JPH07321885A - Network managing system - Google Patents

Abstract

PURPOSE:To define the managing objects of different managing protocols as the same managing object. CONSTITUTION:The managing object of an upper rank given with a management operation request from a manager 101 is changed to the managing object of a lower rank by a managing object changing part 107 and converted to the managing protocol of the lower rank corresponding to the managing object of the lower rank by a managing protocol converting part 106 while referring to protocol classification managed by a converting protocol classification managing part 119 based on this changed managing object of the lower rank. When the managing objects to be managed by the different managing protocols exist in the lower rank, the protocol classification of the managing object changed by the managing object changing part 107 is managed by the converting protocol classification managing part 119. Thus, the managing object of the upper rank can be managed corresponding to the plural managing objects to be managed by the different managing protocols.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a network management system for managing network domains managed by different management protocols in an integrated and hierarchical manner. The present invention relates to a hierarchical network management system having functions such as coordinating, load balancing of managers for topology management, and time reduction in synchronization processing.

[0002]

2. Description of the Related Art Computers with high performance and low price, LAN
With the advancement of technology, a form in which a plurality of computers are connected to a LAN to perform distributed processing is rapidly becoming widespread. Further, such a form is being developed to construct a company-wide network system by connecting LANs distributed in each office by a wide area network. In order to safely and efficiently operate such a complicated and large-scale network system, management of the network and the system is very important. As a conventional hierarchical network management system of this type, RFC 1214 “OSI” issued by IAB is used.
Internet Management: Man
generation Information Bas
e "," Outline and features of Hitachi integrated network management system NETM system "(The 42nd National Conference of Information Processing Society 2T-1)," Toward integrated network management "
(The 43rd National Conference of IPSJ 1V-3, 1V-
4, 1V-5, 1V-6, 1V-7), "Management information and protocol conversion method in integrated network management system" (44th National Conference of Information Processing Society 1L-6),
"Integrated network management system MELMANAGE
R ”(The 46th National Convention of IPSJ 1N-3, 2N
-2, 2N-3), "Integrated management of distributed LAN domain by OSI"("Information Processing Society of Japan", Vol. 34, No. 6)
No.) etc.

FIG. 11 is a block diagram showing a functional configuration of a conventional hierarchical network management system. In FIG. 11, reference numeral 101 denotes a manager as an overall management device that manages the entire network.
Is a management information processing unit 102 and a management protocol 1 transmission / reception unit 1
04a. The management information processing unit 102
A management information definition storage unit 103, a management information management unit 114, and a management information analysis unit 112 are provided. Reference numeral 105 denotes a proxy agent serving as a management conversion device. The proxy agent 105 includes a management protocol 1 transmission / reception unit 104b, a management protocol conversion unit 106, a management target conversion unit 107, a scope processing unit 115, and a synchronization processing unit 11.
6, event occurrence time management unit 113, and management protocol 2
It is composed of a transmitting / receiving unit 108b. The scope processing unit 115 includes a scope division control unit 126. The event occurrence time management unit 113 includes a time correction unit 123 and a time evaluation unit 124. Reference numeral 109 denotes an agent as a management target management device that manages management targets. This agent 109 is a management protocol 2 transmission / reception unit 108a.
The management information collection unit 110 and the management target 111 are included. Reference numeral 117 is a transmission medium B1 between the manager 101 and the proxy agent 105, and 128 is a transmission medium B2 between the proxy agent 105 and the agent 109. Details of each of the above components will be described in the following operation description.

FIG. 12 is a block diagram showing an actual system in a conventional hierarchical network management system.
In FIG. 12, reference numeral 31 is an integrated management device that manages the entire system. 32 is a LAN management device that manages the LAN 38; 33 is a transmission network management device that manages the transmission network 39;
4 is a packet switching network management device for managing the packet switching network 40, 35 is a circuit switching network management device for managing the circuit switching network 41, 36 is a dedicated domain management device for managing the domain of the individual device 42, and 37 is a gateway. .

FIG. 13 is a diagram for explaining the management target conversion processing in the management target conversion unit 107 in FIG. 1 in the conventional hierarchical network management system, and in FIG.
Is the upper layer management target group, and 52 is the lower layer management target group.
Reference numeral 53 is a management target M1 included in the upper layer management target group 51. 54 is a management target M2, 55 is a management target M3, 56
Is a management target M4, and the management targets M2, M3, M4 are included in the lower layer management target group 52.

