KR100453346B1 - remote network monitoring method - Google Patents

Abstract

The present invention discloses a network equipment remote monitoring method. According to this, when a set request of RMON (Remote network MONitoring) is received and an RMON process creation command is received, a service is created and registered in a service table when the service corresponding to the RMON process is not duplicated, and then an RMON agent process is generated. . If an RMON set request is received and there is a command for deleting an RMON process, if the service exists, the service is deleted from the service table and the RMON agent process is stopped and deleted.

The service sets the status object of each group as a create request in RMON's Management Information Base (MIB), sets the data source object of each group in the MIB to the number of the management port, and sets the owner object of each group in the MIB. It is a logical process created in order of setting to an arbitrary value and setting the state objects of each group in the MIB to valid. In this case, instances are used in order from 1 and MIBs use the same instances. Therefore, the present invention can be implemented to operate with the same MIB instance system irrespective of the type of each group, it is easy to manage the RMON agent. In addition, by systematically managing the logical processes generated by the RMON agent, it is possible to eliminate the factors that degrade the main functions of the network equipment.

Description

Remote network monitoring method

The present invention relates to a method for remotely monitoring network equipment, and more particularly, to a method for remotely monitoring network equipment for efficiently managing a process of a network equipment and suppressing waste of the process.

The existing local area network (LAN) uses TCP / IP (Transmission Control Protocol / Internet Protocol) to communicate, and the physical transport layer used at this time was mainly Ethernet.

In general, companies using the Internet / Intranet rely on the network for a large number of tasks, and the importance of the network is increasing due to the introduction of the e-mail, groupware, and client / server processes. In addition, the importance of network management is increasing due to the size and complexity of the network, and the explosion of work, and it is important to quickly deal with the down time of the network, and to eliminate the possibility of downtime in advance.

Most network devices generally use Simple Network Management Protocol (SNMP) for system management. In particular, to support performance management, RMON (Remote network MONitoring) agent is supported inside the equipment system. To use the RMON agent, you must create an internal logical process that can process each RMON Management Information Base (MIB). This is distinct from applying directly without a logical processor when the SNMP agent is operating like a normal MIB.

In order for the device management software to call the RMON MIB of the device, the corresponding RMON agent must be operated. Running the RMON agent means running a separate logical internal process for RMON processing. When creating each RMON processor, the MIB instance is used to distinguish each process. Instance processing applied to RMON MIB can be classified into two ways. The first method is to match the RMON MIB instance with the managed port, and define each instance as a port of the device. In other words, one port and one RMON process are matched. The second method is to have the RMON MIB instances sequentially from 1, and create an RMON process whenever the RMON MIB is applied to a specific port. In this case, what is represented by an instance merely indicates a process order in the concept of an index.

The first method uses a control MIB to operate a logical RMON agent, which creates a logical process, as shown in FIG. For convenience of explanation, a statistical group is described as an example. First, in step S10, an RMON requirement is received from a packet transmitted with a MIB. After the RMON request is received, it is determined in step S11 whether the command of the packet is a get request or a set request. At this time, if it is determined that the command is a get request, it is determined whether there is an instance requested for the packet in step S12. At this time, if it is determined that there is the requested instance, in step S13, the result value for the corresponding MIB is found, confirmed and responded, and then in step S14, the RMON agent process waits. If it is determined that there is no requested instance, in step S15, an error message indicating that there is no requested instance is answered.

On the other hand, if it is determined that the command is a set request, it is determined whether there is an existing registered instance (index) in the packet in step S16. In this case, if it is determined that there is an existing registered instance, in step S15, an error message indicating that there is an existing registered instance is responded. If it is determined that there is no existing registered instance, in step S17, the etherstats state object in the MIB is set as a create request without ignoring the order of the instances. Here, the instance matches the performance management target port number, and the MIB defined below uses the same instance. After the creation of the creative tree request is completed, in step S18, the easter state data source object in the MIB is set to the same instance management target port number as the instance. After the number of the instance management target port is set, in step S19, the owner object in the MIB is set to an arbitrary value as a distinguishing factor. After the setting of the distinguishing factor is completed, in step S20, the Status Object of the MIB is set to valid. After the setting of the validity is completed, in step S21, one RMON agent processor is generated and the operation ends. In this case, the instances do not have an order.

