KR20040020343A - System and method for managing network - Google Patents

Abstract

PURPOSE: A network management system and a method therefor are provided to decide a data collection period of the network management system according to an interface speed of a network equipment. CONSTITUTION: An equipment information database(140) stores information about an equipment(150). A speed collecting unit(110) reads connection information of the equipment(150) from the equipment information database(140), and connects to the equipment(150). The speed collecting unit(110) collects interface speed information of the equipment(150), and stores collected interface speed information of the equipment(150) in the equipment information database(140). A collection period deciding unit(120) reads interface speed information of the equipment(150) from the equipment information database(140), and calculates a period to collect data from the equipment(150) by interface speed information and a range value of the data of the equipment(150). The collection period deciding unit(120) stores the calculated data collection period in the equipment information database(140). A data collecting unit(130) receives data collection period information from the equipment information database(140), and collects the data from the equipment(150).

Description

System and method for managing network

The present invention relates to a network management system and a method thereof, and more particularly, to a network management system that collects data by determining a data collection cycle of a network device to be managed according to the interface speed of the corresponding network equipment instead of a fixed cycle. And to a method thereof.

The computer network provides various functions and services due to the rapid development of related technologies, and is changing from the centralized method in the past to the distributed environment.

And the computer network is provided by many suppliers and consists of various equipments, which inherently includes complexity and heterogeneity.

Therefore, the importance of computer network management for effectively monitoring and controlling such computer network components is increasing.

Therefore, if there is no open and standardized management system for effectively managing heterogeneous networks, an open system that guarantees compatibility and interoperability loses its meaning due to out of control. In order to exchange management information between the two, the mainstreaming is to standardize computer network management mechanisms such as management information communication protocol, management information structure and definition of management information, and to develop network management system based on it.

Currently, Simple Network Management Protocol (SNMP) provides a structure and a system that can easily operate a computer network based on TCP / IP (Transmission Control Protocol / Internet Protocol) for efficient management of heterogeneous computer networks. ) Is mainly used.

In addition, the management information used to manage a computer network based on TCP / IP has a common structure and identification technique for defining management information in the Structure of Management Information (SMI) standard. The technique uses Abstract Syntax Notation One (ASN. 1).

Abstract Syntax of Performance Statistics-related Attributes of Managed Object in Management Information Structure The notation 1 is as follows.

SNMP version Syntax of Abstract Syntax Notation 1 Version 1 Integer, Counter32, Gauge32 Version 2 Integer, Counter32, Gauge32, Counter64, Gauge64

Here, when version 1 of the simple network management protocol is used, and when the syntax of the abstract syntax notation 1 is Counter32 / Gauge32, the maximum value is 2 ³² -1 bytes, and the range of the value is 0 to 4,292,967,295. (= 2 ³² -1) bytes.

Also, for version 2 of the Simple Network Management Protocol, if the syntax of Abstract Syntax Notation 1 is Counter64 / Gauge64, the maximum value that can be taken is 2 ⁶⁴ -1 bytes, and the value ranges from 0 to 18,446,744,073,709,551,615 (= 2 ⁶⁴ -1) bytes.

And, if the counter statement exceeds the maximum value that can be taken, it starts at 0 again and increases sequentially.

In general, when the network management system collects data at regular intervals using the form of the counter syntax, the network management system calculates the difference between the previous interval collection value and the value generated during the period.

If the current collection value is smaller than the previous period collection value, it is reset to 0 after exceeding the maximum value and counted as a cumulative counter.

However, the speed of computer equipment is getting faster and Tera-bit Ethernet Switch is coming to commercialization soon. Becomes shorter.

Therefore, if the data measuring period becomes long, it is not possible to know how many times the measured value has been measured after the reset, and at this time, it may be meaningless to compare the difference between the value collected in the previous period and the currently collected value. .

In order to solve the above problems, an object of the present invention is to determine the data collection cycle of the network management system according to the interface speed of the network equipment.

1 is a block diagram of a network management system according to the present invention.

2 is an operation flowchart of the network management system of FIG.

3 is a flowchart illustrating a data collection period calculation of the collection period determiner of FIG. 1.

To this end, the network management system according to the present invention, a network management system for managing heterogeneous equipment constituting a network, comprising: a device information database for storing information about the equipment; A speed collector configured to obtain the connection information of the equipment from the equipment information database, access the equipment to collect interface speed information of the equipment, and store the collected interface speed information in the equipment information database; It takes the interface speed information of the equipment from the equipment information database, calculates the interval to collect data from the equipment by using the interface speed information and the range of data that the equipment can take, and stores the calculated data collection cycle in the equipment information database. A collection cycle determination unit; And a data collector configured to receive period information for collecting data from the equipment information database and collect data from the equipment.

The network management method according to the present invention includes a network management method for managing heterogeneous equipment constituting a network, the method comprising: extracting interface speed information of a device by accessing the device; Calculating a period of collecting data from the device by using the extracted interface speed information and a range value of the data that the device can take; And collecting data from the equipment according to the data collection cycle.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a network management system 100 according to the present invention. The equipment information database 140, which stores information of the equipment 150 constituting the network, and the equipment information database 140 from the equipment ( Equipment from the speed collecting unit 110 and the equipment information database 140 to obtain the connection information of the 150 to access the equipment 150 to collect the interface speed information of the equipment 150 and store it in the equipment information database 140 The collection period determination unit 120 calculates a period for collecting data from the equipment 150 with reference to the interface speed information of the 150 and stores the data in the equipment information database 140, and the data in the equipment information database 140. The data collection unit 130 collects data from the equipment 150 by referring to the cycle information to be collected.