Next, the operation of the conventional system will be described with reference to FIGS. In the conventional hierarchical network management system shown in FIG.
Reference numeral 1 is a management information definition storage unit 103 of the management information processing unit 102.
The management protocol 1 transmission / reception unit 104a transmits a management operation request to the proxy agent 105 with reference to FIG. The proxy agent 105 communicates with the manager 101 by the management protocol 1 transmission / reception unit 104b to receive the management operation request, converts the management protocol 1 into the management protocol 2 by the management protocol conversion unit 106, and converts the management protocol 1 by the management target conversion unit 107. Converts the management target for the management operation request to the management target corresponding to management protocol 2,
The agent 109 is managed by communicating with the agent 109 via the management protocol 2 transmission / reception unit 108b. The agent 109 communicates with the proxy agent 105 by the management protocol 2 transmission / reception unit 108a to receive the management operation request, operates the management information on the management target 111 by the management information collection unit 110, and causes the management protocol 2 transmission / reception unit 108a to operate. The management operation response is transmitted to the proxy agent 105. The proxy agent 105 synchronizes the management operation response received from the agent 109 by the management protocol 2 transmission / reception unit 108b with the synchronization processing unit 116, and the management protocol conversion unit 1
In 06, the management protocol conversion unit 107 converts the management target for the management operation response into a management target corresponding to the management protocol 1, and the management protocol 1 transmission / reception unit 104b transmits the management request response to the manager 101. To do. The manager 101 uses the proxy agent 1 in the management protocol 1 transceiver 104.
05 receives the management operation request from the management information analysis unit 112.
The management target 111 is managed by referring to the management information definition storage unit 103 and analyzing the management information of the management operation response.

By the way, in the management target conversion unit 107 of the conventional system, as shown in FIG. 13, a management target M1 managed by the management protocol 1 in the upper layer, a management target M2 managed by the management protocol 2 in the lower layer, The management object M3 and the management object M4 are converted into a plurality of management objects.

In the conventional hierarchical network management system shown in FIG. 11, the event occurrence time, which is one of the management information, is reported to the proxy agent 105 by the agent 109 with a time stamp when the event occurs. With reference to the current time at which an event is reported by the event occurrence time management unit 113 of the proxy agent 105, the time information of the reported event is evaluated by the time evaluation unit 124 and corrected by the time correction unit 123. It is managed by preparing.

Further, in the conventional hierarchical network management system, the network topology information in the manager 101 at the time of initialization sets the address information for each proxy agent 105 in the management information management unit 114 of the manager 101. And manage.

Further, in the conventional hierarchical network management system, the proxy agent 105 receives the management operation request with synchronization of the management protocol 1 from the manager 101 at the management protocol 1 transmission / reception unit 104, and causes the scope processing unit 115 to receive it. The scope is processed to create a list of management targets, and the management target conversion unit 107 converts the management targets by dividing the management target list by the scope division control unit 126 for more efficient synchronization processing. , The conversion target issuance processing to the management target is executed in the order of the management target list formed by the scope processing of the management target included in the management operation request of the management protocol 1, or the list can be divided. The processes were executed in the order of the list, and the synchronization processing unit 116 synchronously processed the response to the secondary operation request.

Further, in the conventional hierarchical network management device, as shown in FIG. 12, a LAN management device 32 which manages the LAN 38 by the management protocol 2 and a transmission network management device which manages the transmission network 39 by the management protocol 3. 33, a packet switching network management device 34 that manages the packet switching network 40 by the management protocol 4, a circuit switching network management device 35 that manages the circuit switching network 41 by the management protocol 5, and an individual device 42 similar to these. Domain management protocol 6
The dedicated domain management device 36 managed in step 1 is integratedly managed by the integrated management device 31 by the management protocol 1.

[0012]

In the conventional hierarchical network management system, the processing is performed as described above, and in the proxy agent, the conversion of the management target from the upper layer to the lower layer is one to N (N is However, if the lower layer management targets are managed by different management protocols, the management target conversion unit converts the management targets into multiple management targets managed by different management protocols. I couldn't.

Further, in the conventional hierarchical network management system, the processing is performed as described above, and the event occurrence time management unit of the proxy and the agent evaluates and corrects the event occurrence time based on the time of each proxy agent. However, the consistency with the event occurrence time managed by other proxy agents was lacking in accuracy.

Further, in the conventional hierarchical network management system, the processing is performed as described above, and the manager manages the address for each proxy agent as the network topology information. It was difficult to manage the information.

