparatus (# 2) 2, after the processing unit 20 processes the received data, the transmission apparatus includes a transmission source apparatus number: 02, a transmission destination apparatus number: 01, and data: response data (management information) as a response. The inter-frame 50 is transmitted to the transmission path 3.
[0045]
The inter-transmission apparatus frame 50 transmitted from the transmission apparatus (# 2) 2 to the transmission path 3 as a response is received by the processing unit 20 of the transmission apparatus (# 1) 2 because the transmission destination apparatus number is “01”. Is done.
[0046]
The frame conversion function unit 31 of the transmission device (# 1) 2 performs the following processes S21 to S24 in order to convert the received inter-transmission device frame 50 into the IP frame 40.
[0047]
S21: The IP address corresponding to the transmission source device number: 02 is acquired from the address relation table 21: 10.11.123.2, and is set as the “transmission source IP address” of the IP frame 40
[0048]
S22: Data as management information of the data part of the inter-transmission apparatus frame 50 is copied to the IP data part of the IP frame 40.
[0049]
S23: The IP address 10.11.123.100 of the monitoring apparatus 6 registered in advance in the storage unit is set as the “destination IP address” of the IP frame 40.
[0050]
S24: In the IP header part other than the “source IP address” and “destination IP address” of the IP frame 40, information such as version and identifier is set with predetermined values, and the packet length and header checksum are set. Information such as sets the calculation result. As a result, the processing unit 20 transmits the IP frame 40 whose address has been converted to the IP line 5.
[0051]
The IP frame 40 transmitted from the representative transmission device 2 to the IP line 5 is received by the monitoring device 6 because the transmission destination IP address is “10.11.123.100”. The monitoring device 6 recognizes that the data is the management information from the transmission device (# 2) 2 based on the fact that the transmission source IP address is “10.11.123.2”.
[0052]
In many cases, Ethernet or IEEE 802.3 is applied to the data link layer and IP is used as a higher-level protocol. In this case, the protocol ARP is used to correspond the MAC (physical) address to the IP address. (Address Resolution Protocol) is used. In the network management system 1 according to the first embodiment described above, the representative transmission device 2 to which the monitoring device 6 is connected and which accommodates the IP line 5 is connected to the ARP from the monitoring device 6 with respect to the address. If one of the IP addresses of all transmission apparatuses 2 including the own apparatus registered in the table 21 corresponds, the communication can be performed without any problem by returning the MAC address of the representative transmission apparatus 2.
[0053]
[Second Embodiment]
A network management system according to the second embodiment of the present invention will be described with reference to FIG. 5, FIG. 6, FIG. 7, and FIG.
[0054]
The network management system 1 according to the second embodiment includes a network (managed system) including a plurality of transmission devices (# 1 to # 5) 2 as network configuration devices and a transmission path 3 that connects these transmission devices 2. ) 4 and a monitoring device (management station) 6 that monitors the network 4 through a line (IP line) 5 of the IP network and collects management information such as failure information and device status information.
[0055]
The transmission device (# 1) 2 is a representative transmission device of the network 4 with respect to the monitoring device 6. The representative transmission apparatus 2 includes a branching function unit 30, a frame conversion function unit (address conversion function unit) 31, a processing unit 20 having a message conversion function unit (SNMP request conversion function unit) 32, an address management table. 21, an in-device monitoring unit 22, and interface units (not shown) for connecting to the transmission path 3 and the IP line 5.
[0056]
The other transmission devices (# 2 to # 5) 2 connected directly or indirectly to the representative transmission device 2 through the transmission line 3 are not different in configuration from existing transmission devices, and have a branch function unit 30. Unit 20, in-device monitoring unit 22, and interface unit for connection to transmission path 3, but these components are not shown.
[0057]
In each transmission device (# 1 to # 5) 2, the branch function unit 30 of the processing unit 20 connects the in-device monitoring unit 22 of the own device to the monitoring device 6, or the in-device monitoring unit 22 of another device is monitored. 6 is switched according to whether it is connected to 6. In each transmission device 2, the in-device monitoring unit 22 collects failure information in the own device or status information of the own device as management information and notifies the monitoring device 6 of the information.