The first method of creating an RMON process through this procedure is convenient to operate the RMON process because the management target port can be easily known by the instance. However, because the instance is not ordered, it requires additional work to process the instance, and there is a restriction that one or more identical group agents cannot be created on one port, which wastes RMON process.

The second method uses a control MIB to operate the RMON agent, which creates a logical process, as shown in FIG. For convenience of explanation, a statistical group is described as an example. First, in step S10, an RMON requirement is received from a packet transmitted with a MIB. After the RMON requirement is received, it is determined in step S11 whether the command of the packet is a get request or a set request. At this time, if it is determined that the command is a get request, it is determined in step S12 whether the requested instance exists in the packet, and if it is determined that the requested instance exists, the result value for the corresponding MIB in step S13. After finding and confirming and responding, wait for the RMON agent process in step S14. If it is determined that there is no requested instance, in step S15, an error message indicating that there is no requested instance is answered.

On the other hand, if it is determined that the command is a set request, it is determined whether there is an existing registered instance in step S16. In this case, if it is determined that there is an existing registered instance, an error response is made in step S15 with an error message that the existing registered instance exists. If it is determined that there is no existing registered instance, step S30 is performed. In more detail, in step S31, a new instance is set by adding 1 to an existing last registered instance. After the setting of the new instance is completed, steps S32, S33, S34, and S35 are similar to steps S17, S18, S19, and S20 of the first method. Conduct. At this time, the instance is applied starting from 1 regardless of the port number. Thereafter, in step S40, the RMON agent process is created and the operation ends.

The second method of creating an RMON process through this procedure is easy to create an instance, which can reduce waste of the process. However, there may be cases where RMON process can be duplicated due to the operator's mistake, so it is necessary to manage the list of managed ports separately.

As described above, in the conventional RMON agent process generation method, the RMON MIB instance causes a difference in the implementation method according to the intention of the implementer. In addition, since RMON is generally divided into nine groups and is implemented to operate with different instance systems according to the nature of each group, it is inconsistent and difficult to manage the RMON agent. The RMON agent is a MIB designed to monitor the performance of the device. Each logical process is required. If the management is not done, the main function of the device is degraded.

Accordingly, an object of the present invention is to provide a method for remotely monitoring network equipment that can efficiently operate the RMON process of the network equipment.

Another object of the present invention is to provide a method for remotely monitoring network equipment to suppress waste of RMON processes of network equipment.

1 is a flow chart showing a network equipment remote monitoring method according to the prior art.

Figure 2 is a flow chart showing another network equipment remote monitoring method according to the prior art.

Figure 3 is a flow chart illustrating a network equipment remote monitoring method according to the present invention.

Network equipment remote monitoring method according to the present invention for achieving the above object is

Receiving an RMON requirement and receiving a set request;

After the set request is received, determining whether the command is for deletion of an RMON process or for creation of an RMON process;

Creating and registering a service corresponding to the RMON process when the command is determined to generate an RMON process;

After the service is registered, creating an RMON agent process;

If it is determined that the command is for deleting an RMON process, deleting a service corresponding to the RMON process; And

After the corresponding service is deleted, the method includes stopping and deleting the RMON agent process.

Preferably, the step of creating and registering the service

Determining whether the service is duplicated in a service table;

Creating the service if the service does not overlap; And

Once the service has been created, it may be configured to include registering the service in the service table.

Moreover, the step of creating the service

Setting a state object of each group in the MIB of the RMON as a create request;

Setting a number of a management target port for each group of data source objects;

Setting the owner object of each group to an arbitrary value; And

And setting the state objects of each group to a valid value.

Preferably, the registered service may be converted into a graphical user interface and displayed.

Hereinafter, a method for remotely monitoring a network device according to the present invention will be described in detail with reference to the accompanying drawings. The same code | symbol is attached | subjected to the part of the same structure and operation as the conventional part.

Referring to FIG. 3, first, in step S10, an RMON requirement is received from a packet transmitted with a MIB. After the RMON requirement is received, the set request in the command is received in step S51. After the set request is received, it is determined in step 52 whether the command is for deleting the corresponding RMON process or for creating a new RMON process.

At this time, if it is determined that the command is for the creation of a new RMON process, by checking the contents of the service table in step S53, the corresponding service (the logical process created by the procedure of FIG. 4 is referred to as "service") is duplicated. Judge.