Further, in the conventional hierarchical network management system, the processing is performed as described above, the management target is scope-processed in response to the management operation request from the manager including the synchronization, and the order of the list of the corresponding management objects or , The list is divided into sub-lists in order, the management target conversion unit converts the management target, issues the secondary management operation request, and synchronizes the synchronization processing unit. There is a problem that the processing time becomes long because the order of occurrence by the response time is not taken into consideration.

The present invention has been made in order to solve the above problems, and makes the management targets of different management protocols the same management target, matching the time as a system, load balancing of managers for topology management, An object of the present invention is to provide a hierarchical network management system capable of unifying management in a hierarchical network management system and improving management processing efficiency by a time shortening function in synchronization processing.

[0017]

A first aspect of the present invention is directed to a management protocol conversion unit for converting between a management protocol of an upper layer and a plurality of management protocols of a lower layer, and a management target of the upper layer and a management target of the lower layer. The management conversion unit (proxy agent) is provided with a management target conversion unit that performs conversion between the management protocol conversion unit and a conversion protocol type management unit that manages the converted lower-layer management target protocol type. When the proxy agent receives the management operation request of the management protocol of the upper layer from the general management device (manager), the management object of the upper layer for the received management operation request is managed by the management object conversion unit in the lower layer. Converted to the target, refer to the protocol type managed by the conversion protocol type management unit from the converted management target,
By performing protocol conversion by the management protocol conversion unit, it is possible to manage a management target in a lower layer than a management conversion device managed by a plurality of different management protocols as one management target from the overall management device. To do.

A second aspect of the present invention is an event occurrence time management unit that evaluates and corrects an event occurrence time, which is information associated with an event, an inter-converter communication transmission / reception unit that processes communication with another management conversion device, and the like. The management conversion device and the time synchronization unit that synchronizes time are provided in the management conversion device (proxy agent), and the event occurrence time management unit stores time information associated with an event that occurred in the management target management device (agent). The time synchronization unit synchronizes the times with each other by evaluating and correcting the times synchronized with each other, and thereby the times of the respective management target management apparatuses are matched.

A third aspect of the present invention is a communication transmission / reception unit between conversion devices (communication transmission / reception unit between proxy agents) that processes communication with another management conversion device (proxy agent).
And a compatriot address information management unit that manages address information of the compatriot management conversion device, the compatriot address information management unit is configured to communicate between the conversion devices by a protocol between the compatriot management conversion devices. It is characterized in that the address information of the other management conversion device is collected and accumulated via the, and the accumulated address information is provided to the overall management device (manager) as topology information.

A fourth aspect of the invention is a protocol conversion unit for converting between a management protocol of an upper layer and a plurality of management protocols of a lower layer, and a scope process for processing a scope included in a management operation request of a management protocol of the upper layer. Section, a management target conversion unit that performs conversion between the management target of the upper layer and the management target of the lower layer, a priority processing management unit that manages the operation processing priority of the management target, and a secondary management operation request to the lower layer. The management protocol converter (proxy agent) is provided with a synchronization processing unit that processes the synchronization of
When the management conversion device receives a management operation request from the management conversion device, the scope processing unit processes the scope included in the management operation request of the management protocol of the upper layer, and the management target conversion unit detects the management target of the upper layer. Converted to the lower layer management target, the upper layer management protocol is converted to the lower layer management protocol by the management protocol conversion unit, and the secondary management is sequentially performed according to the priority processing order information for each management target of the priority processing management unit. It is characterized in that the operation request is issued and the secondary processing operation request is synchronized by the synchronization processing unit.

According to a fifth aspect of the present invention, in the configuration of the fourth aspect of the present invention, a priority control section for controlling the operation processing priority according to the situation is provided in the management protocol converter, and the priority processing management section manages the priority. Secondary management operation requests are issued in order according to the priority processing order information for each, and when the synchronization processing unit synchronizes the secondary management operation requests, depending on the state of the response result to the secondary management operation request, The priority control unit is configured to change the operation processing priority.

[0022]

According to the first aspect of the present invention, the management objects in the upper layer and the management objects in the lower layer do not always correspond one-to-one, but are converted into a plurality of management objects in the management object conversion unit.
When there is a management target managed by a different protocol in the lower layer, the protocol type of the management target of the lower layer converted by the management target conversion unit is managed by the protocol type management unit. Therefore, the management target of the upper layer can be managed in association with a plurality of management targets managed by different protocols, so that the protocol of the management target can be transmitted.

According to the second aspect of the invention, the event occurrence times in the managed device (agent) are matched by being evaluated and corrected in the time synchronization unit, but the time that is the reference for evaluation and correction by the time synchronization unit. Is synchronized between the management protocol converters (proxy agents), so that they are matched on a system-by-system basis.

