KR101043138B1 - Method of polling performance data of DSLAMDigital Subscriber Line Access Multiplexor based on state machine and device thereof - Google Patents

Abstract

The present invention provides the performance information of the subscriber DSLAM port of the Digital Subscriber Line Access Multiplexor (DSLAM), which is one of the management equipment of the Access Domain Management System-Network Management (ADM-NM). The method relates to collecting the information of the subscriber DSLAM port using the modem UP / DOWN Trap message of the subscriber from the DSLAM, and furthermore, by using the trap message and ping test generated from the DSLAM equipment It collects and manages state information. Through this configuration, it is possible to reduce the overload of the system due to unnecessary retries caused by the polling method of sequentially collecting performance information on the entire subscriber port including the subscriber DSLAM port of the equipment which is not used by the conventional subscriber or the system is down. have.

Description

Method of polling performance data of DSLAM (Digital Subscriber Line Access Multiplexor) based on state machine and device

1 is a diagram illustrating a network of a general Internet service.

2 is a diagram illustrating a configuration of a data collection server according to the present invention.

3 illustrates a system state management table in accordance with the present invention.

4 illustrates a port state management table in accordance with the present invention.

5 is a state machine diagram illustrating a state transition of a port.

6 is a flow chart illustrating the operation of managing port state in accordance with the present invention.

7 is a state machine diagram illustrating a state transition of the system.

8 is a flowchart illustrating the operation of managing system state in accordance with the present invention.

9 is a flow chart illustrating a method for polling performance data in accordance with the present invention.

The present invention provides the performance information of the subscriber DSLAM port of the Digital Subscriber Line Access Multiplexor (DSLAM), which is one of the management equipment of the Access Domain Management System-Network Management (ADM-NM). The method of collecting, in particular, collects and manages the status information of the subscriber DSLAM port by using the modem UP / DOWN Trap message of the subscriber from DSLAM, and furthermore, by using the trap message and ping test generated from DSLAM equipment. Disclosed is a technique for collecting and managing the state information of the.

As shown in FIG. 1, an Internet service subscriber accesses the Internet through a PSTN, an ISDN, and an ADSL network through his subscriber stations 1a-1f to receive desired Internet services. When connected via a PSTN and an ISDN network, a remote access server (RAS; Remote Access Server; 2) is connected to the Internet server 5 of the Internet network, and when connected via an ADSL network, the DSLAM (3 ) And a network access server (NAS) 4 to access the Internet server 5 of the Internet network.

Meanwhile, as the number of Internet service users is increasing all over the world, the demand for user service quality is diversified. Also, due to the explosive increase in the demand and traffic of Internet service caused by the rapid quantitative expansion of Internet service users, Internet service jams , Stability and many other problems are appearing, and users are also diversifying their desire for Internet service quality.                         

In order to meet these demands, methods for measuring the performance of devices (eg, RAS, DSLAM, NAS, etc.) of the Internet network from the standpoint of operating the Internet network have been proposed.

Existing network management systems are described in detail in ITU-T Recommendations M.3100, M.3400 and G.805, based on the concept of Telecommunications Management Network (TMN). It has a Polling Machine that is in charge of collecting information, and is responsible for sequential performance data collection for the entire equipment.

However, according to the general polling method described above, when data collection fails in the process of sequentially collecting data for all network equipment, or when the subscriber's modem is in the OFF state, the failure is registered in the retry list. After that, the retry is repeated.

Such a conventional polling method has a heavy load on the system network due to the repetitive retry described above, which makes it practically impossible to collect performance information on individual ports of individual network equipment (especially, DSLAM).

As an alternative in this situation, we have relied on indirect data collection through the EMS (Enterprise Management System). However, it is a fact that EMS is significantly less valuable as data for managing performance information on actual subscribers due to a decrease in reliability, lack of maintenance and management.

In addition, Internet service subscribers are also increasing their interest in service level agreements (SLAs), making it difficult to collect performance data on subscriber ports.

In order to meet the problems of the prior art and the needs of subscribers, the present invention aims to provide a data collection server that minimizes network load, satisfies subscribers' needs and collects more reliable subscriber performance data.

