KR102232364B1 - Method of Updating Edge Application with Seamless Service in Micro Service Edge Application - Google Patents

Abstract

Provided is a method of updating an edge application without service interruption in the edge application per microservice. A cloud edge service providing method according to an embodiment of the present invention duplicates a first edge application to a second edge application when providing a service to an edge client with the first edge application, and provides a service to the edge client by the second edge application when the first edge application is updated. Thereby, an uninterrupted service to an edge gateway becomes possible.

Description

Method of Updating Edge Application with Seamless Service in Micro Service Edge Application}

The present invention relates to edge cloud technology, and more particularly, to a method for preventing service interruption in the event of an update or failure of an edge application per microservice.

The microservice structure can be updated on a functional basis without shutting down the entire service. You only need to shut down the functions for update separately.

However, as shown on the right side of FIG. 1, since normal processing of data transmitted during an update cannot be guaranteed, a risk factor may occur due to a delay or malfunction of a requested service.

In addition, the occurrence of functional unit failure is possible. Accordingly, there is a need for a method for preventing service interruption in the event of an update or failure of an edge application per microservice.

The present invention was conceived to solve the above problems, and an object of the present invention is to provide a method for supporting uninterrupted service to an edge gateway even when an update of an edge application per microservice is performed or a service failure occurs. .

According to an embodiment of the present invention for achieving the above object, a method for providing a cloud edge service includes: providing, by an edge server, a service to an edge client through a first edge application; Redundant, by the edge server, the first edge application to the second edge application; Updating, by the edge server, the first edge application; And providing, by the edge server, a service to an edge client through a second edge application.

The method for providing a cloud edge service according to an embodiment of the present invention may further include transmitting, by an edge server, a service request from an edge client to an edge application bridge to a currently active edge application.

According to an embodiment of the present invention, a method for providing a cloud edge service includes: if an edge client does not receive a service from an edge server, transmitting an edge check request to an edge gateway; Checking, by the edge gateway, a current state of the edge servers by transmitting a Heartbeat signal, and checking the current state; Determining, by the edge gateway, a new edge server to provide a service to the edge client based on the condition check result and the condition check result; And providing, by a new edge server, a service to the edge client.

In the cloud edge service providing method according to an embodiment of the present invention, in the transmission step, an edge client may transmit an edge check request to an edge gateway through another edge server.

Another edge server may be an edge server in which the edge client was provided with a service immediately before the edge server.

The edge server, another edge server, and a new edge server may be edge servers belonging to the same group.

In the determining step, the edge server that shares the most data with the edge server may be determined as a new edge server.

In the determining step, a new edge server may be determined by referring to a path that the edge client has moved from the past to the present and a future movement direction.

A new edge server may be determined by referring to at least one of the number of clients providing a service, the load of the edge server, and the traffic of the edge server.

On the other hand, according to another embodiment of the present invention, the edge server, the communication unit for communicating with the edge client; Including; a processor that provides a service to an edge client with a first edge application, duplicates the first edge application with a second edge application, and provides a service to the edge client with a second edge application while updating the first edge application; do.

On the other hand, according to another embodiment of the present invention, a method for providing a cloud edge service includes the steps of, by an edge server, duplexing a first edge application into a second edge application; Updating, by the edge server, the first edge application; Providing, by the edge server, a service to an edge client through a second edge application; And when the update of the first edge application is completed, providing, by the edge server, a service to the edge client as the first edge application.

On the other hand, according to another embodiment of the present invention, the edge server, the communication unit for communicating with the edge client; And the first edge application is duplicated as the second edge application, and the service is provided to the edge client as the second edge application while the first edge application is being updated, and when the update of the first edge application is completed, the first edge application is used. It includes; a processor that provides a service to the client.

As described above, according to embodiments of the present invention, uninterrupted service is possible to the edge gateway due to the redundant edge application even while the microservice unit edge application is being updated.

Further, according to embodiments of the present invention, even if a service failure occurs in an edge application of an edge server, a normal service can be seamlessly provided by an edge application of a nearby edge server.

1 is a case of data reception failure during an edge application update in an existing microservice structure,
2 is a diagram showing the structure of an edge cloud system to which an embodiment of the present invention is applicable;
3 is a diagram provided to explain a method of providing an edge cloud service according to an embodiment of the present invention;
4 is a diagram provided to explain a method of providing an edge cloud service according to another embodiment of the present invention;
5 is a hardware configuration diagram of edge servers shown in FIGS. 2 to 4.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

In an embodiment of the present invention, an edge application update and failure recovery method without service interruption in a microservice unit edge application is provided. Specifically, it is to prevent service interruption through redundant redundancy in the event of a failure and update of the microservice unit edge application excluding mutual influences between edge applications.