In the third invention, the topology information of the management protocol converter (proxy agent) is the management protocol converter (proxy) of each fellow through the communication transmitter / receiver between converters (communication transmitter / receiver between proxy / agent). -As a result of communication between agents) and the exchange of address information, the address information of the management protocol converters (proxy agents) of the same country is accumulated in the same country address information management unit. As a result, the overall management device (manager) communicates with one of the management protocol converters (proxy agents) of the respective siblings, and the management protocol converter (proxy agent) of the siblings.
The address information of can be obtained.

According to the fourth aspect of the present invention, the management target list created by the scope processing unit to perform scope processing in response to the management operation request including synchronization from the overall management apparatus (manager) is converted into management target by the management target conversion unit. In addition, when a secondary management operation request is issued after the protocol is converted by the management protocol conversion unit, the priority processing management unit considers the response time that differs for each management target, and the operation processing priority for the processing for each management target. Is added, and a secondary management operation request for a management target that requires a long response time is issued first.

In the fifth aspect of the present invention, in response to a management operation request including synchronization from the overall management device (manager), the management target list created by the scope processing is converted into the management target, and further converted into the protocol, and the secondary management operation is performed. When a request is issued, the processing time for each managed object is given an operation processing priority in consideration of the different response time for each managed object, and the secondary management operation request for the managed object that requires a long response time is issued first. The operation control priority is dynamically changed by the priority control unit according to the change in the response time.

[0027]

Embodiments of the present invention will be described below with reference to the drawings. 1 and 2 are block diagrams showing the functional configuration of a hierarchical network management system according to each of the first to fifth embodiments of the present invention. In FIG. 1 and FIG. 2, a manager 10 as an overall management device that manages the entire network
1 is the management information definition storage unit 103, the management information management unit 114, and the management information analysis unit 1 as described in FIG.
It is composed of a management information processing unit 102 having 12 and a management protocol 1 transmission / reception unit 104a. The agent 119 as a management target management device includes a management protocol N transmission / reception unit 108a, a management information collection unit 110, and a management target 111.

The proxy agent 105 as a management conversion device performs management protocol 1 transmission / reception section 104b for processing communication of the management protocol 1 of the upper layer, and conversion between the management protocol of the upper layer and a plurality of management protocols of the lower layer. Management protocol conversion unit 106, management target conversion unit 10 for converting between upper layer management targets and lower layer management targets
7, a conversion protocol type management unit 119 that manages the converted lower layer management target protocol type, an event occurrence time management unit 113 that evaluates and corrects the event occurrence time that is information associated with the event, and another proxy agent Proxy agent communication transmission / reception unit 121 as an inter-translation device communication transmission / reception unit that processes communication with the communication device, compatriot address information management unit 122 that manages address information of the proxy agent of the compatriot, management operation request of management protocol of upper layer Processing unit 11 for processing the scope included in
5, a priority processing management unit 120 that manages the priority of the operation processing to be managed, a synchronization processing unit 116 that processes the synchronization of the secondary management operation request to the lower layer, and the management protocol N of the lower layer.
It is composed of a management protocol N transmission / reception unit 108b that processes communication (N is an integer of 2 or more). The priority processing management unit 120 has a priority control unit 127 that controls the operation processing priority according to the situation. The event occurrence time management unit 113 includes a time synchronization unit 125 that synchronizes time with another proxy agent, a time correction unit 123 that corrects time, and a time evaluation unit 124 that evaluates time.

Embodiment 1 (corresponding to claim 1). FIG. 3 is a diagram for explaining the management target conversion processing in the first embodiment. In the figure, 61 is an upper layer management target group, and 63 is a management target M1 included in the upper layer management target group 61. . 62
Is a layer management target group below, and 64, 65, 66 are management targets M2, M3, M4 included in the lower layer management target group 62.

FIG. 4 is a diagram showing a management target table 71 provided in the management target conversion unit 107 in the first embodiment, and FIG. 5 is a protocol type conversion table provided in the conversion protocol type management unit 19 in the first embodiment. It is a figure which shows 72.

