KR100427616B1 - Method of Managing Real-time Management Information in the Network Management System - Google Patents

Abstract

The present invention relates to a management method for real-time management information to optimize the polling period for the SNMP agent in the SNMP manager in the network management system.

According to the present invention, the network management system requests information only for specific MIBs that need to be checked according to the contents of a trap message received from the SNMP manager, compared to a method of periodically requesting values of MIBs used in the related art. It can reduce the amount of network traffic, and also utilizes trap messages defined in detail to monitor and manage events occurring in the SNMP agent device in real time, and to poll when the SNMP agent does not receive trap messages for a certain period of time. By doing it automatically, more reliable management can be achieved.

Description

{Method of Managing Real-time Management Information in the Network Management System}

The present invention relates to a method for managing real-time management information in a network management system, and more particularly, to a method for managing real-time management information for optimizing a polling cycle for an SNMP agent in an SNMP manager in a network management system.

As shown in FIG. 1, a conventional network management system using SNMP is composed of an SNMP manager 11, which is a management agent, and an SNMP agent 12, which is a management target.

Here, the SNMP manager 11 requests management information, that is, management information bases (MIBs) from the SNMP agent 12, and maintains or updates management information through messages received from the SNMP agent 12. .

In addition, the SNMP manager 11 manages the current operation of the SNMP agent 12 and the like, and in particular, the SNMP agent periodically requests information about the information that needs to be reported to the administrator in real time. By performing (12), various changes received from the SNMP agent 12 are displayed on the screen to inform the administrator of the facts. In addition, the SNMP manager 11 polls the SNMP agent 12 to maintain the information of the SNMP agent 12, and a portion for adjusting the time interval for performing the polling. Consists of including.

For example, in the case of managing a large router in the form of a chassis composed of several boards, there is management information that needs to be confirmed in real time by the above-described administrator. The item that needs to be managed in real time includes the operation state information of the router, the operation state information of each board, the state information of each port, and the change monitoring information of each module.

At this time, the operation state information of the corresponding router is information on whether it is currently operating normally or the system is down. The operation state information of each of the boards is information that informs each board whether there is an abnormal operation. The status information of each port is information indicating whether each port is connected or whether the ports are operating normally, and the change monitoring information of each module indicates whether there is a status change such as adding or removing a module. Information about.

The SNMP manager 11 checks each state change through periodic polling of the items and displays them on the screen so that the administrator can recognize them. Hereinafter, it is to be understood that the words 'information' or 'management information' in the text are items that need to be informed to the administrator in real time as in the above example.

The SNMP agent 12 not only performs an operation corresponding to the request of the SNMP manager 11 and transmits the result as a response, but also a trap message indicating that an event has occurred according to the situation of the system. It generates and transmits to the SNMP manager (11).

Next, an operation of performing management on real-time management information in the conventional network management system configured as described above will be briefly described with reference to the flowchart of FIG. 2.

A conventional network management system collects and analyzes data obtained through a continuous request for information to the SNMP agent 12 to grasp real-time information. An administrator selects a menu for artificially updating information. Although the latest information of the SNMP agent 12 can be checked, it is generally used to obtain real-time information on the equipment currently in operation by using an algorithm that continuously polls the management target at regular time intervals.

At this time, the polling time interval is a preset value or a value set by an administrator. When performing polling, a request message requesting information about all related MIBs defined in the SNMP agent 12 is performed. By sending (GetRequest or GetNextRequest) (step T1), information of a management target having a change in the time elapsed from the time when the most recent polling is performed to the present is received.

Therefore, it is determined whether a response message (GetResponse) for the request message (GetRequest or GetNextRequest) has been successfully received (step T2). If the corresponding response message (GetResponse) has not been successfully received, the reason is checked. After resolving the problem (step T3), the process is repeated again from the first step (T1). On the other hand, if the response message (GetResponse) is successfully received, the received management target information is updated and stored and Display to the controller (step T4), and then reset the timer (step T5).

Accordingly, it is checked whether the reset timer is completed (step T6), and if it is completed, it is repeated again from the first step (T1), whereas if it is not completed, when the reset timer is completed Wait in the waiting state until step T7.

By the way, the conventional polling method as described above is managed by a polling algorithm when a certain time elapses, and there is a problem related to an increase in traffic of the network due to frequent polling operations when the polling period is set too short. For example, in the case of managing large equipment, it is possible to adversely affect the network by requesting information on related MIBs at once.

