KR100359639B1 - method for MIB updating in TMN agent - Google Patents

Abstract

The present invention finds the MIT node pointer by searching the physical shape information table and the logical shape information table in order to eliminate the overhead of constructing a distinguished name for retrieving the MIT. The performance of the agent can be improved by reducing the load on the managed object instances that are affected by the MIB and the managed object instances mapped to the device when the event is received from the MIB and reflecting the status. It relates to a MIB update method of the TMN agent to enable.

The method of updating the MIB of the TMN agent of the present invention comprises the steps of constructing a physical shape information table and a logical shape information table from the shape information file of the equipment at system initialization; Receiving an event from the device, extracting an address of the resource where the event occurred; Searching for the logical shape information table when the extracted address is a logical address; and searching for the physical shape information table when the extracted address is a physical address to find a node pointer of a management information tree; And updating the MIB by using the node pointer to reflect the state of the management object instances affected by the event in the MIB.

Description

Method for MIB updating in TMN agent

The present invention relates to a method of updating a MIB of a TMN agent. More particularly, the present invention relates to a method of updating a MIB of a TMN agent that can improve management information base (MIB) update performance that occurs frequently in a TMN agent.

In general, Telecommunication Management Network (hereinafter referred to as TMN) is a network that provides a method of collecting, distributing, and transmitting information related to operation, maintenance, and management of a communication network. ), And an agent.

The above-mentioned manager delivers the management commands by the operator to the agents that are physically or logically divided through the data communication network using the Common Management Information Protocol (CMIP) to execute the commands for the corresponding exchange, and the execution result or the exchange It is responsible for collecting and evaluating the status reports of the network and generating useful network management information. The agent manages the same shape and state information as that of the exchange by using a managed object modeled by the object-oriented model of the exchange to be managed, and manages the request from the administrator. Obtain information or collect it directly from the exchange and pass it on to the administrator.

The above-described agent comprises a MIB configured from the shape information of the equipment. The above-described MIB is a set of managed object instances. The MIB for the general equipment has a rack and a shelf according to the hardware configuration. ) Consists of managed objects for slots, boards, links, and other managed objects related to services. As such, each management object reflects the state of each resource in a one-to-one correspondence with the actual resource of the equipment.

When an agent receives a command from an administrator and processes it, the agent must find the managed object instances in the MIB that are affected by the execution of the command and reflect the status. The managed object instances to be mapped must be found in the MIB to reflect the state.In order to reflect the state of the managed object instances, the agent finds the node pointer of the Management Information Tree (MIT) and displays the MIB based on the MIT node pointer information. Access and reflect the managed object instance.

1 is a road illustrating a conventional method for updating a MIB of a TMN agent. First, when an agent receives a CMIP command from an administrator (S10), the agent configures a message to equipment to perform a command on a corresponding resource. It is determined whether related management object information other than the management object is necessary (S12). When the management object information associated with the determination result of step S12 is required (S14), an identification name is configured (S14), and the MIT node pointer is found by searching the MIT using the identification name configured in step S14 (S16 and S18).

Subsequently, when a physical address or a logical address is configured from the MIT node pointer found in step S18 described above, and a logical address is required because resource access is required through the logical address, the mapping table is searched and the physical address is converted into a logical address. The resource address is configured by conversion (S20, S22, S24, and S26). As described above, after configuring the address for the resource, the switch requests processing of the corresponding command to the exchange (S28), and receives a response message that is a result of processing of the command from the equipment (S30). Upon receiving the normal execution result, the MIB is updated by using the MIT node pointer information found in step S18 to reflect the state of the management object instances affected by the processing of the command in the MIB (S32).

Meanwhile, when an event is received from the device, the address of the resource where the event occurred is extracted from the message (S34, S36). If the address extracted in step S36 is a logical address, the mapping table is searched and logically extracted. Managed object affected by the event by converting the address into a physical address (S38, S40, S42), constructing an distinguished name from the translated physical address (S44), searching the MIT with the configured distinguished name, and finding an MIT node pointer. The MIB is updated by reflecting the state of the instances in the MIB (S46, S48, and S32).

As described above, in order to find the node pointer of the managed object instance of the MIT in the conventional agent, construct the distinguished name from the physical address and search the MIT therefrom to find the node pointer. If this happens, it will degrade the performance of the agent. Therefore, there is a problem that it is difficult to reflect the status of resources in real time when frequent events occur from the equipment.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem, and in order to remove the overhead of constructing an identification name for searching for MIT, the physical shape information table and the logical shape information table are searched to find an MIT node pointer. As the administrator receives the command received from the administrator, the managed object instances that are affected and the managed object instances that are mapped to the device when the event is received from the device where the event occurred are found in the MIB to reflect the load to be processed. The purpose is to provide a method for updating the MIB of the TMN agent to reduce the performance of the agent.

1 is a view for explaining a MIB update method of a conventional TMN agent.

2 is a diagram showing the configuration of a physical shape information table according to the present invention;

3 is a diagram showing the configuration of a logical shape information table according to the present invention;

4 is a diagram illustrating a method of updating a MIB of a TMN agent according to the present invention.

