KR100566226B1 - How to download system code of network equipment using SNP - Google Patents

Abstract

The present invention discloses a method for downloading to change the system code of network equipment in a remote management system. In the present invention, in the method of downloading the system code of the network equipment from the remote management system, the system code for a new change using the network management system (NMS) program mounted on the internal management system SMP ( According to the protocol (SNMP) protocol, an SNMP packet is transmitted to the network device, and an SNP agent mounted in the network device receives the system code and replaces the previous system code. The management system and the network equipment is characterized in that the communication according to the MIB scenario.

Description

System code download method of network equipment using SNP

The present invention relates to a method of changing a system code of a network device, and more particularly, to a method of downloading to change the system code of a network device in a remote management system.

Generally, a memory device such as a flash memory that can be read and written is provided inside a network device, and the memory device stores the code of the system. The system code stored inside such network equipment should be easily changed to another version or to another version according to the user's needs. Changes to the system code are made in terms of so-called 'manage of equipment'. The change of the system code is performed by downloading the system code to a network device using a Network Management System (NMS) program (software) (S / W) in a remote management system.

A representative method of downloading system code to a network device is a method using a Trivial File Transfer Protocol (TFTP). In TFTP communication, as illustrated in FIG. 1, there are a TFTP server 31 and a TFTP client 12. The TFTP server 31 stores the code and, at the request of the client 12, extracts the code from its system and sends the code to the client through the network. The TFTP client 12 connects to the TFTP server 31 through a network, requests a necessary code, and receives a code transmitted through the network and stores the code in its own system.

On the other hand, the code download operation is performed in terms of 'device management' as described above, and the device manager performs such a task using the NMS (Network Management System) software (S / W) 21. The user uses the NMS software to instruct the network device 10 to input various pieces of information necessary for the network device 10 to operate as the TFTP client 12 and finally start the code download operation. When the NMS software 21 performs this task for the network device 10, a protocol called Simple Network Management Protocol (SNMP) 11 is used between the NMS software 21 and the network device 10. This SNMP 11 is a protocol originally created for use in the management of the network equipment 10.

TFTP, which is used for downloading system codes, is originally designed for file transfer. It is based on UDP (User Datagram Protocol) to make it simple and small. In other words, when TFTP is used to download the system code of a network device, the implementation and operation is simple but the reliability is not good. It is also dangerous in terms of making network equipment act as TFTP clients to act as the subject of code transmission. This is because a network device with less memory and resources is inadequate to be able to recover from code transmission errors. This problem is organized more systematically as follows.

First, as illustrated in FIG. 1, there is an implementation problem in that the TFTP server 31 is implemented in a separate server system 30 and a file to be used for code download is always placed there.

Second, there is always a problem that a network environment in which two protocols, TFTP and SNMP can operate, is required.

Third, there is a problem that it is impossible to monitor the progress of the work using the NMS S / W 21 during the code download operation through the TFTP.

Fourth, due to the limitations of TFTP itself, there is a problem that the recovery operation is difficult for various errors occurring during code transmission.

Accordingly, an object of the present invention is to provide a method for improving the reliability of the download function when downloading the system code to change the system code of the network equipment.

Another object of the present invention is to provide a method for monitoring the operation of downloading the system code of the network equipment.

It is still another object of the present invention to provide a method for facilitating a recovery operation for various errors occurring during an operation of downloading system code of a network device.

In order to achieve the above object, the present invention provides a method for downloading a system code of a network equipment from a remote management system, wherein the management system is a system for new change using a network management system (NMS) program mounted therein. Transmitting the code to the network device in the SNMP packet according to the SNP protocol (SNMP) protocol, and the process of replacing the previous system code by receiving the system code by the SMP agent mounted in the network equipment Is done. The management system and the network equipment is characterized in that the communication according to the MIB scenario.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or chip designer, and the definitions should be made based on the contents throughout the present specification.

2 is a diagram illustrating a connection configuration for downloading a code of a network device according to the present invention.

Referring to FIG. 2, a flash memory 13 is provided inside the network device 10, and a system code (hereinafter referred to as a "code") is stored in the flash memory 13. When a change of the code stored in the flash memory 13 is required, the remote management system 20 downloads the new code to the network device 10 using the NMS software (S / W) 21. When downloading the code, the NMS S / W 21 of the management system 20 and the network equipment 10 communicate with each other according to the Simple Network Management Protocol (SNMP). In this case, the network S / W 21 operates by generating an SNMP packet, sending it to the network device 10, and receiving and processing the response. On the other hand, the network device 10 operates by receiving an SNMP packet sent by the NMS S / W 21, analyzing its meaning, performing a predetermined operation, and sending the result back to the SNMP packet. The content and meaning of the SNMP packets exchanged between the two is defined by a protocol called MIB (Management Information Base).

When code download is performed using SNMP in this manner, the TFTP server does not need to separately manage the operation of code download. In addition, only one protocol needs to be used between NMS S / W and network equipment. Also, since NMS S / W is leading the code transmission, the manager can easily see the progress. And you can also try to recover from errors using various algorithms or techniques.

The present invention consists of three types of NMS S / W module 21, an SNMP agent (AGENT) module in network equipment, and a MIB, which is a communication scenario between the two. The NMS S / W 21 is a module that contains the code to be downloaded to the network device 10 and becomes a subject of actual code download. That is, the NMS S / W 21 communicates with the SNMP agent 11 of the network device 10 to show the download process of the code to the administrator and to restore the error when an error occurs. When the SNMP agent 11 receives the code transmission start command from the NMS S / W 21, the SNMP agent 11 operates according to the required MIB scenario, downloads the code, and replaces the previous version of the system with the newly downloaded code. Perform. The MIB, which is a communication scenario, defines role sharing and operation scenarios between the NMS S / W 21 and the SNMP agent 11 required for code transmission and reception. This scenario is performed in both NMS S / W 21 and SNMP agent 11. The management system 20 including the NMS S / W 21 may be a personal computer (PC) on which a Windows program is installed.