In addition, when polling is performed by setting a long polling period in the conventional polling method as described above, there is a problem in that data collection is impossible in real time because the change of the equipment is not frequently checked, thereby preventing accurate management. .

In order to solve the problems as described above, the present invention to optimize the polling period for the SNMP agent in the SNMP manager in the network management system, to prevent excessive traffic from occurring during the management of large network equipment, There is a purpose.

In addition, the present invention is a method for requesting the values of the MIBs periodically used in the prior art by requesting information only for specific MIBs that need to be confirmed according to the contents of the trap message received from the SNMP manager in the network management system. In order to reduce the amount of network traffic generated compared to the above, the purpose is to.

In addition, the present invention utilizes a trap message defined specifically in the network management system to monitor and manage events occurring in the SNMP agent device in real time, and polling when the trap message is not received for a predetermined time in the SNMP agent. Its purpose is to make it more reliable by making it automatic.

1 is a block diagram showing a conventional network management system using a Simple Network Management Protocol (SNMP).

2 is a flowchart illustrating a management method for real time management information in a conventional network management system.

3 is a flowchart illustrating a management method for real time management information in a network management system according to an exemplary embodiment of the present invention.

4 is an exemplary diagram illustrating a program managing method for real time management information in a network management system according to an exemplary embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

11: SNMP Manager

12: SNMP Agent

The method for managing real-time management information in a network management system according to an embodiment of the present invention for achieving the above object includes a process of checking whether the reset timer is completed after resetting the timer and switching to a standby state; ; Confirming whether or not a trap message indicating a change in the content of a management object has been received before the reset timer is completed; Analyzing contents of the received trap message and requesting information on specific MIBs corresponding to the analyzed contents; And checking whether the response information corresponding to the request has been successfully received and updating management information according to the received response information.

Preferably, the management method for real-time management information in the network management system according to an embodiment of the present invention corresponds to the analysis after solving the problem by checking the reason when the response information is not successfully received. The method may further include requesting information on specific MIBs.

Also preferably, the method for managing real-time management information in a network management system according to an embodiment of the present invention requests information on all relevant MIBs when the reset timer is completed while the trap message is not received. Process of doing; And checking whether the response information corresponding to the request has been successfully received and updating various management information according to the received response information.

Also preferably, in a network management system according to an embodiment of the present invention, the management method for real-time management information may include a specific MIB corresponding to the selected menu item when the administrator selects a related menu item to view a specific item to be managed. Requesting information about the fields; The method may further include verifying whether the response information corresponding to the request has been successfully received and updating management information according to the received response information.

The present invention checks the trap message generated from the SNMP agent to perform polling only for some related MIBs that need to be managed so as to suppress the amount of network traffic. When the trap message is received, the timer is reset using a timer. When the trap message is not received until completion, polling is automatically performed to optimize the polling period for the SNMP agent in the SNMP manager.

In other words, the present invention provides a method of periodically polling an SNMP agent, which is a management target used in the prior art, and a method of requesting information about specific MIBs that are relevant when a trap message is received from the SNMP agent. It is made of branches. In addition, the present invention more specifically defines an EST (Enterprise Specific Trap) in the SNMP agent, the EST includes a trap message defined by the device manufacturer as needed in addition to the trap message of the type recommended and recommended in SNMP do.

Therefore, when a change occurs in a specific part of the SNMP agent device, a trap message indicating which part of the SNMP agent has been changed is generated and immediately sent to the SNMP manager. The SNMP manager sends the trap message. Only some of the MIBs that receive the information of the received information request information to update it.

For example, suppose you are managing a large router in the form of a chassis that can hold multiple boards. If you want to determine whether to add or remove boards, define traps of type BOARD_ADDED and BOARD_REMOVED in the SNMP agent. As soon as the SNMP manager receives the defined trap message, the SNMP manager polls the board-related MIB so that the changes can be displayed on the screen immediately.

In addition, when managing the router as described above, if you want to check whether the VLAN configuration is changed, define a trap having a type of 'VLAN_CONFIGURATION_CHANGED', so the SNMP manager receives a VLAN-related MIB as soon as the corresponding trap message is received. By polling for, the changed contents can be displayed on the screen immediately.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. A management method for real time management information in a network management system according to an embodiment of the present invention will be described with reference to the flowchart of FIG. 3.