If it is determined that the services do not overlap, the service is generated in step S54. The generation of the service will be described in more detail with reference to FIG. 4. First, in step S154, a state object of each group is set as a create request in the MIB. At this time, the instances are used sequentially from 1, and the MIB defined below uses the same instance. After setting of the create request is completed, in step S155, the data source object of each group in the MIB is set to the number of the management target port. After the number of the management target port is set, in step S156, the owner object of each group in the MIB is set to an arbitrary value as the distinguishing factor. After setting of the distinguishing factor is completed, in step S157, the state object of the MIB is set to valid. After the validation is completed, one service is created. In this case, the instances do not have an order.

After the generation of the service is completed, in step S55, the generated service is registered in the service table. That is, the configuration information of the generated service, for example, the name of the RMON group, the instance (index) number, the management port number, a description, and the like are registered in the service table. Here, the registered service is converted into a GUI (Graphic User Interface) so that the operator can be easily managed by the operator. This is to prevent duplication of service registration and further increase the inherent switching efficiency of the network equipment.

After the registration of the service is completed, the process of the present invention is terminated after generating the RMON agent process in step S56. On the other hand, if it is determined in step S53 that the service is a duplicate, in step S57 an error message indicating that the service is duplicated.

If it is determined in step S52 that the command is for deletion of a new RMON process, it is determined in step S58 whether a corresponding service exists in the service table. At this time, if it is determined that the corresponding service does not exist in the service table, an error response is made in step S57 with an error message indicating that the corresponding service does not exist. If it is determined that the corresponding service exists in the service table, the corresponding service is deleted from the service table in step S59. That is, configuration information of the corresponding service, for example, the name of the RMON group, the instance (index) number, the management port number, a description, and the like are deleted from the service table. In this case, the deleted service is converted into a GUI (Graphic User Interface) so that it can be easily managed by the operator. This is to prevent unnecessary service deletion and further increase the inherent switching efficiency of the network equipment.

After the deletion of the corresponding service is completed, the process of the present invention is terminated after stopping and deleting the corresponding RMON agent process in step S60.

Therefore, the present invention can be implemented to operate with the same MIB instance system irrespective of the type of each group, it is easy to manage the RMON agent. In addition, by systematically managing the logical processes generated by the RMON agent, it is possible to eliminate the factors that degrade the main functions of the network equipment.

On the other hand, the present invention is not limited to the contents described in the drawings and the above description, and various modifications may be made without departing from the spirit of the present invention, which is obvious to those skilled in the art. to be.

As described above, the network device remote monitoring method according to the present invention generates a service when a service corresponding to the RMON process is not duplicated when a set request of the RMON is received and an RMON process creation command is received. After registering, create an RMON agent process. If an RMON set request is received and there is a command for deleting an RMON process, if the service exists, the service is deleted from the service table and the RMON agent process is stopped and deleted.

The service sets the state object of each group in the MIB as a create request, sets the data source object of each group in the MIB to the number of the management port, sets the owner object of each group in the MIB to an arbitrary value, Refers to a logical process created in the order of setting the state objects of each group in the MIB as valid. In this case, instances are used in order from 1 and MIBs use the same instances.

Therefore, the present invention can be implemented to operate with the same MIB instance system irrespective of the type of each group, it is easy to manage the RMON agent. In addition, by systematically managing the logical processes generated by the RMON agent, it is possible to eliminate the factors that degrade the main functions of the network equipment.

Claims (4)

In the remote monitoring method of network equipment, Receiving a remote network monitoring (RMON) requirement and receiving a set request; After the set request is received, determining whether the command is for deletion of an RMON process or for creation of an RMON process; Creating and registering a service corresponding to the RMON process when the command is determined to generate an RMON process; After the service is registered, creating an RMON agent process; If it is determined that the command is for deleting an RMON process, deleting a service corresponding to the RMON process; And After the corresponding service is deleted, stopping and deleting the RMON agent process. The method of claim 1, wherein creating and registering the service comprises: Determining whether the service is duplicated in a service table; Creating the service if the service does not overlap; And And after the service is created, registering the service in the service table. The method of claim 2, wherein creating the service Setting a state object of each group in a management information base (MIB) of the RMON as a create request; Setting the data source object of each group to a number of a management target port; Setting the owner object of each group to an arbitrary value; And And setting the state objects of each group to a valid value. The method of claim 1, wherein the registered service is converted into a graphical user interface and displayed.