[0058]
In the representative transmission device 2, the frame conversion function unit 31 of the processing unit 20 performs frame mutual conversion between the IP frame 40 and the inter-transmission device frame 50, strictly speaking, address mutual conversion between an IP address and a device number.
[0059]
The message conversion function unit 32 of the processing unit 20 performs mutual conversion of the data part of the IP frame 40 and the inter-transmission apparatus frame 50, strictly speaking, mutual conversion of messages.
[0060]
That is, the message conversion function unit 32 cooperates with the processing unit 20 so that each transmission device 2 supports the SNMP message MSG1 of the IP data portion of the IP frame 40 received from the monitoring device 6 through the IP line 5. (Transmission device message) This is converted into MSG2, and this transmission device message MSG2 is stored in the data part of the inter-transmission device frame 50 and transmitted to the transmission path 3.
[0061]
Further, the message conversion function unit 32 converts the transmission device message MSG2 of the data part in the inter-transmission device frame 50 received from the other transmission devices (# 2 to # 5) 2 into the SNMP message MSG1, and It is stored in the IP data part and transmitted to the IP line 5.
[0062]
At this time, the message conversion function unit 32 also sets a transport layer header (here, a UDP (User Datagram Protocol) header) in the IP data part of the IP frame 40. This is because SNMP in the application layer normally uses UDP as the transport layer.
[0063]
In the network management system 1 according to the second embodiment, other configurations that are not described are the same as those of the network management system 1 according to the first embodiment described above.
[0064]
Next, a specific operation example in the network management system 1 according to the second embodiment described above will be described. Here, a case will be described in which management information is collected by monitoring the transmission apparatus (# 2) 2 with the apparatus number: 02 as one agent from the monitoring apparatus 6 as a manager that transmits and receives the SNMP IP frame 40.
[0065]
In the monitoring device 6, IP addresses of all the transmission devices (# 1 to # 5) 2 constituting the network 4 are registered in advance, and a representative transmission device (## connected to the monitoring device 6 via the IP line 5) 1) In 2, IP addresses of all transmission devices (# 1 to # 5) 2 constituting the network 4 and device numbers corresponding thereto are registered in advance, and IP addresses of the monitoring devices 6 are registered in advance. Keep it.
[0066]
The representative transmission apparatus 2 is provided with an object conversion table 23 that associates an object identifier (ID) with a command code in each transmission apparatus 2.
[0067]
The IP frame 40 transmitted from the monitoring device 6 toward the transmission device (# 2) 2 is received by the processing unit 20 of the representative transmission device (# 1) 2 connected to the monitoring device 6 through the IP line 5. Is done.
[0068]
Here, in the IP header portion of the transmitted IP frame 40, the IP address of the monitoring device 6: 10.11.123.100 as the transmission source IP address and the transmission device (# 2) 2 as the transmission destination IP address. IP address: 10.11.123.2 is included.
[0069]
The frame conversion function unit 31 and the message conversion function unit 32 perform the following processes S31 to S33 in order to convert the received IP frame 40 into the inter-transmission device frame 50.
[0070]
S31: The frame conversion function unit 31 obtains the device number: 02 corresponding to the transmission destination IP address: 10.11.123.2 from the address relation table 21, and sets it as the “transmission device number” of the inter-transmission device frame 50. To do.
[0071]
S32: The message conversion function unit 32 obtains the object ID: 1.3.6.1.2.1.1.1.3 (the SNMP request PDU (Protocol Data Unit) of the IP data part of the IP frame 40 from the object relation table 23. The command code corresponding to the object name: sysUpTime): 0x0A03 (command name: acquisition of operating time) is acquired, and the command data system (data length, time stamp, request type (command, etc.) in the transmission apparatus (# 2) 2 is acquired. ), Converted into a request ID (command code or the like)), and then set in the data part of the inter-transmission apparatus frame 50.
[0072]
S33: The frame conversion function unit 31 sets the device number: 01 of the own device in the “transmission source device number” of the inter-transmission device frame 50. As a result, the processing unit 20 transmits the inter-transmission apparatus frame 50 that has undergone address translation and message translation to the transmission path 3.
[0073]
The inter-transmission-device frame 50 that has been subjected to address conversion and message conversion by the frame conversion function unit 31 and the message conversion function unit 32 of the transmission device (# 1) 2 and transmitted to the transmission path 3 by the processing unit 20 has a transmission destination device number. Since it is “02”, it is received by the transmission apparatus (# 2) 2.