In the first embodiment, in the hierarchical network management system shown in FIGS. 1 and 2, a management protocol conversion unit 106 for converting between a management protocol of an upper layer and a plurality of management protocols of a lower layer, Management target conversion unit 107 that performs conversion between a layer management target and a lower layer management target
And a conversion protocol type management unit 119 that manages the converted lower layer management target protocol type are provided in the proxy agent 105, and the management operation request of the upper layer management protocol from the manager 101 is sent to the proxy agent 105.
When the agent 105 receives the management operation request, the management object in the upper layer with respect to the received management operation request is converted into the management object in the lower layer by the management object conversion unit 107, and the converted management object is transferred to the conversion protocol type management unit 119. Management protocol conversion unit 10 by referring to the protocol type managed by
The proxy agent 10 managed by a plurality of different management protocols by converting the protocol in 6.
It is characterized in that the management target in the lower layer than 5 can be managed as one management target by the manager 101.

Next, the operation of the first embodiment will be described with reference to FIGS. In the manager 101, the management information processing unit 102 requests the management protocol 1 transmission / reception unit 104a for a communication process for a management operation request to the management target M1 based on the information in the management information definition storage unit 103. Proxy
In the agent 105, when the management protocol 1 transmission / reception unit 104b receives the management operation request, the management target conversion unit 107 refers to the management target conversion table 71 to convert the upper layer management target to the lower layer management target. The conversion protocol type management unit 119 inquires of the conversion protocol type management unit 119 for each management object that has been converted and converted.
2, the management protocol conversion unit 106 converts the lower layer management protocol corresponding to the lower layer management target, and issues a secondary management operation request to the corresponding management protocol N transmission / reception unit 108b. At this time, the management target M1 of the upper layer is the management target M of the lower layer by the management target conversion unit 107.
2, the management target M3 and the management target M4 may be converted into a plurality of management objects, and the converted management objects may be managed by different management protocols. .

Embodiment 2 (corresponding to claim 2). Example 2
Between an event occurrence time management unit 113 that evaluates and corrects an event occurrence time that is information associated with an event and a proxy agent that processes communication with another proxy agent in the hierarchical network management system illustrated in FIG. The proxy agent 105 is provided with a communication transmission / reception unit and a time synchronization unit 125 that synchronizes time with other proxy agents, and the event occurrence time management unit 113 stores time information associated with an event generated by the agent 109 as a time. A feature is that the time held by each agent is matched by evaluating and correcting the time synchronized by the synchronization unit 125 as a reference.

Next, the operation of the second embodiment will be described with reference to FIGS. The event that has occurred in the agent 109 is reported to the proxy agent 105, but there is the time of occurrence as management information that accompanies the event report, and the internal time of the agent 109 is stamped as a time stamp. In the proxy agent 115, the time evaluation of the event occurrence time management unit 13 is based on the time data managed by the time synchronization unit 25 that synchronizes the time between other proxy agents via the communication unit 121 for communication between proxy agents. The time is corrected by the time correction unit 23 by the evaluation by the unit 24. As a result, the time information is made consistent, and the event report received via the management protocol 1 transmission / reception unit 104a in the manager 101 can be accurately time-series processed in the management information analysis unit 112, improving reliability. To do.

Embodiment 3 (corresponding to claim 3). FIG. 6 is a diagram showing a topology management process in the third embodiment.
Is a manager and 105a and 105b are fellow proxy agents. 109 is an agent and 122 is a compatriot address information management unit. Reference numeral 73 is a companion address information table.

In this embodiment, in the hierarchical network management system shown in FIG. 1 and FIG. 2, the proxy / agent communication transmitting / receiving unit 121 for processing communication with other proxy agents and the address information of the sibling proxy agents. And a companion address information management unit 122 that manages the proxy agent 105. The companion address information management unit 122 uses the protocol between the proxy agents of the compatriots to communicate with another proxy via the inter-proxy agent communication transmission / reception unit 121. It is characterized in that the address information of the agent is collected and accumulated, and the accumulated address information is provided to the manager 101 as topology information.

Next, the operation of the third embodiment will be described with reference to FIGS. 1, 2 and 6. In the proxy agent 105a, the topology information of the fellow proxy agent 105a is exchanged by exchanging the address information between the fellow proxy agents 105a in the fellow address information management unit 122 via the proxy agent communication transmitting / receiving unit 121. Are stored in the compatriot address information table 73, and the topology information is stored in the manager 101.
To provide. As a result, the manager 101 can know the address of the fellow proxy agent 105a from one location, and also can know the address information of the fellow proxy agent 105b from one location.

Embodiment 4 (corresponding to claim 4). FIG. 7 is a diagram illustrating the priority table 74 included in the priority processing management unit 120 according to the fourth embodiment.

