CN114039872B - Service access visual monitoring method based on service oriented architecture - Google Patents

Abstract

The invention provides a service access visual monitoring method based on a service-oriented architecture, and relates to the technical field of power automation. The method comprises the following steps: s1, when the monitoring tool is started, communication connection is established with a service agent, service access interaction section data cached by the service agent is obtained, interface initialization is carried out, S2, the service agent sends generated real-time service access process information to the monitoring tool, and S3, the monitoring tool carries out visual display on the received service access process information. According to the service access method and the service access system, the service access interaction flow, the interaction links, the connection information and the communication messages are monitored according to the hierarchical relation of the service access process and the service interaction links, so that visual display of service access is realized, better troubleshooting and analysis results of operation and maintenance personnel are facilitated, and high efficiency and reliability of operation and maintenance are greatly improved.

Description

Service access visual monitoring method based on service oriented architecture

Technical Field

The invention belongs to the technical field of power automation, and particularly relates to a service access visual monitoring method based on a service-oriented architecture.

Background

Along with the continuous expansion of dispatching automation service and the popularization of unattended substations, the information interaction requirements between a regulation master station and the substations are increased, and how to design a flexible and easily-expandable master-substation interaction mode is more and more important.

The rise of service-oriented architecture and the appearance of general service protocols of power systems provide a good solution for the cooperation of the main station and the sub station. Regulating and controlling information interaction between a master station and a substation in a service mode, wherein a service agent realizes a unique outlet of data interaction between the master station and the substation and is responsible for forwarding service access requests and reply results; the service management center is responsible for managing the registration, positioning and service information of all the services in the station; the service provider is responsible for providing an access interface to the outside in the form of a service. The interaction mode has good universality and expandability, however, the service access process often involves a plurality of modules, including a service agent, a service management center, a service provider and the like, and when a fault occurs, how to quickly locate links and reasons of the fault is particularly important to realize effective monitoring of the service access process.

Disclosure of Invention

The invention provides a service access visual monitoring method based on a service-oriented architecture, which monitors service access interaction flow, interaction links, connection information and communication messages according to the hierarchical relationship of the service access process and the service interaction links, realizes visual display of service access, is beneficial to better troubleshooting and analysis results of operation and maintenance personnel, and greatly improves the efficiency and reliability of operation and maintenance.

A service access visualization monitoring method based on a service oriented architecture, comprising the steps of:

s1, when a monitoring tool is started, establishing communication connection with a service agent, acquiring service access interaction section data cached by the service agent, and initializing an interface;

s2, the service agent sends the generated real-time service access process information to a monitoring tool;

the method specifically comprises the following steps:

s201, a regulating master station sends a service access request to a substation service agent, the substation service agent analyzes a service name, creates a service access process object instance, sends service access process object instance information to a monitoring tool, creates a service access process node after the monitoring tool receives the service access process object instance information, and places the node in an in-process state;

s202, a substation service agent records each interaction link in a service access process, creates a corresponding service interaction link object instance, caches connection information and communication message data, simultaneously sends the service interaction link object instance information to a monitoring tool, creates a service interaction link sub-node under a node belonging to the service access process after the monitoring tool receives the service interaction link object instance information, and binds the connection information and the communication message data with the node;

s203, the substation service agent forwards the last frame of the service access result to the regulation master station, marks the end of the service access process, and notifies the monitoring tool, and the monitoring tool receives the service access end information and marks the corresponding node of the service access process as a completed state;

and S204, in the interaction process, when the service interaction is abnormally terminated or overtime is caused, the substation service agent marks the abnormal end of the service access process, and notifies the monitoring tool, the monitoring tool receives the abnormal end information of the service access process, and the corresponding node of the service access process is marked as an abnormal termination state.

And S3, the monitoring tool visually displays the received service access process information.