2 is a diagram showing the structure of an edge cloud system to which an embodiment of the present invention is applicable. An edge cloud system to which an embodiment of the present invention is applicable, as shown, is built including an edge gateway 100, edge servers 200-1,200-2,200-3, and an edge client 300.

The edge gateway 100 is a node responsible for designating service ranges and assigning rights of the edge servers 200-1,200-2,200-3, that is, an entity for managing the edge servers 200-1,200-2,200-3. Corresponds.

The edge servers 200-1,200-2,200-3 are nodes for providing a service to the edge client 300. The edge servers 200-1, 200-2 and 200-3 are edge servers belonging to the same group and share data necessary to provide a service to the edge client 300.

Edge servers belonging to the same group are connected to the same edge gateway. In FIG. 2, only one edge gateway and one edge server group are shown, but are merely exemplary for convenience of illustration and description. In practice, there may be multiple edge gateways and multiple edge server groups in an edge cloud system.

The edge client 300 is an entity that requests and receives a service from the edge servers 200-1,200-2,200-3. The edge client 300 connects to one of the edge servers 200-1, 200-2, and 200-3 to establish a relationship.

In the embodiment of the present invention, since the edge client 300 moves, the edge servers 200-1,200-2,200-3 to which the edge client 300 is provided can be changed according to the location, through which the service Can be provided continuously without interruption.

On the other hand, the edge cloud system according to an embodiment of the present invention, even if an update of an edge application per microservice of an edge server that provides a service to the edge client 300 by being assigned a right or an application service failure occurs, the edge gateway 100) to provide normal service.

Hereinafter, a process of providing a seamless service during an edge application update process will be described in detail with reference to FIG. 3. 3 is a diagram provided to explain a method of providing an edge cloud service according to an embodiment of the present invention.

In FIG. 3, in a situation in which the edge client 300 has a relationship with the edge server-2 200-2 among the edge servers 200-1, 200-2, and 200-3 and is receiving a service, the edge server-2 200-2 ), it is assumed that the edge application update is performed.

As shown on the left side of FIG. 3, the edge server-2 (200-2) provides a service to the edge client 300 as the primary edge application 210, and the data of the primary edge application 210 is transferred to the secondary edge. By backing up to the application 220, the edge application is redundant.

The edge application bridge 230 of the edge server-2 200-2 selectively transmits the service request of the edge client 300 to the edge applications 210 and 220. Specifically, the edge application bridge 230 transmits the service request of the edge client 300 to the currently active edge application among the edge applications 210 and 220.

Since the edge application activated on the left side of FIG. 3 is the primary edge application 210, the edge application bridge 230 transmits a service request from the edge client 300 to the primary edge application 210.

Meanwhile, as shown on the right side of FIG. 3, when an update is performed on the primary edge application 210 of the edge server-2 200-2, the primary edge application 210 is deactivated and the secondary edge application 220 ) Is activated.

Accordingly, the edge application bridge 230 transmits the service request of the edge client 300 to the secondary edge application 220, and the service is provided to the edge client 300 by the secondary edge application 220.

Thereafter, when the update for the primary edge application 210 is completed, as shown on the left side of FIG. 3, the edge application 210 is activated again and the secondary edge application 220 is deactivated again.

Accordingly, the edge application bridge 230 transmits the service request of the edge client 300 back to the primary edge application 210, and the service is provided to the edge client 300 by the primary edge application 210. .

Hereinafter, when a service failure occurs in an edge server providing a service to the edge client 300, a process in which a neighboring edge server provides a subsequent service by the edge gateway 100 will be described in detail with reference to FIG. 4. 4 is a diagram provided to explain a method of providing an edge cloud service according to another embodiment of the present invention.

In FIG. 4, the edge client 300 is moving from the left to the right side of the drawing, and the edge server-2 200-2 is receiving a service by establishing a relationship with the edge server-2 200-2. The situation in which the failure occurred was assumed.

Accordingly, the edge client 300 transmits a service request message to receive a service to the edge server-2 (200-2) (①), but does not receive a service from the edge server-2 (200-2) ( ②).

In this case, the edge client 300 transmits an edge check request to the edge server-1 200-1 (③).

The edge check request is a message for requesting reassignment of authority to an edge server capable of providing a service by checking the edge server when communication with the currently connected edge server is unavailable.

The sender of the edge check request is the edge client 300 and the receiver is the edge gateway 100. The edge check request is relayed by the edge server where the edge client 300 immediately established a relationship and was provided with a service, and in the example of FIG. 4, the edge server-1 200-1.