MIB update method of the TMN agent of the present invention for achieving the above object comprises the steps of constructing a physical shape information table and a logical shape information table from the shape information file of the equipment at system initialization; Receiving an event from the device, extracting an address of the resource where the event occurred; Searching for the logical shape information table when the extracted address is a logical address; and searching for the physical shape information table when the extracted address is a physical address to find a node pointer of a management information tree; Updating the MIB by using the node pointer to reflect the state of the management object instances affected by the event in the MIB; In response to receiving a CMIP command from an administrator, requesting the instruction processing to a device having a resource address configured based on a physical / logical address obtained by searching the physical shape information table and the logical shape information table, and then according to a response from the device. And a MIB update process according to a CMIP command to update the MIB by reflecting the state of the management object instances mapped to the device to the MIB.

Here, the physical shape information table includes: a parent shape information pointer indicating a parent node; A child shape information pointer pointing to the child node; A peer shape information pointer pointing to a sibling node; A high / low module information pointer pointing to a node of the logical shape information table; And a rack, shelf, slot, and board hierarchy, including a pointer to a node pointer to a managed object instance on the management information tree.

The logical shape information table may include: a peer shape information pointer indicating another type of module; And a module information pointer indicating each module belonging to the module of the corresponding type.

The module information table of the module information node indicated by the module information pointer includes: a parent shape information pointer indicating a parent node; A peer shape information pointer pointing to a sibling node; A physical shape information pointer indicating boards belonging to the module; It includes a high low indicating the high / low shape of the module on the board.

On the other hand, updating the MIB according to the CMIP command, when receiving a CMIP command from the administrator, searching for the physical shape information pointer by searching the physical shape information table; Obtaining a node of a logical shape information table from a high module information pointer / low module information pointer of the physical shape information node when a logical address is needed, and directly accessing the logical shape information table to construct a logical address; After the resource address is configured based on the logical address, the device requests the command processing, and upon receiving the normal execution result, updates the MIB by reflecting the status of the managed object instances affected by the command processing in the MIB. It is characterized by consisting of a process.

Hereinafter, a method of updating a MIB of a TMN agent according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Prior to the description, the TMN agent configures the MIB from the shape information of the equipment and requires an initialization procedure for mapping the physical shape and the logical shape. The agent must construct a physical shape initial file and a logical shape initial file from the shape information of the device, and then create shape related management object instances in the MIB.

At initialization, the agent configures the physical shape information table shown in FIG. 2 from the physical shape initial file, and the logical shape information table shown in FIG. 3 from the logical shape initial file.

In the above-described physical shape information table and logical shape information table, a node called system shape information SysConfInfo is pointed. As shown in FIG. 2, the physical shape information table is a parent node as parent shape information pointer ParentConfInfoP. It consists of a hierarchy of racks, slots, slots, and boards by pointing child nodes with child shape information pointers (ChildConfInfoP) and sibling nodes with peer shape information pointers (PeerConfInfoP). It is accessed as a physical address in the form of board # or link #. The pointer ptr of the Physical Shape Information (PhyConfInfo) node points to a node pointer to a managed object instance on the MIT. This pointer can be used to construct a distinguished name so that the desired managed object instance can be directly accessed from the physical configuration information table without searching for the MIT.

That is, when a managed object instance is created in the MIB from the physical shape information table, the node pointer of the MIT is stored in each node information of the physical shape information table. The managed object instance on the MIB can be accessed from the node pointer information of the.

Therefore, the overhead of constructing the distinguished name can be eliminated, and if the resource affected when the resource error occurs is the resources belonging to the resource, the child node pointer is directly used in the physical shape information table. Accessibility eliminates the overhead of searching for separate attribution resources.

On the other hand, as shown in Fig. 3, the logical shape information table is configured in such a manner that a child node is indicated by a module information pointer (ModulInfoP) and a sibling node is indicated by a peer shape information pointer (PeerConfInfoP). The logical address is accessed. Here, the peer shape information pointer PeerConfInfoP points to another type of module, and the module information pointer ModInfoInfoP points to each module belonging to the module of the type. Here, the physical shape information pointer (PhyConfInfoPP) of the module information (ModuleInfo) node indicates boards belonging to the module, and the high low indicates whether the module is high or low when the module has a high / low shape on the board. The default value is high.

Each node in each of the above tables points to nodes that are mapped to each other, so from physical addresses (rack #, self #, slot #, board #, link #) to logical addresses, and from logical addresses (module #, link #). Translation to the physical address is easily performed.

The above-described translation from a physical address to a logical address finds a physical shape information pointer (PhyConfInfoP), which is a node of a physical shape information table, and finds a high module information pointer (HighModuleInfoP) or a low module information pointer of a physical shape information (PhyConfInfo) node. The node of the logical shape information table can be obtained from (LowModuleInfoP). That is, the module name can be found by the name of the logical shape information LogiConfInfo indicated by the parent shape information pointer ParentConfInfoP of the module information ModuleInfo node, and the module ID value can be obtained from the ID of the module information ModuleInfo. For example, if the module is an interface module (hereinafter referred to as IM), the module name is 'IM' and the ID is an IM number. In addition, the translation of the physical address link # into the logical address link # is performed by sequentially finding the boards belonging to the module from the physical configuration information pointer (PhyConfInfoPP) of the module information (ModuleInfo) node. Can be obtained. Through the above-described process, logical addresses of IM # and link # are configured.