The method specifically comprises the following steps:

s301, constructing tree nodes according to the hierarchical relationship of the service access process and the service interaction link, displaying the tree nodes on a left interface, and simultaneously marking the node states of the service access process by using different colors;

s302, displaying different contents according to different types of clicked nodes on a right interface, displaying a service access dynamic interaction process in a way that a connecting line is gradually lightened when a parent node of a service access process is clicked, displaying connection information of a service interaction link, and displaying a communication message corresponding to the interaction link when a child node of the service interaction link is clicked.

The invention is further provided with: in the S1 operation step, the service access interaction section data includes a history service access interaction process, an interaction link, connection information and a communication message, so that after the monitoring tool is started, problem analysis and processing are performed on the history service access process in which the abnormality occurs.

The invention is further provided with: in the S2 operation step, the service access request initiated by the master station includes a model, data, graphics, files, alarms and a service list, and service access interaction links and flows corresponding to different service access requests are different, and can be divided into the following two types:

(1) Regulation master station-service agent-service management center: when the regulation master station initiates service provider list query, service list query and service information query requests, the service agent only interacts with the service management center and forwards interaction results to the regulation master station;

(2) Regulatory master-service agent-service provider: when the regulation master station initiates a service request related to a model, data, graphics, files and alarm service, the service agent firstly goes to a service management center to acquire a service positioning result, interacts with a service provider according to information in the positioning result, and forwards the interaction result to the regulation master station.

The invention is further provided with: in the S2 operation step, the "in progress" state, the "completed" state and the "abnormal termination" state refer to different states of the node in the "service access process", and the states of the different nodes are distinguished in an intuitive manner by marking in different colors and in a flashing manner.

The invention is further provided with: in the step S3, the step-by-step lighting mode of the connection line means that the connection line between the interaction links is sequentially lighted according to the sequence of service interaction, the access process of service interaction and the related interaction links are dynamically displayed, and when the service interaction flow and the service interaction links are different, the displayed content of the graphical interface is also different.

The invention provides a service access visual monitoring method based on a service-oriented architecture. The beneficial effects are as follows:

on the basis of a service-oriented architecture, the invention monitors the service access interaction flow, the interaction link, the connection information and the communication message according to the hierarchical relationship of the service access process-the service interaction link, realizes the visual display of the service access, is beneficial to the better troubleshooting and analysis results of operation and maintenance personnel, and greatly improves the efficiency and reliability of operation and maintenance.

Drawings

FIG. 1 is a flow chart of a service access visualization monitoring method based on a service oriented architecture;

FIG. 2 is a diagram of a monitoring tool interacting with a service agent;

FIG. 3 is a service access process interface;

FIG. 4 is a service access interaction interface.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples:

as shown in fig. 1, a service access visualization monitoring method based on a service oriented architecture includes the following steps:

when the monitoring tool is started, communication connection is established with the service agent, service access interaction section data cached by the service agent are obtained, and interface initialization is carried out.

The service access interaction section data comprise a history service access interaction process, an interaction link, connection information and a communication message, so that after the monitoring tool is started, problem analysis and processing are conveniently carried out on the history service access process in which the abnormality occurs.

And step two, the service agent sends the generated real-time service access process information to the monitoring tool.

The second step specifically comprises the following steps:

(201) The regulation master station sends a service access request to the substation service agent, the substation service agent analyzes the service name, creates a service access process object instance, sends service access process object instance information to the monitoring tool, creates a service access process node after the monitoring tool receives the service access process object instance information, and places the node into an in-process state;

(202) Recording each interaction link in the service access process by the substation service agent, creating a corresponding service interaction link object instance, caching connection information and communication message data, simultaneously sending the service interaction link object instance information to a monitoring tool, creating a service interaction link sub-node under the node of the service access process after the monitoring tool receives the service interaction link object instance information, and binding the connection information and the communication message data with the node;

(203) The substation service agent forwards the last frame of the service access result to the regulation master station, marks the end of the service access process, and notifies the monitoring tool, the monitoring tool receives the service access end information, and marks the corresponding node of the service access process as a finished state;

(204) In the interaction process, when the service interaction is abnormally terminated or overtime (such as due to a network and the like), the substation service agent marks the abnormal end of the service access process, and notifies the monitoring tool, and the monitoring tool receives the abnormal end information of the service access process and marks the corresponding node of the service access process as an abnormal termination state.