FIG. 8 is a diagram showing a processing sequence of a management operation request with synchronization in the fourth embodiment.
Is a scope processing unit, 126 is a scope division control unit, 12
Reference numeral 0 is a priority processing management unit, 107 is a management target conversion unit, and 119.
Is a conversion protocol type management unit, and 106 is a management protocol conversion unit.

FIG. 9 is a diagram showing a processing sequence of a management operation response with synchronization in the fourth embodiment, in which 115 is a scope processing unit, 126 is a scope division control unit, and 116.
Is a synchronization processing unit, 107 is a managed conversion unit, 119 is a conversion protocol type management unit, and 106 is a management protocol conversion unit.

In the fourth embodiment, in the hierarchical network management system shown in FIGS. 1 and 2, a management protocol conversion unit 106 for converting between a management protocol of an upper layer and a plurality of management protocols of a lower layer, and an upper layer. Scope processing unit 115 that processes the scope included in the management operation request of the management protocol of the above, the management target conversion unit 107 that converts between the management target of the upper layer and the management target of the lower layer, and the operation processing priority of the management target. A priority processing management unit 120 that manages data and a synchronization processing unit 1 that processes synchronization of a secondary management operation request to a lower layer.
16 is provided in the proxy agent 105, and when the proxy agent 105 receives the management operation request from the manager 101, the scope processing unit 115 processes the scope included in the management operation request of the upper layer management protocol, The management target conversion unit 107 converts a higher layer management target into a lower layer management target, the management protocol conversion unit 106 converts a higher layer management protocol into a lower layer management protocol, and the priority processing management unit 120 manages the lower layer management protocol. The secondary management operation request is issued in order according to the priority processing order information for each, and the synchronization processing unit 116 is configured to synchronize the secondary management operation request.

Next, the operation of the fourth embodiment will be described with reference to FIGS. 1, 2, 7 and 8. In the proxy agent 105, when a management operation request with synchronization from the manager 101 is received by the management protocol 1 transmission / reception unit 104b, the scope processing unit 115 performs scope processing to generate a management target list, and in order to improve synchronization efficiency. The division is performed by the scope division control unit 126 to generate a division management target list. The priority processing management unit 120 refers to the priority of the management target of the divided management target list in the priority table 74 to determine the processing order, and the management target conversion unit 107 converts the management target in that order, and manages the management target. Conversion by protocol conversion unit 106 Conversion protocol type management unit 119
The management protocol is converted by referring to and the secondary management operation request is issued. The protocol conversion unit 106 refers to the conversion protocol type management unit 119 to inversely convert the management protocol, the management target conversion unit 107 reversely converts the management target, and the synchronization processing unit 116 performs synchronous processing. , The management objects divided by the scope division control unit 126 are combined and a management operation response is returned to the manager 101. As a result, it becomes possible for the priority processing management unit 120 to give priority to the secondary operation request processing for each management target.

Embodiment 5 (corresponding to claim 5). FIG. 10 is a diagram showing a processing sequence of a management operation response with synchronization in the fifth embodiment, in which 115 is a scope processing unit, 12
6 is a scope division control unit, 116 is a synchronization processing unit, 120
Is a priority processing management unit, 127 is a priority control unit, 74 is a priority management table, 107 is a managed conversion unit, 119 is a conversion protocol type management unit, and 106 is a protocol conversion unit.

In the fifth embodiment, in the hierarchical network management system shown in FIGS. 1 and 2, the priority control unit 127 for controlling the above-mentioned operation processing priority according to the situation is provided with the proxy agent 105 and the priority processing management unit. When the secondary management operation requests are issued in order according to the priority processing order information of each management target of 120 and the secondary management operation requests are synchronized by the synchronization processing unit 116, the response result of the secondary management operation request is displayed. The operation control priority is changed by the priority control unit 127 depending on the state.

Next, the operation of the fifth embodiment will be described with reference to FIGS. 1, 2 and 10. As described in the fourth embodiment, when the response to the secondary management operation request is synchronized by the synchronization processing unit 116, the response status information is used as the priority control unit 127 of the priority processing management unit 120. The operation processing priority of each management target is evaluated and the priority table 74 is changed to dynamically add the operation processing priority to the change in the response status.

[0046]

As described above, according to the invention of claim 1, in the management object conversion in the management protocol converter, the management objects in the upper layer and the management objects in the lower layer do not necessarily correspond one-to-one, When converted to multiple management targets, but if there are management targets managed by different management protocols in the lower layers, the protocol type of the management target converted by the management target conversion unit is set by the protocol type management unit. Since it is managed, the management object of the upper layer can be managed in correspondence with multiple management objects managed by different management protocols, so that the protocol of the management object can be transparent, and the regional network where management protocols are mixed is hierarchized. Type network management system can be realized.

