KR100845426B1 - Method and apparatus for providing event based availability guaranteed operational access service in distributed control environment - Google Patents

Abstract

The present invention relates to an event-based availability guarantee operation service technology in a distributed control environment. When an operation service is requested from an operation terminal or a network management unit to an application processor in a quality assurance service router (QSR), a quality guarantee service router is provided. It is characterized by determining the availability status of the control processor in the inside, selecting an available control processor according to the availability status determination result, and delivering the operation service to the operation terminal or the network management unit. According to the present invention, when there is an operation service request of an operation system or a network management system, it is possible to increase the operational safety of the system by determining the availability state of the control processor in a distributed control environment and delivering the operation service to an available control processor. Better operational management

Operational Services, Distributed Control Environments, Availability

Description

TECHNICAL AND APPARATUS FOR PROVIDING EVENT BASED AVAILABILITY GUARANTEED OPERATIONAL ACCESS SERVICE IN DISTRIBUTED CONTROL ENVIRONMENT}

1 is a physical configuration diagram for an event-based availability guarantee operation service in a distributed control environment according to an embodiment of the present invention;

FIG. 2 is a logical diagram illustrating an event-based availability guarantee operation service in the distributed control environment of FIG. 1. FIG.

3 is a flow chart for providing an event-based availability guarantee operation service in the distributed control environment shown in FIG.

4 is an exemplary diagram of an operational service availability status table.

<Description of the code | symbol about the principal part of drawing>

100: operation terminal

102: network management unit

104: external Ethernet

106: Quality of Service (QoS) Service Router

10: Application Processor (AP) Card

20, 30: control processor (Shelf Supervisory Card: SSC) card

The present invention relates to the improvement of the remote operation service structure of a QSS (QoS Service Router) system, and in particular, the availability according to the load degree of each control processor (Shelf Supervisory Card: SSC). The present invention relates to an event-based availability guarantee operation service apparatus and method in a distributed control environment suitable for enhancing stability and efficiency of equipment maintenance by allocating operation services.

The remote operation service provided by the QSR system can be accessed through Telnet protocol for the provisioning or management of equipment through the operating system by internal or external operators in the Internet network, or FTP (File Transfer Protocol). It refers to remote operation service for downloading or uploading backup file or log file through protocol or managing device through SNMP (Simple Network Management Protocol) network management protocol.

In addition to the existing QSR system, the remote operation service structure provided by the general equipment may have a structure called port redirect to receive only operation service requests allowed to operate the equipment.

The operational service structure of the QSR system is configured to connect to the telnet server, FTP server, or SNMP agent processor that is executed by multiple control processors in the distributed control environment when a port redirect processor in the system receives an operation service request. . In particular, when a control processor in a distributed control environment is not one but multiple control processors, it is possible to provide a load balancing based operation service for an operation service request.

The current QSR system has a very simple load balancing based operational service structure. The currently applied operational service structure allocates one operation service request sequentially to each control processor for the operation service request. If an operation service request is allocated to each control processor in this manner, the load on each and every control processor may not be evenly distributed because the operation execution time of each requested operation service is different.

The fact that the load balancing of all control processors in a distributed control environment cannot be made evenly is that it can add load to a particular control processor. This will prevent the control processor from properly performing operational services, which can adversely affect the maintenance of the equipment.

The present invention is to solve the above-described problems of the prior art, when the operation service is requested by grasping the availability status of the multi-control processor in the distributed control environment to find the available control processor to select and deliver the operation service for the system, An object of the present invention is to provide an event-based availability guarantee operation service apparatus and method in a distributed control environment that can more efficiently and efficiently execute an operation service.

According to an aspect of the present invention for achieving the above object, as an event-based availability guarantee operating service device in a distributed control environment to determine the availability according to the load degree of the control processor according to the operation access service request to allocate the operation service A quality assurance service router system that controls and monitors an application processor by the control processor on a shelf basis, allocates whether or not an operation service is provided, and allocates a control processor that delivers an access service; and a quality assurance service connected to an external Ethernet. An operation terminal for operating the quality assurance service router system through a management Ethernet port of an application processor of a router system, and an SNMP connection through a management Ethernet port of an application processor of the quality assurance service router system connected to the external Ethernet. A protocol provides a guaranteed service quality guarantees based on the availability of the event in a distributed control environment including a network manager for managing the router system management service device.

According to another aspect for achieving the object of the present invention, a distributed control environment for determining the availability according to the load of the control processor in the quality assurance service router according to the operation access service request from the operation terminal or the network management unit to allocate the operation service An event-based availability guaranteed operation service method of claim 1, further comprising: identifying an availability state of a control processor in the quality guaranteed service router when an operation service is requested from an operating terminal or a network manager to an application processor in the quality guaranteed service router; It provides an event-based availability guarantee operation service method in a distributed control environment including selecting the available control processor according to the availability status check result and delivering the operation service to the operation terminal or the network management unit.