Accordingly, the edge server-1 200-1 transmits the edge check request received from the edge client 300 to the edge gateway 100.

Upon receiving the edge check request, the edge gateway 100 transmits a Heartbeat signal to check the current status of the edge servers 200-1,200-2,200-3, and check the current status (④).

Next, the edge gateway 100 establishes a new relationship with the edge client 300 and determines an edge server to provide a service based on the condition check result and the condition check result (⑤).

When it is desired to change the edge server that will have a relationship with the edge client 300, the edge gateway 100 considers the following conditions. Only one condition may be considered, or multiple conditions may be considered in combination. The combination of conditions may vary depending on the type of service.

1) The edge server that has the most current relationship with the edge client 300 and the edge server that shares the most data

In the case of the example shown in FIG. 3, if the edge server-3 (200-3) shares more data with the edge server-2 (200-2) than the edge server-1 (200-1), the edge server-3 (200-3) is assigned a higher priority.

In this case, the shared data may be limited to data necessary to provide a service to the edge client 300.

2) Moving path of the edge client 300

Refers to the path that the edge client 300 has moved from the past to the present. In the case of the example shown in FIG. 3, since the edge client 300 has moved from left to right from the past to the present, high priority is assigned to the edge server-3 (200-3) located on the right.

3) The future movement direction of the edge client 300

It refers to which direction the edge client 300 will move in the future. This can be found by identifying the destination of the edge client 300. For example, it is possible to find out the destination from the navigation running on the edge client 300.

In the case of the example shown in FIG. 4, since the edge server-3 (200-3) is closer to the destination of the edge client 300 than the edge server-1 (200-1), it is higher for the edge server-3 (200-3). Priority is allocated.

4) Number of connected clients

Priority is given to the edge server with a large number of all edge clients connected to the edge server to establish a relationship and receiving services. This is useful when the edge client 300 is a terminal of an autonomous vehicle. This is because information from other autonomous vehicles can be shared.

In the case of the example shown in FIG. 4, if the number of edge clients connected to the edge server-3 (200-3) is greater than the number of edge clients connected to the edge server-1 (200-1), the edge server-3 (200-3) The highest priority is assigned to each person.

5) Road/Traffic

Prioritizes edge servers with low load and low traffic. This is to prevent the service from slowing down.

In the case of the example shown in FIG. 4, if the load/traffic of the edge server-3 (200-3) is smaller than the load/traffic connected to the edge server-1 (200-1), the edge server-3 (200-3) is Higher priority is allocated.

The decision made by the edge gateway 100 is transmitted to the corresponding edge server. In FIG. 4, it is assumed that the edge server-3 (200-3) is determined as an edge server to newly establish a relationship with the edge client 300.

Accordingly, the edge server-3 (200-3), which is notified of the decision decision from the edge gateway 100, provides a service to the edge client 300 (⑥).

5 is a hardware configuration diagram of the edge servers 200-1, 200-2 and 200-3 shown in FIGS. 2 to 4. Since the edge servers 200-1,200-2,200-3 can be implemented with the same hardware configuration, only one of them is represented by the reference numeral "200" in FIG. 5.

As shown, the edge server 200 includes a communication unit 201, a processor 202, and a storage unit 203.

The communication unit 201 is a means for communicating with the edge gateway 100, other edge servers, and the edge client 300. The storage unit 203 provides a storage space necessary for the processor 120 to function.

The processor 202 provides a service to the edge client 300 as an edge application, duplicates and updates the edge application, and performs necessary procedures to share data with other edge servers.

When providing a service to the edge client 300, the processor 202 is subject to the control of the edge gateway 100.

Up to now, a method for updating and recovering from an edge application without service interruption in a microservice unit edge application has been described in detail with reference to preferred embodiments.

In the above embodiment, it is possible to update functions without interrupting the service being provided when each application occurs in an update event in the edge application running in the microservice unit, and even when the edge server running the edge application fails, it is ranked next. The edge server of the company took over the authority to support uninterrupted service.

Accordingly, low-latency non-interruptible error restoration is possible in a micro-edge server environment, and non-disruptive update of edge applications of a micro-service structure and efficient failure response are possible.

Meanwhile, it goes without saying that the technical idea of the present invention can be applied to a computer-readable recording medium containing a computer program for performing functions of the apparatus and method according to the present embodiment. Further, the technical idea according to various embodiments of the present invention may be implemented in the form of a computer-readable code recorded on a computer-readable recording medium. The computer-readable recording medium can be any data storage device that can be read by a computer and can store data. For example, a computer-readable recording medium may be a ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, hard disk drive, or the like. In addition, a computer-readable code or program stored in a computer-readable recording medium may be transmitted through a network connected between computers.