3 is a view showing a specific process of the operation of downloading the code stored in the flash memory 13 of the network equipment 10 in accordance with the present invention.

Referring to FIG. 3, the manager attempts an SNMP connection to the network device 10 using the NMS S / W 21 mounted in the management system 20, and if a connection is made, a code in the network device 10 is established. Send the SNMP packet for querying the version information to the network device 10 and wait for a response (step 301).

The SNMP agent 11 mounted on the network device 10 takes out version information of the currently operating code and sends it to the management system 20 in an SNMP packet (step 302). If the code in the network equipment is a different version, the download operation of the new code is started. The NMS S / W 21 sends a command to the network device 10 to prepare for a download operation after performing a file transfer preparation operation and waits for a response (step 304). The SNMP agent 11 sets up an environment necessary for code transmission and reception (step 305), and informs the NMS S / W 21 of its completion (step 306).

Upon receiving a response from the SNMP agent 11 that the reception preparation is completed, the NMS S / W 21 immediately enters the transmission of the code file (step 307). At this time, the binary code file is sent to the SNMP agent 11 in the SNMP packet. In order to improve the transmission efficiency, it uses the octet type that can store binary data among the various data types that SNMP can carry and send in the largest packet that both parties can send and receive within the limit prescribed by SNMP. do.

Due to the nature of SNMP, packet loss is likely to occur, so the SNMP agent 11 sends a response packet to the NMS S / W 21 indicating whether the packet is normally received every time a packet is received (step 308). The NMS S / W 21 controls the transmission operation while looking at the response packet sent from the SNMP agent 11 side. Transmission operations such as packet retransmission and transmission rate adjustment can be controlled.

When the transmission of the code file is completed, the NMS S / W 21 sends a packet indicating the completion of the transmission and a packet containing information that can be used for verification (for example, checksum information, etc.) to the SNMP agent 11 side. Send and wait for a response (step 309).

The SNMP agent 11 sends a packet informing the NMS S / W 21 whether the reception is normally completed after completing a simple verification operation (for example, checksum inspection) on the received code file (steps 310 and 311). ).

When the normal code file is received, the SNMP agent 11 replaces the existing code with the new code and takes action to allow the network equipment 10 on which the mounted code is driven to run the new code (step 312). In many cases, a method of overwriting a content stored in the flash memory 13 of the network device 10 with a new code and rebooting the system is used. When the system of the network equipment 10 restarts with a new code, the SNMP agent 11 informs the NMS S / W 21 of the SNMP packet by using a trap packet in the SNMP packet ( Step 313). If an error occurs, the fact is informed to the NMS S / W 21 in the same manner.

The NMS S / W 21 receives the trap packet transmitted from the network device 10, checks whether the code download operation performed previously is successful, and informs the administrator (step 314). This completes the code download task using SNMP.

As described above, the present invention can more stably download a system code file for network devices equipped with an SNMP agent. Most network devices are equipped with SNMP agent to support SNMP communication, so it is possible to implement stable system code file download function at low cost without additional cost. This invention has the advantage of improving the reliability of the download function of the system code. In addition, the present invention has the advantage that can monitor the operating status of downloading the system code. In addition, the present invention has an advantage of facilitating a recovery operation for various errors occurring during the operation of downloading the system code.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

1 is a diagram showing a connection configuration for downloading a code of a network device according to the prior art.

2 is a diagram illustrating a connection configuration for downloading a code of a network device according to the present invention.

3 is a diagram illustrating a specific processing flow of an operation of downloading a code of network equipment according to the present invention.

Claims (7)

In the method of downloading the system code of the network equipment from the remote management system, Using the network management system (NMS) program installed in the management system to transfer the system code for a new change to the network device in an SNMP packet according to the SN protocol; And receiving the system code and replacing the previous system code by the SNP agent mounted in the network equipment. 2. The method of claim 1, wherein the management system and the network equipment communicate in accordance with an MIB scenario. In the method of downloading the system code of the network equipment equipped with the SMP agent (SNMP agent) using a network management system (NMS) program mounted on the remote management system, A first process of receiving, by the management system, current system code of the network device and receiving system code current version information informed by the network device; A second step of, when the system code current version information is received, the management system performs a file transfer preparation operation and instructs the network equipment to prepare a file transfer operation; A third step of setting up a code transmission / reception environment by the network equipment when a file transfer preparation work instruction is received from the management system; A fourth process of the management system transmitting a system code file in a packet to the network equipment when the third process is performed; And a fifth process of the network equipment receiving and verifying the system code file transmitted in the fourth process and replacing the existing system code with a new system code if there is no error. 4. The method of claim 3, further comprising a sixth step of informing the management system of whether a packet arrives one by one when the management system transmits a system code file in a packet to the network equipment. System code download method characterized in that. The method of claim 4, wherein the management system further comprises a seventh step of performing an operation of controlling a packet transmission operation from contents transmitted from the network equipment in the sixth step. The method of claim 3, further comprising: rebooting the system after the network device replaces the existing system code with a new system code and stores the new system code; And informing the management system of the successful reactivation of the system. The method of claim 6, wherein the management system further comprises informing the administrator of the fact that the network equipment informs the administrator of the successful reactivation of the system.