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

The operation service apparatus based on the availability guarantee in the distributed control environment according to the present invention may be applied to the physical configuration diagram as shown in FIG. 1.

In FIG. 1, an operator uses an operating terminal 100 to operate an QSR system 106. An application processor of the QSR system 106 connected to an external Ethernet 104 through a telnet protocol is described below. The QSR system 106 can be operated by telnet access through a management Ethernet (ME) port of the card.

Alternatively, the operator may download logs and various data generated by the QSR system 106 through the ME port of the AP card of the QSR system 106 connected to the external Ethernet 104 through the FTP protocol using the operation terminal 100 or You can upload

Alternatively, the network manager 102 may manage equipment through the ME port of the AP card of the QSR system 106 connected to the external Ethernet 104 through the SNMP protocol to manage the QSR system 106.

The operation and control structure of the QSR system 106 is designed and developed based on a distributed control environment. Therefore, most of the control processors for operation and control are distributed to the AP card, the SSC (Shelf Supervisory Card) card, LC (Line Card) card, and FC (Fabric Card) card. In particular, the CLI shell executed to operate the device, and the SNMP adapter used to manage the network of the device are executed in the SSC card. The QSR system 106 is scalable from a minimum of one shelf to a maximum of two shelves, and the SSC card in each shelf basically not only controls and monitors all AP cards, LC cards, and FC cards in the shelf, but also the equipment. It also carries out the work for the whole operation and management.

Each shelf can be equipped with up to two SSC cards for redundancy, one for working and one for standby. As mentioned above, the purpose of the operation service request of the operation terminal 100 or the network management unit 102 is for the operation and management of the entire equipment, where the actual work for this operation service request is performed in the SSC card .

2 shows a logical configuration for an operation service based on availability guarantee in a distributed control environment.

As shown in FIG. 2, the operation service request of the operation terminal 100 or the network management unit 102 may be configured as a Port Redirect of the AP card 10 in the QSR system 106 via the external Ethernet 104. The processor 12 receives.

The port redirect processor 12 of the AP card 10 performs the operation service to the load manager (LDMgr) processor 14 of the AP card 10 to ensure availability for the operation access service. For SSC card identification information.

The load manager processor 14 maintains an operational Service Availability Status Table (see FIG. 4) that manages the available SSC information, and loads the available SSC information selected from the table into a port redirect processor (see FIG. 4). Answer 12).

The operational service availability status table managed by the load manager processor 14 is maintained in the following manner.

The load manager processor 14 performed on the AP card 10 is a load reporter (LDRpt) processor 22 or 32 performed on all SSC cards 20 and 30 connected to internal Ethernet in the QSR system 106. The availability status information of the SSC cards 20 and 30 is received.

The load manager processor 12 maintains an available SSC card table with availability status information reported by each SSC card 20, 30, and port redirection processor for SSC card identification information which maintains any availability status. Notify (12). Accordingly, the port redirect processor 12 in the AP card 10 can deliver the operational service request telnet request service, FTP request service, and SNMP request service to an available SSC card.

The forwarded operational service requests are forwarded to each server running on the available SSC card to perform the associated request service.

3 shows a flow of providing connection services based on the availability guarantee of a plurality of control processors in a distributed control environment between the port redirect processor 12, the load manager processor 14, and the load report processors 22 and 32.

As shown in FIG. 3, when an operation service is requested from the operation terminal 100 or the network manager 102 to the port redirect processor 12 of the AP card 10 (S300), the port redirect processor 12 operates. The load manager processor 14 requests the SSC card information to which the service is to be allocated (S302).

The load manager processor 14 looks at the operational service availability status table and responds to the port redirect processor 12 with the available SSC card ID.

If, as in step S304, the load manager processor 14 does not have an SSC ID available in the operational Service Availability Status Table (see FIG. 4) it is maintaining, a " Reply with None) "message is transmitted to the port redirect processor 12, and the port redirect processor 12 receiving the message rejects the operation service request of the operation terminal 100 or the network manager 102.

In another case, when an operation service is requested from the operation terminal 100 or the network management unit 102 to the port redirect processor 12 of the AP card 10 (S306), the port redirect processor 12 allocates the operation service. The SSC card information is requested to the load manager processor 14 (S308).

The load manager processor 14 looks at the operational service availability status table and responds to the port redirect processor 12 with the available SSC card ID.

If, as in step S310, the load manager processor 14 has an available SSC ID in the service availability status table (see FIG. 4) being maintained, for example, " SSC "# 1 response (Reply with SSC # 1) "message to the port redirect processor 12, the port redirect processor 12 receiving the message is a management service of the operating terminal 100 or the network management unit 102 The request is forwarded to the SSC # 1 card 20.

In another case, when an operation service is requested from the operation terminal 100 or the network management unit 102 to the port redirect processor 12 of the AP card 10 (S312), the port redirect processor 12 allocates the operation service. The SSC card information is requested to the load manager processor 14 (S314).