First, the SNMP manager requests the SNMP agent for information about all relevant MIBs in the initialization phase, that is, by sending a request message (GetRequest or GetNextRequest) requesting information about all relevant MIBs defined in the SNMP agent. (Step S1), the information of the management target with the change is received during the time elapsed from the time when the most recent polling was performed to the present.

Therefore, it is determined whether a response message (GetResponse) for the request message (GetRequest or GetNextRequest) has been successfully received from the SNMP agent (step S2). In this case, if the response message (GetResponse) is not successfully received, After checking the reason to solve the problem (step S3), the process is repeated again from the first step (S1).

On the other hand, when the response message (GetResponse) is successfully received, the SNMP manager updates and keeps various management informations stored by the SNMP manager according to the response message (GetResponse) received from the SNMP agent and displays it to the manager. After that (step S4), the timer is reset (step S5).

Then, the SNMP manager switches to a waiting state waiting for a trap message to be received from the SNMP agent (step S6) and confirms whether the reset timer is completed (step S7).

In this case, when the reset timer is completed, the process is repeated again from the first step (S1). On the other hand, when the reset timer is not completed, the part informs which part of the SNMP agent is changed. Checks whether a trap message is received (step S8).

Then, if a trap message is not received from the SNMP agent, the process is repeated again from the seventh step (S7). If a trap message is received from the SNMP agent, the contents of the received trap message are analyzed. (Step S9) According to the analysis, the request message (GetRequest or GetNextRequest) is transmitted to request information on specific MIBs (step S10).

Accordingly, the terminal receives information of a management target having a change from the time when polling is most recently performed to the present time, and at this time, the SNMP agent sends a response message (GetResponse) to the request message (GetRequest or GetNextRequest). In step S11, if the response message (GetResponse) is not successfully received, the reason is solved by checking the reason (step S12), and then the tenth step (S10). Repeat the process from the beginning.

On the other hand, when the response message (GetResponse) is successfully received, the SNMP manager updates and keeps various management informations stored by the SNMP manager according to the response message (GetResponse) received from the SNMP agent and displays it to the manager. In this case, the process is repeated again from the fourth step (S4).

In the present invention, the timer is forcibly repeated again from the first step (S1) in this case in case the trap message is not received so that a certain time elapses from the SNMP agent for some reason. The time for completing the timer is set long enough so that an operation can be performed according to a received trap message.

And, if the above operation is shown as an example program as shown in Figure 4, in the present invention, polling is basically performed according to the trap message, if the administrator wants to see a specific item, the menu item At the same time, the polling for MIBs related to the selection is performed.

For example, when an administrator selects a related menu item to view statistical information about an interface of a target device, polling for interface related MIBs is performed immediately and displays data obtained from the corresponding response message on the screen.

On the other hand, even when a network equipment manufacturer such as a switch or router develops an SNMP management program for managing its own product, it is possible to apply the method of the present invention as described above to utilize the network more effectively.

As described above, the network management system requests information only for specific MIBs that need to be checked according to the contents of the trap message received from the SNMP manager, thereby periodically checking the values of the MIBs used in the prior art. Network traffic can be reduced compared to the request method, and the trap message defined in detail can be monitored and managed in real time using the trap message defined in detail, and the trap message is not received for a certain time from the SNMP agent. If not, polling can be performed automatically to ensure more reliable management.

Claims (4)

Resetting the timer and transitioning to the standby state and checking whether the reset timer is completed; Confirming whether or not a trap message indicating a change in the content of a management object has been received before the reset timer is completed; Analyzing the contents of the received trap message and requesting information on specific MIBs corresponding to the analyzed contents; And updating the management information according to the received response information by checking whether the response information corresponding to the request has been successfully received. The method of claim 1, If the response information is not successfully received, the network management further comprises the step of requesting information on specific MIBs corresponding to the analysis after resolving the problem by checking the reason thereof. How to manage real-time management information in the system. The method of claim 1, Requesting information about all relevant MIBs when the reset timer is completed without receiving the trap message; And confirming whether the response information corresponding to the request has been successfully received, and updating various management information according to the received response information. The method of claim 1, Requesting information on specific MIBs corresponding to the selected menu item when the administrator selects a related menu item to view a specific item to be managed; And confirming whether the response information corresponding to the request has been successfully received and updating management information according to the received response information.