The service access request initiated by the regulating master station comprises a model, data, a graph, a file, an alarm and a service list, and service access interaction links and processes corresponding to different service access requests are different and can be divided into the following two types:

(1) Regulation master station-service agent-service management center: when the regulation master station initiates service provider list query, service list query and service information query requests, the service agent only interacts with the service management center and forwards interaction results to the regulation master station;

(2) Regulatory master-service agent-service provider: when the regulation master station initiates a service request related to a model, data, graphics, files and alarm service, the service agent firstly goes to a service management center to acquire a service positioning result, interacts with a service provider according to information in the positioning result, and forwards the interaction result to the regulation master station.

The in-progress state, the completed state and the abnormal termination state refer to different states of the service access process node, and the states of different nodes are distinguished in an intuitive way by marking in different colors and in a flashing mode.

And thirdly, the monitoring tool visually displays the received service access process information.

The third step specifically comprises the following steps:

(301) Constructing tree nodes according to the hierarchical relation of the service access process and the service interaction link, displaying the tree nodes on a left interface, and marking the node states of the service access process by using different colors;

(302) And the right interface displays different contents according to different types of the clicked nodes, when the father node of the service access process is clicked, the dynamic service access interaction process is displayed in a mode that the connecting lines are gradually lightened, the connection information of the service interaction link is displayed, and when the child node of the service interaction link is clicked, the communication message corresponding to the interaction link is displayed.

The step-by-step lighting mode of the connecting lines is to sequentially light the connecting lines among the interaction links according to the sequence of service interaction, dynamically display the access process of service interaction and related interaction links, and when the service interaction flow and the service interaction links are different, the displayed contents of the graphical interface are also different.

As shown in fig. 2, taking an interaction process of "regulating a master station-a service agent-a service provider" as an example, an interaction between a monitoring tool and a service agent is described, wherein a service access interaction link mainly includes:

(1) After receiving a service access request of a regulating master station, a substation service agent analyzes a service name, creates a service access process object instance, creates a service interaction link object instance of the regulating master station and the substation service agent, caches data such as connection information and communication messages, and sends the data to a monitoring tool;

(2) When the substation service agent and the service management center interact with service positioning request information, a service interaction link object instance of the service agent and the service management center is created, and data such as connection information, communication messages and the like are cached and sent to a monitoring tool;

(3) After receiving the service positioning result, the substation service agent establishes connection with the service provider according to the service provider information carried in the result data to realize service function access, and simultaneously creates a service interaction link object instance of the service agent and the service provider, caches data such as connection information and interaction message, and sends the data to the monitoring tool.

As shown in fig. 3, an interface is presented for a service access process, wherein:

(1) The tree structure on the left side displays the service access dynamic interaction process in a mode that a connecting line is gradually lightened when a father node of the service access process is clicked according to the hierarchical relation of the service access process and the service interaction link, and displays the connection information of the service interaction link.

(2) And the service accesses the graphical interface of the dynamic interaction process, and displays different interaction links and interaction flows. When the interaction links are different, for example, when the data service is accessed by the regulation master station, the graphical interface is displayed as the data service and the IP address of the node machine where the data service is located; when the interaction flow is different, for example, the service management center is used for regulating access of the master station, the graphical interface does not reflect the service provider any more, and only the actual interaction flow is displayed.

(3) The service access process is marked by using different colors according to different completion states, and is mainly divided into a completed state, an in-progress state, an abnormal termination state and the like. And marking the service access process of the control master station which is not replied to the overtime as an abnormal termination state.

As shown in fig. 4, the service access message monitoring interface provides the interactive content of each service interaction link, and when clicking the service interaction link sub-node, the communication message and the message analysis corresponding to the link are displayed.