According to the second aspect of the present invention, the management conversion device which has received the time information associated with the occurrence of the event in the management target management device is matched by evaluating and correcting the time information of the event occurrence. However, by synchronizing the time, which is the reference for evaluation and correction, between the management and conversion devices, it is possible to make it consistent for each system, improve the reliability of time information, and perform more accurate time series processing. The effect of becoming is obtained.

According to the third aspect of the invention, the topology information of the management conversion apparatus is communicated between the management conversion apparatuses of the same country, and the address information is exchanged to exchange the address information of the management conversion apparatus of the same country. By storing the information, the central management device can communicate with one of the management conversion devices of each sibling, and obtain the address information of the management conversion device of that sibling, so that the initial setting information of the general management device decreases and The management conversion device group can be managed as one domain, and the effect is that management can be simplified and integrated.

In addition, according to the invention of claim 4, in response to a management operation request including synchronization from the overall management device, the management target list created by scope processing is converted into management target, and further protocol conversion is performed, and the secondary management is performed. When issuing a management operation request,
By considering the response time that differs for each management target, by assigning the operation processing priority to the processing for each management target, it is possible to issue a secondary management operation request to the management target that requires a long response time in advance. Since the time can be shortened and the processing priority can be set,
The processing can be indirectly scheduled, and the processing efficiency is improved.

Further, according to the invention of claim 5, in response to a management operation request including synchronization from the overall management apparatus, the management target list created by scope processing is converted into a management object, further protocol conversion is performed, and a secondary conversion is performed. When issuing a management operation request,
By considering the response time that differs for each management target, by assigning the operation processing priority to the processing for each management target, it is possible to issue a secondary management operation request to the management target that requires a long response time in advance. The processing time can be shortened, and by dynamically changing the operation processing priority according to the status of the secondary management operation response time, it is possible to schedule processing according to the status change and improve processing efficiency. The effect is obtained.

[Brief description of drawings]

FIG. 1 is a block diagram showing a functional configuration of a hierarchical network management system according to first to fifth embodiments of the present invention.

FIG. 2 is a block diagram showing a continuation of FIG.

FIG. 3 is a diagram illustrating a management target conversion process according to the first embodiment.

FIG. 4 is a diagram illustrating a management target table included in a management target conversion unit according to the first embodiment.

FIG. 5 is a diagram showing a protocol type conversion table provided in a conversion protocol type management unit in the first embodiment.

FIG. 6 is a diagram illustrating a topology management process according to the third embodiment.

FIG. 7 illustrates a priority table included in a priority processing management unit according to the fourth exemplary embodiment.

FIG. 8 is a diagram showing a processing sequence of a management operation request with synchronization in the fourth embodiment.

FIG. 9 is a diagram showing a processing sequence of a management operation response with synchronization in the fourth embodiment.

FIG. 10 is a diagram showing a processing sequence of a management operation response with synchronization in the fifth embodiment.

FIG. 11 is a block diagram showing a functional configuration of a conventional hierarchical network management system.

FIG. 12 is a block diagram showing an actual system in a conventional system.

FIG. 13 is a diagram for explaining a management target conversion process in the management target conversion unit in the conventional system.

[Explanation of symbols]

101 manager (overall management device), 102 management information processing unit, 103 management information definition storage unit, 104a, 1
04b management protocol 1 transmission / reception unit, 105 proxy agent (management conversion device), 106 management protocol conversion unit, 107 management target conversion unit, 108a, 10
8b Management protocol N transmission / reception unit, 109 agent (managed device), 110 management information collection unit, 1
11 management target, 112 management information analysis unit, 113 event occurrence time management unit, 114 management information management unit, 115
Scope processing unit, 116 Synchronization processing unit, 117 Transmission medium B1, 118 Transmission medium BN, 119 Conversion protocol type management unit, 120 Priority processing management unit, 121 Proxy / agent communication transmission / reception unit (translation device communication transmission / reception unit), 122 Country address information management unit, 123
Time correction unit, 124 Time evaluation unit, 125 Time synchronization unit, 126 Scope division control unit, 127 Priority control unit, 128 Transmission medium B2, 31 Integrated management device, 32
LAN management device, 33 transmission network management device, 34 packet switching network management device, 35 circuit switching network management device, 36
Dedicated domain management device, 37 gateway, 38
LAN, 39 transmission network, 40 packet switching network, 41
Circuit switching network, 42 individual devices, 51 upper layer management target group, 52 lower layer management target group, 53 management target M1, 5
4 management target M2, 55 management target M3, 56 management target M4, 61 upper layer management target group, 62 lower layer management target group, 63 management target M1, 64 management target M2, 6
5 management target M3, 66 management target M4, 71 management target conversion table, 72 protocol type conversion table,
105a, 105b fellow proxy agents,
73 compatriot address information table, 74 priority table.