The equipment 150 is all heterogeneous equipment constituting the network, and is connected to the network management system 100 by TCP / IP.

A detailed description of the network management system 100 having the above configuration will be described in detail below with reference to FIG. 2.

The speed collector 110 obtains the connection information of the equipment 150 constituting the network from the equipment information database 140 (S210), and accesses the equipment 150 by using a simple computer network management protocol. Collect the interface speed information and store it in the equipment information database 140 (S220).

And in order to collect the interface speed information of the equipment 150 according to the change of the equipment 150 constituting the network speed collection unit 110 operates at regular intervals to update the interface speed information of the equipment 150 to the latest information. Update to.

The collection period determination unit 120 refers to the interface speed information of the equipment 150 thus collected from the equipment information database 140, calculates a data collection cycle according to the interface speed for each equipment 150, and calculates the data collection cycle according to the equipment information database 140. Save to (S230).

Then, the data collection unit 130 imports and registers information on each device 150 to collect data for each calculated cycle from the device information database 140 together with interface information of the corresponding device 150 (S240). In accordance with the registered period, the interface information of the corresponding equipment 150 is used to collect the data by accessing the equipment 150 (S250).

As described above, the data collection cycle calculation of the collection cycle determination unit 120 of the network management system 100 that collects data by calculating the data collection cycle by the interface speed of the equipment 150 will be described in detail as follows. .

For example, when the syntax of the abstract syntax notation 1 of the management information structure of the equipment 150 is Counter32 and the speed of the interface of the equipment 150 is up to 2.5 Gbps, the equation for obtaining the data collection cycle of the equipment 150 is As follows.

Here, the range of data that Counter32 can take is 2 ³² (= 4292967296), and 8 is multiplied to change by bits because the data range of Counter32 is in bytes.

In addition, when the interface speed of 2.5Gbps is changed in units of bits / sec, the data collection period of the device 150 is 2684354560 bits / sec.

Becomes

Similarly, for another example, when the syntax of the abstract syntax notation 1 of the management information structure of the equipment 150 is Counter64, and the speed of the interface of the equipment 150 is up to 2.5 Gbps, the data collection cycle of the equipment 150 is determined. The formula is

Since the data range value of Counter64 is 2 ⁶⁴ (= 18446744073709551616), the data collection period of the equipment 150 is 54975581388.8 seconds.

That is, if the syntax of the abstract syntax notation 1 of the equipment 150 is Counter32, one or more data collections should be made within about 13 seconds.

However, since the data collection period calculated by the above formula may have a decimal place as described above and is not grouped by a certain unit, for example, dividing the seconds by 60 to divide the minutes into minutes, discarding the values below the decimal point, etc. By performing the operation of, it is preferable to group by the same period for each equipment 150.

By doing so, it is possible to reduce the number of times the data collection unit 130 collects data by uniformly collecting the data of the equipment 150 having the same cycle according to the grouped cycle, and then the overall network management system 100 dimension By setting a cycle as a comparison reference, the data collected from each device 150 can be converted into a batch and used as network management data.

The data collection cycle calculation process of the collection cycle determination unit 120 is summarized in FIG. 3.

First, the interface speed information of the device 150 in the network is read (S310), and the syntax of the abstract syntax notation 1 of the corresponding device 150 is analyzed (S320).

Subsequently, the data collection period is calculated by substituting the interface speed information of the read-out equipment 150 and the syntax form of the analyzed abstract syntax notation 1 into the following equation (S330).

The data collection cycle is determined by obtaining an approximation value so that the values of the calculated data collection cycle in the unit of second may be grouped at regular intervals (S340).

That is, the present invention allows data collection to occur at least once within a change period of the data range value of the equipment 150.

As described above, the present invention can accurately calculate data collection for network equipment having various interfaces by automatically calculating data collection cycles for the management of the equipment constituting the network for each interface speed and collecting data accordingly. In addition, there is an effect that can be used to compare the data between the equipment by using the collected data.

Claims (3)

In the network management system for managing heterogeneous equipment constituting the network, A device information database storing information about the device; A speed collector configured to obtain access information of the device from the device information database, access the device to collect interface speed information of the device, and store the collected interface speed information in the device information database; The interface speed information of the device is obtained from the device information database, and the period of collecting data from the device is calculated using the interface speed information and a range value of data that the device can take, and the calculated data collection period is calculated. A collection cycle determination unit for storing in the equipment information database; And And a data collector configured to receive period information for collecting the data from the equipment information database and collect data from the equipment. In the network management method for managing the heterogeneous equipment constituting the network, Extracting interface speed information of the device by accessing the device; Calculating a period of collecting data from the device using the extracted interface speed information of the device and a range value of data that the device can take; And And collecting data from the device according to the data collection period. The method of claim 2, The process of calculating the data collection cycle, Reading interface speed information of the equipment; Determining a range of data that the equipment can take; Calculating the range value by dividing the range value and the interface speed by a predetermined unit and dividing the range value by the interface speed; And And converting the calculation result value into an approximation value of a predetermined unit format to determine the data collection period.