[0074]
In the transmission apparatus (# 2) 2, after the processing unit 20 processes the received data, the transmission apparatus includes a transmission source apparatus number: 02, a transmission destination apparatus number: 01, and data: response data (management information) as a response. The inter-frame 50 is transmitted to the transmission path 3.
[0075]
The inter-transmission apparatus frame 50 transmitted from the transmission apparatus (# 2) 2 to the transmission path 3 as a response is received by the processing unit 20 of the transmission apparatus (# 1) 2 because the transmission destination apparatus number is “01”. Is done.
[0076]
The frame conversion function unit 31 and the message conversion function unit 32 of the transmission apparatus (# 1) 2 perform the following processes S41 to S45 in order to convert the received inter-transmission apparatus frame 50 into the IP frame 40.
[0077]
S41: The message conversion function unit 32 obtains the object ID: 1.3.6.1.2.1.1.3 corresponding to the command code: 0x0A03 in the data part of the inter-transmission device frame 50 from the object relation table 23. Then, the object ID is set in the “object identifier” in the SNMP request PDU of the IP data portion of the IP frame 40, and the response result data (operation time as management information) and information other than the object identifier are determined in advance. Is set in the IP data part.
[0078]
S42: The message conversion function unit 32 sets “00 A1” in the “transmission source port number”, “07 D0” in the “transmission destination port number”, and “segment length” in the UDP header of the IP data portion of the IP frame 40. “00 00” is set in “00 33” and “check sum”, respectively.
[0079]
S43: The frame conversion function unit 31 acquires the IP address: 10.11.123.2 corresponding to the transmission source device number: 02 from the address relation table 21, and sets it as the “transmission source IP address” of the IP frame 40. .
[0080]
S 44: The frame conversion function unit 31 sets the IP address 10.11.123.100 of the monitoring device 6 registered in advance in the storage unit as the “destination IP address” of the IP frame 40.
[0081]
S45: The frame conversion function unit 31 sets a predetermined value for information such as version and identifier in the IP header part other than the “source IP address” and “destination IP address” of the IP frame 40. Information such as packet length and header checksum sets the calculation result. As a result, the processing unit 20 transmits the IP frame 40 subjected to address conversion and message conversion to the IP line 5.
[0082]
The IP frame 40 transmitted from the representative transmission apparatus 2 to the IP line 5 is received by the monitoring apparatus 6 because the transmission destination address is “10.11.123.100”. The monitoring device 6 recognizes that the data is the management information from the transmission device (# 2) 2 based on the fact that the transmission source IP address is “10.11.123.2”.
[0083]
The SNMP request PDU in the IP data portion of the IP frame 40 includes, as other information, a version, a community string, a PDU type (5 types such as an information request), a request ID, an error state, and an error index.
[0084]
[Modification]
The processing in the above-described embodiment is provided as a computer-executable program, and can be provided via a recording medium such as a CD-ROM or a floppy disk, and further via a communication line.
[0085]
In addition, each process in each of the above-described embodiments can be performed by selecting and combining any plural or all of the processes.
[0086]
[Others]
(Supplementary note 1) A network including a plurality of network configuration devices each assigned a unique device number and performing communication using an inter-device frame including the device number, and a transmission path connecting these network configuration devices ;
It is connected to a representative network constituent device among the plurality of network constituent devices through an IP line that transmits the IP frame, and collects management information by specifying a network constituent device to be monitored by an IP address included in the IP frame. A monitoring device;
The representative network component device is:
An interconversion result between the device number uniquely assigned to the plurality of network configuration devices and the IP address used by the monitoring device to identify the network configuration device to be monitored is represented as the inter-device frame and First processing means for enabling collection of the management information reflected in each of the IP frames;
Network management system.
[0087]
(Supplementary Note 2) The representative network configuration device is:
For reference by the first processing means, the device number uniquely assigned to the plurality of network configuration devices, and the IP used by the monitoring device to identify the network configuration device to be monitored A first holding means for holding the address in association with the address;
The network management system according to appendix 1.
[0088]
(Supplementary Note 3) The inter-device frame includes a device number of a transmission source and a transmission destination as the device number, and the IP frame includes an IP address of a transmission source and a transmission destination as the IP address,
The first processing means mutually copies the data in the data part of the inter-device frame and the IP frame.