Claims (5)

[Claims] 1. An overall management device that manages the entire network, a managed device management device that manages managed objects, and management protocol conversion for upper and lower layers between the overall management device and the managed device management device. In a network management system that includes a management conversion device that performs management target conversion, and that manages networks with different management protocols for each layer, a management protocol conversion unit that converts between a higher layer management protocol and a plurality of lower layer management protocols A management target conversion unit that performs conversion between a management target of an upper layer and a management target of a lower layer, and a conversion protocol type management unit that manages the protocol type of the converted management target, provided in the management conversion device. Received when the management conversion device receives a management operation request of the upper layer management protocol from the general management device. The management object of the upper layer for the management operation request is converted to the management object of the lower layer by the management object conversion unit, and the protocol type managed by the conversion protocol type management unit is referred from the converted management object, By performing protocol conversion by the management protocol conversion unit, it is possible to manage a management target in a lower layer than a management conversion device managed by a plurality of different management protocols as one management target from the overall management device. Network management system. 2. A general management device for managing the entire network, a management target management device for managing a management target, and management protocol conversion for upper and lower layers between the general management device and the management target management device. In a network management system that includes a management conversion device that performs management target conversion and that manages networks with different management protocols for each layer, an event occurrence time management unit that evaluates and corrects the event occurrence time that is information associated with an event, and others. The management conversion device is provided with an inter-converter communication transmission / reception unit that processes communication with the management conversion device, and a time synchronization unit that takes a time cycle with other management conversion devices, and the event occurrence time management unit manages the management. By evaluating and correcting the time information associated with the event that occurred in the target management device with reference to the time synchronized by the time synchronization unit. The network management system is configured so that the times of the respective management target management devices are matched. 3. An overall management apparatus for managing the entire network, a managed object management apparatus for managing managed objects, management protocol conversion for upper layers and lower layers between the overall management apparatus and the managed object management apparatus, and In a network management system that includes a management conversion device that performs management target conversion and manages a network that has a different management protocol for each layer, a communication transmission / reception unit between conversion devices that processes communication with other management conversion devices, and management of fellow people The management conversion device is provided with a compatriot address information management unit that manages address information of the conversion device, and the compatriot address information management unit uses the protocol between the management conversion devices of the compatriots to communicate with each other via the inter-conversion device communication transmitting / receiving unit. Management management device's address information is collected and accumulated, and this accumulated address information is used as topology information A network management system configured to be provided to a management device. 4. An overall management device that manages the entire network, a managed device management device that manages managed objects, and management protocol conversion for upper and lower layers between the overall management device and the managed device management device. In a network management system that includes a management conversion device that performs management target conversion, and that manages networks with different management protocols for each layer, a management protocol conversion unit that converts between a higher layer management protocol and a plurality of lower layer management protocols And a scope processing unit that processes the scope included in the management operation request of the management protocol of the upper layer, a management target conversion unit that converts between the management target of the upper layer and the management target of the lower layer, and the operation processing of the management target The priority processing management unit that manages the priority and the synchronization processing unit that processes the synchronization of the secondary management operation request to the lower layer are managed as described above. When the management conversion device is provided in the conversion device and the management conversion device receives the management operation request from the overall management device, the scope processing unit processes the scope included in the management operation request of the management protocol of the upper layer to manage the management target. The conversion unit converts the upper layer management target to the lower layer management target, the management protocol conversion unit converts the upper layer management protocol to the lower layer management protocol, and the priority processing management unit gives priority to each management target. A network management system characterized in that secondary management operation requests are issued in order in accordance with processing order information, and the synchronization processing unit synchronizes the secondary management operation requests. 5. A priority control unit for controlling the operation processing priority according to the situation is provided in the management protocol conversion device, and secondary management is sequentially performed according to priority processing order information for each management target of the priority processing management unit. When the operation request is issued and the secondary management operation request is synchronized by the synchronization processing unit, the priority control unit determines the operation processing priority according to the state of the response result to the secondary management operation request. The network management system according to claim 4, wherein the network management system is configured to be changed.