The load manager processor 14 looks at the operational service availability status table and responds to the port redirect processor 12 with the available SSC card ID.

If, as in step S316, the load manager processor 14 has an available SSC ID in the service availability status table (see FIG. 4) being maintained, for example, " SSC "# 2 response (Reply with SSC # 2) "message is transmitted to the port redirect processor 12, and the port redirect processor 12, which has received the message, operates an operation service of the operation terminal 100 or the network management unit 102. The request is forwarded to the SSC # 2 card 30.

3 also reports from load report processors 22 and 32, which collect and report the availability status of multiple SSC cards in a distributed control environment, and load report processors 22 and 32 of each SSC card 20 and 30. FIG. The interaction relationship between the load manager processors 14 maintaining the availability status information is shown.

"Power On" in step S318 is a process in which the SSC # 1 card 20 is booted, and step S320 is an initialization (Initializing LDReporter Process) process in the load report processor # 1 22.

In operation S322, the "SSC # 1 Wakeup Event" is a process in which the load report processor # 1 22 registers the SSC ID with the load manager processor 14.

Step S324 is a process of periodically checking whether SSC # 1 is in an availability state.

If the state of SSC # 1 changes from an unavailable state to an available state (S326), the load report processor # 1 22 sends an SSC # 1 service availability event to the load manager processor 14 (SSC # 1 Service Availability). Send an Event).

On the other hand, when the state of the SSC # 1 changes from the available state to the unavailable state (S330), the load report processor # 1 (22) to the load manager processor 14 SSC # 1 service unavailable event (SSC # 1 Service Send an Unavailability Event.

On the other hand, the interaction relationship between the load manager processor 14 for maintaining the availability status information reported from the load report processor # 2 (32) is a process from step S332 to step S344, and this process is described above. Since it is the same as the interaction relationship of one load report processor # 1 22, the detailed description is abbreviate | omitted.

In this manner, the load manager processor 14 may maintain the available states of a plurality of SSCs in a distributed control environment.

According to the present invention, when there is an operation service for operating the system coming from the operating system or the network management system, if it is unable to perform the operation service by grasping the availability status of the control processor in a distributed control environment, the service is not available response or availability status By delivering the operation service to the control processor that maintains the system, it is possible to increase the operational availability and safety required for the system operation and to perform better operation management. That is, the present invention can provide a stable and efficient operation service of the system, it is possible to increase the reliability of the operation management of the system and to enable stable and efficient equipment operation.

On the other hand, the present invention is not limited to the above-described embodiment, various modifications are possible by those skilled in the art within the spirit and scope of the present invention described in the claims to be described later.

Claims (7)

An event-based availability guarantee operating service device in a distributed control environment that allocates an operation service by determining availability according to a load of a control processor according to a request for an operation access service. A quality assurance service router system for controlling and monitoring an application processor by the control processor on a shelf basis and for providing an operation service and a control processor capable of providing the service processor to deliver an access service; An operating terminal connected to an external Ethernet and operating the quality guaranteed service router system through a management Ethernet port of an application processor of the quality guaranteed service router system; A network management unit connected to the external Ethernet to manage the quality assurance service router system through the SNMP protocol through the management Ethernet port of the application processor of the quality assurance service router system Event-based availability guarantee operation service device in a distributed control environment including a. The method of claim 1, The operation terminal, In the distributed control environment, the log and various data generated by the quality assurance service router system are downloaded or uploaded through an Ethernet port of an application processor of the quality assurance service router system connected to the external Ethernet through the FTP protocol. Event-based availability guaranteed operational service device. The method of claim 1, The application processor, A port redirect processor provided with operational services to ensure availability of operational access services; A load manager processor that maintains an operational service availability status table for managing available control processor information and responds to the port redirect processor with available control processor information selected from the table; Event-based availability guarantee operation service device in a distributed control environment including a. The method of claim 1, The control processor, And a load report processor for providing availability status information of the control processor. An event-based availability guarantee service method in a distributed control environment in which an operation service is allocated according to a load degree of a control processor in a quality guaranteed service router according to a request for an operation access service from an operation terminal or a network management unit. Determining an availability state of a control processor in the quality guaranteed service router when an operation service is requested from the operation terminal or the network manager to an application processor in the quality guaranteed service router; Selecting an available control processor according to the availability state checking result and delivering an operation service to the operation terminal or the network management unit; Event-based availability guarantee operation service method in a distributed control environment including a. The method of claim 5, wherein Identifying the availability state, And an operation service availability status table managed by a load manager processor in the control processor. The method of claim 6, Delivering an operation service to the operation terminal or network management unit, If there is no control processor ID available in the operation service availability status table, rejecting an operation service request by the operation terminal or the network manager by transmitting a non-response message to the application processor; If there is an available control processor ID in the operation service availability status table, requesting an operation service of the operation terminal or the network manager by transmitting a control processor response message corresponding to the control processor ID to the application processor; Event-based availability guarantee operation service method in a distributed control environment including a.

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