In addition, another object of the present invention by collecting and managing the port status information and the system status information through the trap message and ping test generated in the DSLAM equipment, by utilizing the above state information when collecting performance data for the DSLAM equipment It is to provide a technique to reduce the load.

According to an aspect of the present invention, there is provided a communication network management system including: a trap receiver for receiving a trap message transmitted from a digital subscriber line access multiplexer (DSLAM); A system state manager for managing the system states of the plurality of DSLAMs in a table form; A port state manager for managing a state of a plurality of DSLAM user ports in a table form; And a trap analyzer 203 for analyzing the system state of the DSLAM and the state of the DSLAM user port using the received trap message, and controlling to update the tables of the system state manager and the port state manager based on the received system. Characterized in that.

In addition, the communication network management method for collecting and managing the performance data of the DSLAM according to the present invention, the first step of receiving a trap message from the DSLAM; Analyzing a system state of the DSLAM and a state of the DSLAM user port by using the received trap message; A third step of updating system states and port states managed in a table form through the state analysis; A fourth step of creating a list in a case where a port state of normally operating systems is normal based on the updated table; And a fifth process of sequentially performing performance tests on the normal ports for each system listed in the list.

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

2 illustrates a configuration of a data collection server according to a feature of the present invention.

The data collection server of the present invention includes a system state manager 201, a trap receiver 202, a trap analyzer 203, and a port state manager 204.

First, the system state manager 201 manages the system state of the DSLAM to be managed in a table form. As an example, as shown in FIG. 3, the number of systems and the state of each system are managed in an UP / DOWN state, and if the state of each system is changed, the changed state is updated.

The system state manager 201 checks the state of the system by performing a ping test on the systems having the system state of the DOWN state every predetermined period. If, through this ping test, the system does not show any response, it notifies that the system is in the DOWN state. The system state manager 201 also has a function of resetting the entire system on the system state table to the DOWN state at specified cycles and rechecking the state of the entire system.

The trap receiver 202 communicates with the DSLAM device to be managed through the SNMP protocol and sets a trap destination of the DSLAM device as a data collection server according to the present invention. Specifically, the trap receiver 202 performs a function of receiving a trap transmitted from the DSLAM device in consideration of the normal operation of the DSLAM device to generate a trap for the trap message. In particular, by receiving the modem up / down trap (modem up / down trap) generated differently according to the ON / OFF state of the subscriber modem to analyze the state of the port through the trap analyzer 203 to be described later, and also from the DSLAM equipment Receive traps to help you analyze the system status of your DSLAM device.

The trap analyzer 203 analyzes the traps of the DSLAM equipment received by the trap receiver 202 and enables the system state manager 201 and the port state manager 204 to manage the state of the system and the port state. .

In the specific method of the trap analyzer 203 analyzing the state of the system, the state in which the DSLAM device generates the trap for all trap messages is determined as a normal operation state (UP), and if the system is down, the trap is generated. For DSLAM equipment that can not be used, it is determined that it is in the DOWN state.

In addition, the trap analyzer 203 how to determine the state of the port, by receiving a modem up / down trap as described above, by applying the message parsing criteria prepared in advance according to the MIB information of the equipment vendor, It uses the method of finding UP / DOWN information of subscriber port based on the ON / OFF status of subscriber modem.

The port state manager 204 manages the state of each user port using a port state table, as shown in FIG. 4, based on the analysis result of the trap analyzer 203.

Hereinafter, a specific method of managing the state of a subscriber port according to the present invention will be described with reference to FIGS. 5 and 6.

First, as shown in FIG. 5, the state of the subscriber port has two states of UP / DOWN, and the initial state initializes all the subscriber ports to the UP state and, if a modem down trap occurs, the initial UP state. Change to the DOWN state and maintain the initial UP state if a modem uptrap occurs. If the state of the subscriber port is in the DOWN state, the operation of changing or maintaining the state is performed according to the modem up / down trap.

6 shows a state management flow diagram of a DSLAM port in accordance with the present invention.

First, a trap is received from the outside through the trap receiver 202 (S601), and the trap is parsed by the trap analyzer 203 (S602). Then, it is determined whether the received trap is a modem up / down trap (S603), and if it is determined that the modem is a trap (S604), the port state is updated to the UP state (S605). That is, if the existing port state is already in the UP state, the UP state is maintained. If the existing port state is the DOWN state, the state is changed to the UP state.