On the other hand, the translation from the logical address to the physical address is to find the module information (ModuleInfo) node from the logical address of the IM # and the physical shape information of each board belonging to the module from the physical shape information pointer (PhyConfInfoPP) of the module information (ModuleInfo) node. Obtain physical shape information pointers (PhyConfInfoP) that are nodes of the table. And, by comparing the sum of the number of links belonging to each board from the logical address of the link # can find the board to which the link belongs, and obtains the rack #, self #, slot #, board #, link # from this.

4 is a road for explaining a method of updating a MIB of a TMN agent according to the present invention. First, when an agent receives a CMIP command from an administrator (S50), the agent searches a physical shape information table (S52) to obtain a physical shape information pointer. In order to find and construct a physical address or logical address therefrom (S54), if a logical address is required, a node of the logical shape information table is obtained from the high module information pointer or the low module information pointer of the physical shape information, and the logical shape is directly directly therefrom. A logical address is constructed by accessing the information table (S56, S58). Subsequently, after configuring an address for a resource based on the logical address converted in step S58, a request for processing the corresponding command is made to the exchange (S60, S62), and a response message is received from the device as a result of the processing of the command ( S64). If the normal execution result is received, the MIB is updated by reflecting the state of the management object instances affected by the processing of the command in the MIB (S66).

On the other hand, when an event is received from the equipment, the address of the resource where the event occurred is extracted from the message (S68, S70), and if the address extracted in step S70 is a logical address, the logical shape information table is searched. If the extracted address is a physical address (S72, S74), the MIB is updated by searching the physical shape information table to find the MIT node pointer to reflect the state of the managed object instances affected by the incident in the MIB. (S76, S78, S66).

The MIB update method of the TMN agent of the present invention is not limited to the above-described embodiments, and can be modified in various ways within the scope of the technical spirit of the present invention.

According to the method of updating the MIB of the TMN agent of the present invention as described above, by searching the physical shape information table and the logical shape information table to find the node pointer of the MIT, the overhead of constructing the identification name for searching the MIT is eliminated. It can be removed. For this reason, there is an effect that the agent can reduce the load to be handled when processing the command from the manager or reflect the event from the equipment to the MIB. And there is an effect that can improve the performance of the agent.

In addition, since the nodes of the physical shape information table and the logical shape information table point to nodes that are mapped to each other, it is easy to translate the physical address to the logical address and the logical address to the physical address, thereby mapping the physical address to the logical address. There is an effect that can solve.

Claims (5)

Constructing a physical shape information table and a logical shape information table from the shape information file of the equipment at system initialization; Receiving an event from the device, extracting an address of the resource where the event occurred; Searching for the logical shape information table when the extracted address is a logical address; and searching for the physical shape information table when the extracted address is a physical address to find a node pointer of a management information tree; Updating the MIB by using the node pointer to reflect the state of the management object instances affected by the event in the MIB; In response to receiving a CMIP command from an administrator, requesting the instruction processing to a device having a resource address configured based on a physical / logical address obtained by searching the physical shape information table and the logical shape information table, and then according to a response from the device. And updating the MIB by reflecting the state of the management object instances mapped to the device in the MIB, according to the CMIP command for updating the MIB. The method of claim 1, wherein the physical shape information table, A parent shape information pointer pointing to the parent node; A child shape information pointer pointing to the child node; A peer shape information pointer pointing to a sibling node; A high / low module information pointer pointing to a node of the logical shape information table; A method of updating an MB of MBN agent, comprising a rack, shelf, slot, and board layer including a pointer to a node pointer to a managed object instance on a management information tree. The method of claim 1, wherein the logical shape information table, A companion shape information pointer pointing to another type of module; And a module information pointer indicating each module belonging to a module of a corresponding type. The module information table of claim 3, wherein the module information node indicated by the module information pointer comprises: A parent shape information pointer pointing to the parent node; A peer shape information pointer pointing to a sibling node; A physical shape information pointer indicating boards belonging to the module; The MBI updating method of the TEM agent, characterized in that it comprises a high low indicating the high / low form of the module on the board. The method of claim 1, wherein the MIB update process according to the CMIP command, When receiving a CMIP command from an administrator, searching the physical shape information table to find a physical shape information pointer; Obtaining a node of a logical shape information table from a high module information pointer / low module information pointer of the physical shape information node when a logical address is needed, and directly accessing the logical shape information table to construct a logical address; After the resource address is configured based on the logical address, the device requests the command processing, and upon receiving the normal execution result, updates the MIB by reflecting the status of the managed object instances affected by the command processing in the MIB. MBM renewal method of the TEM agent, characterized in that consisting of a process.