On the basis of a service-oriented architecture, the invention monitors the service access interaction flow, the interaction link, the connection information and the communication message according to the hierarchical relationship of the service access process-the service interaction link, realizes the visual display of the service access, is beneficial to the better troubleshooting and analysis results of operation and maintenance personnel, and greatly improves the efficiency and reliability of operation and maintenance.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (4)

1. A service access visualization monitoring method based on a service oriented architecture, comprising the steps of:

s1, when a monitoring tool is started, establishing communication connection with a service agent, acquiring service access interaction section data cached by the service agent, and initializing an interface;

s2, the service agent sends the generated real-time service access process information to a monitoring tool;

the method specifically comprises the following steps:

s201, a regulating master station sends a service access request to a substation service agent, the substation service agent analyzes a service name, creates a service access process object instance, and sends service access process object instance information to a monitoring tool; after the monitoring tool receives the information, a service access process node is created, and the node is set to be in an in-process state;

s202, a substation service agent records each interaction link in a service access process, creates a corresponding service interaction link object instance, caches connection information and communication message data, simultaneously sends the service interaction link object instance information to a monitoring tool, creates a service interaction link sub-node under a node belonging to the service access process after the monitoring tool receives the service interaction link object instance information, and binds the connection information and the communication message data with the node;

s203, the substation service agent forwards the last frame of the service access result to the regulation master station, marks the end of the service access process, and notifies the monitoring tool, and the monitoring tool receives the service access end information and marks the corresponding node of the service access process as a completed state;

s204, in the interaction process, when service interaction overtime or abnormal termination is caused, the substation service agent marks the abnormal end of the service access process, and notifies the monitoring tool, and the monitoring tool receives the abnormal end information of the service access and marks the corresponding node of the service access process as an abnormal termination state;

the service access request initiated by the regulating master station comprises a model, data, a graph, a file, an alarm and a service list, and service access interaction links and processes corresponding to different service access requests are different and can be divided into the following two types:

(1) Regulation master station-service agent-service management center: when the regulation master station initiates service provider list query, service list query and service information query requests, the service agent only interacts with the service management center and forwards interaction results to the regulation master station;

(2) Regulatory master-service agent-service provider: when the regulation master station initiates a service request related to a model, data, graphics, files and alarm service, a service agent firstly goes to a service management center to acquire a service positioning result, interacts with a service provider according to information carried in the positioning result, and forwards the interaction result to the regulation master station;

s3, the monitoring tool performs visual display on the received service access process information;

the method specifically comprises the following steps:

s301, constructing tree nodes according to the hierarchical relationship of the service access process and the service interaction link, displaying the tree nodes on a left interface, and simultaneously marking the node states of the service access process by using different colors;

s302, displaying different contents according to different types of clicked nodes on a right interface, displaying a service access dynamic interaction process in a way that a connecting line is gradually lightened when a parent node of a service access process is clicked, displaying connection information of a service interaction link, and displaying a communication message corresponding to the interaction link when a child node of the service interaction link is clicked.

2. A service access visualization monitoring method based on a service oriented architecture as claimed in claim 1, characterized in that: in the S1 operation step, the service access interaction section data includes a history service access interaction process, an interaction link, connection information and a communication message, so that after the monitoring tool is started, problem analysis and processing are performed on the history service access process with abnormality.

3. A service access visualization monitoring method based on a service oriented architecture as claimed in claim 1, characterized in that: in the S2 operation step, the "in progress" state, the "completed" state and the "abnormal termination" state refer to different states of the node in the "service access process", and the states of the different nodes are distinguished in an intuitive manner by marking in different colors or in a flashing manner.

4. A service access visualization monitoring method based on a service oriented architecture as claimed in claim 1, characterized in that: in the step S3, the step-by-step lighting mode of the connection line means that the connection line between the interaction links is sequentially lighted according to the sequence of service interaction, the access process of service interaction is dynamically displayed, and when the service interaction links and the service interaction flow are different, the displayed content of the graphical interface is also different.