In S604, if the modem is not a trap up trap, that is, if the received trap is a modem down trap, the port state is updated to the DOWN state (S606).

7 and 8 illustrate a method of managing the system state of the DSLAM.

7 shows a state machine chart for managing the system state of the DSLAM. First, as shown in FIG. 5, the state of DSLAM also has two states, system UP and system DOWN. In the initial state, the state of all systems is initialized to the DOWN state. If the system fails the ping test in the DOWN state, it will remain in the DOWN state. On the contrary, if the ping test succeeds or a trap event occurs, the system transitions from the DOWN state to the UP state.

In the system UP state, even if a special trap event occurs, the UP state remains unchanged, and in a situation of resetting all system states at a preset period, the state is changed to DOWN state.

8 is a flow chart for managing system state in accordance with the present invention.

First, the trap receiver 202 receives a trap message from the DSLAM (S801), and parses the trap message received through the trap analyzer 203 (S802). The state of the system is updated to UP (S803). This is the same as changing or maintaining the state of the system to UP when a trap event occurs as described above with reference to FIG. 7.

9 is a flowchart illustrating a polling method of collecting performance data of DSLAM according to the present invention.

The method of polling the performance data described with reference to FIG. 9 is performed in the situation where the system state table and the port state table are normally managed through the data collection server described with reference to FIGS. 1 to 8. First of all, it is polling.

First, a list of systems in which the state of the system maintains UP is extracted from the normally managed system state table to generate a separate system UP list (S901).

In addition, specific performance data is polled for individual systems (items) listed in the system UP list, and the individual systems (items) in the system UP list are extracted one by one (S902) to check whether the corresponding item is the final item first. (S903).

If there are no more items to select, proceed to the end. If there are more objects to poll, check the port status of the item (system) and extract the ports whose port status is UP to generate a port UP list. (S904).

After sequentially polling the performance data for individual ports listed in the port UP list, the process returns to S902 to select another item in the system UP list to repeat the following steps.

As described above, by separately managing the state table of the system and the state table of the port, it is possible to solve the unnecessary retries caused by the failure in the performance data collection process for the entire equipment, and thus caused by retries It is effective to solve the service failure and server resource overload problem caused by network overload.

Claims (8)

A trap receiver for receiving a trap message sent from a digital subscriber line access multiplexer (DSLAM); A system state manager for managing the system states of the plurality of DSLAMs in a table form; A port state manager for managing a state of a plurality of DSLAM user ports in a table form; And A trap analyzer for analyzing a system state of the DSLAM and a state of the DSLAM user port using the received trap message, and controlling to update the tables of the system state manager and the port state manager based on the received state; And the trap analyzer collects performance data with respect to the DSLAM in which the state of the system and the user port remains normal by referring to the updated table of the system state manager and the port state manager. 2. The network management system of claim 1, wherein the system states of the plurality of DSLAMs and the states of the plurality of DSLAM user ports are managed in two states, UP / DOWN. The communication network management system according to claim 1, wherein the system state manager checks a state of the system by performing a ping test on a DSLAM whose system state is DOWN. 4. The network management system according to any one of claims 1 to 3, wherein the system state manager resets the system states of all DSLAMs at predetermined intervals. 4. The network management according to any one of claims 1 to 3, wherein the state of the DSLAM user port is determined by using a modem up / down trap message generated differently according to the ON / OFF state of the subscriber modem. system. In the communication network management method for collecting and managing the performance data of DSLAM, A first step of receiving a trap message from the DSLAM; Analyzing a system state of the DSLAM and a state of the DSLAM user port by using the received trap message; A third step of updating system states and port states managed in a table form through the state analysis; A fourth step of creating a list in a case where a port state of normally operating systems is normal based on the updated table; And And a fifth step of collecting performance data on normal ports for each system listed in the list. 7. The method of claim 6, wherein the state of the DSLAM user port is determined using a modem up / down trap message generated differently according to the ON / OFF state of the subscriber modem. The DSLAM according to claim 6 or 7, wherein after the third process, a ping test is performed on the DSLAM having a system state of DOWN, or the process returns to the first process to receive and analyze the trap message. Updating the system status of the network.

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