In addition, although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. In addition, various modifications are possible by those of ordinary skill in the art, and these modifications should not be understood individually from the technical spirit or prospect of the present invention.

100: edge gateway
200-1,200-2,200-3: Edge Server
300: edge client
210: Primary edge application
220: Secondary edge application
230: Edge application bridge

Claims (12)

Providing, by an edge server, a service to an edge client through a first edge application;
Redundant, by the edge server, the first edge application to the second edge application;
Updating, by the edge server, the first edge application;
Providing, by an edge server, a service to an edge client through a second edge application;
If the edge client does not receive a service from the edge server, transmitting an edge check request to the edge gateway;
Checking, by the edge gateway, a current state of the edge servers by transmitting a Heartbeat signal, and checking the current state;
Determining, by the edge gateway, a new edge server to provide a service to the edge client based on the condition check result and the condition check result; And
Including, by the new edge server, providing a service to the edge client,
The decision step is,
An edge server with more data shared with the edge server than other edge servers is decided as a new edge server.
The data is,
Cloud edge service providing method, characterized in that the data required to provide a service to the edge client.
The method according to claim 1,
The method of providing a cloud edge service further comprising: transmitting, by the edge server, a service request from the edge client to the currently active edge application to the edge application bridge.
delete The method according to claim 1,
The transmission step is,
A method of providing a cloud edge service, characterized in that an edge client transmits an edge check request to an edge gateway through another edge server.
The method of claim 4,
Another edge server,
A method of providing a cloud edge service, characterized in that the edge client is an edge server that was provided with a service immediately before the edge server.
The method of claim 4,
Edge servers, other edge servers and new edge servers,
Cloud edge service providing method, characterized in that the edge servers belonging to the same group.
The method according to claim 1,
The decision step is,
A method of providing a cloud edge service, characterized in that the edge server that shares the most data with the edge server is determined as a new edge server.
The method according to claim 1,
The decision step is,
A method of providing a cloud edge service, comprising determining a new edge server by referring to a path that the edge client has moved from the past to the present and a future movement direction.
The method according to claim 1,
A method of providing a cloud edge service, comprising determining a new edge server by referring to at least one of the number of clients providing the service, the load of the edge server, and the traffic of the edge server.
For the edge server,
A communication unit that communicates with an edge client; And
Including; a processor that provides a service to an edge client with a first edge application, duplicates the first edge application with a second edge application, and provides a service to the edge client with a second edge application while updating the first edge application; and,
Edge clients,
If the service is not provided from the edge server, it sends an edge check request to the edge gateway.
Edge gateway,
It transmits a Heartbeat signal to check the current status of edge servers, checks the current status, and decides a new edge server to provide services to the edge client based on the status check result and status check result,
The new edge server,
Provides services to edge clients,
Edge gateway,
An edge server with more data shared with the edge server than other edge servers is decided as a new edge server,
The data is,
Edge server, characterized in that the data is necessary to provide a service to the edge client.
Redundant, by the edge server, the first edge application to the second edge application;
Updating, by the edge server, the first edge application;
Providing, by an edge server, a service to an edge client through a second edge application; And
When the update of the first edge application is completed, providing, by the edge server, a service to the edge client as the first edge application;
If the edge client does not receive a service from the edge server, transmitting an edge check request to the edge gateway;
Checking, by the edge gateway, a current state of the edge servers by transmitting a Heartbeat signal, and checking the current state;
Determining, by the edge gateway, a new edge server to provide a service to the edge client based on the condition check result and the condition check result; And
Including, by the new edge server, providing a service to the edge client,
The decision step is,
An edge server with more data shared with the edge server than other edge servers is decided as a new edge server,
The data is,
Cloud edge service providing method, characterized in that the data required to provide a service to the edge client.
For the edge server,
A communication unit that communicates with an edge client; And
The first edge application is duplicated as the second edge application, and the service is provided to the edge client as the second edge application while the first edge application is being updated, and when the update of the first edge application is completed, the edge client is used as the first edge application. Including; a processor that provides a service to,
Edge clients,
If the service is not provided from the edge server, it sends an edge check request to the edge gateway.
Edge gateway,
It transmits a Heartbeat signal to check the current status of edge servers, checks the current status, and decides a new edge server to provide services to the edge client based on the status check result and status check result,
The new edge server,
Provides services to edge clients,
Edge gateway,
An edge server with more data shared with the edge server than other edge servers is decided as a new edge server,
The data is,
Edge server, characterized in that the data is necessary to provide a service to the edge client.

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