The network management system according to appendix 1.
[0089]
(Supplementary Note 4) The management information includes failure information and status information of the monitoring target network constituent device.
The network management system according to appendix 1.
[0090]
(Supplementary Note 5) The representative network configuration device is:
The management information can be collected by reflecting the interconversion result between the SNMP message used by the monitoring device and the message supported by the network configuration device to be monitored in the inter-device frame and the IP frame, respectively. Further comprising two processing means;
The network management system according to appendix 1.
[0091]
(Supplementary Note 6) The representative network configuration device is:
Associating information for specifying the SNMP message used by the monitoring device with information for specifying the message supported by the network device to be monitored for reference by the second processing means And further has second holding means for holding;
The network management system according to appendix 5.
[0092]
【The invention's effect】
As described above, according to the present invention, low-cost and high-speed management is realized by converting communication between a representative network constituent device and a monitoring device among a plurality of network constituent devices constituting a network. Information can be collected.
[0093]
In particular, when a network configuration device that does not have an IP address, such as an existing device, is converted to a monitoring IP, a frame conversion (address conversion) function is added only to a representative network configuration device to which the monitoring device is connected. It can be realized at a low price.
[0094]
Further, according to the present invention, since the monitoring device uses SNMP, even if it is a network configuration device having no IP address, the monitoring device can be installed without installing a dedicated device such as a proxy agent outside. It is only necessary to add a message conversion function to the connected representative network component device, and integrated monitoring by SNMP is possible at a low price.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a system configuration according to a first embodiment of this invention.
FIG. 2 is a diagram showing a detailed configuration of an address association table.
FIG. 3 is a diagram for explaining frame conversion (address conversion);
FIG. 4 is a diagram for explaining a specific operation example of the system according to the first embodiment;
FIG. 5 is a block diagram showing a system configuration according to a second embodiment of the present invention.
FIG. 6 is a diagram for explaining message conversion.
FIG. 7 is a diagram for explaining a specific operation example of the system according to the second embodiment;
FIG. 8 is a diagram for explaining a specific operation example of the system according to the second embodiment;
[Explanation of symbols]
1 Network management system
2 Transmission equipment
3 Transmission line
4 network
5 IP network line (IP line)
6 Monitoring device
20 processor
21 Address-related table
22 In-device monitoring unit
23 Object conversion table
30 Branch function
31 Frame conversion function part
32 Message conversion function
40 IP frames
50 Frame between transmitters

Claims (5)

A network including a plurality of network constituent devices each assigned a unique device number and performing communication using an inter-device frame including the device number; and a transmission path connecting these network constituent devices;
A network configuration device to be monitored is directly connected to a representative network configuration device among the plurality of network configuration devices via a IP line that transmits an IP frame without using a proxy agent, and is monitored by an IP address included in the IP frame. A monitoring device that collects management information by specifying;
The representative network component device is also subject to monitoring by the monitoring device,
An interconversion result between the device number uniquely assigned to the plurality of network configuration devices and the IP address used by the monitoring device to identify the network configuration device to be monitored is represented as the inter-device frame and First processing means for enabling collection of the management information reflected in each of the IP frames;
Network management system. The representative network component device is:
For reference by the first processing means, the device number uniquely assigned to the plurality of network configuration devices, and the IP used by the monitoring device to identify the network configuration device to be monitored A first holding means for holding the address in association with the address;
The network management system according to claim 1. The inter-device frame includes a device number of a transmission source and a transmission destination as the device number, and the IP frame includes an IP address of a transmission source and a transmission destination as the IP address,
The network management system according to claim 1, wherein the first processing unit mutually copies data in the data part of the inter-device frame and the IP frame. The representative network component device is:
The management information can be collected by reflecting the interconversion result between the SNMP message used by the monitoring device and the message supported by the network configuration device to be monitored in the inter-device frame and the IP frame, respectively. Further comprising two processing means;
The network management system according to claim 1. The representative network component device is:
Associating information for specifying the SNMP message used by the monitoring device with information for specifying the message supported by the network device to be monitored for reference by the second processing means And further has second holding means for holding;
The network management system according to claim 4.

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