KR102403609B1 - Operating method for configuring data serving structure and electronic apparatus supporting thereof - Google Patents

Abstract

A method for enabling an electronic device providing a service to set a data serving structure comprises the steps of: confirming information on a frontend including a plurality of customer page domains for a service and information on a backend including a plurality of backend data domains related to a database for the service; obtaining setting information for setting a data serving structure between the frontend and the backend; and setting the data serving structure including a main data serving structure for serving data requested by the frontend based on the setting information. The present invention reduces processing delay for data serving.

Description

An operation method for setting a data serving structure and an electronic device supporting the same

The present invention relates to a method and apparatus for setting a data serving structure, and more particularly, to a method and an electronic device for setting a data serving structure based on a serving structure selectively applicable for serving data will be.

With the development of electronic technology, e-commerce has become a field of shopping. Customers can purchase items online without going to a shopping mall or market in person, and items purchased online are delivered to the delivery address requested by the customer.

In the case of e-commerce, since the provision of detailed and accurate information about products has a significant effect on service satisfaction, various methods for providing more detailed and accurate information are being discussed.

In this regard, reference may be made to prior documents such as KR101756594B1 or KR101500849B1.

According to the method of the present invention, the electronic device that sets the data serving structure may set the data serving structure based on the selectively applicable serving structure.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. will be able

Various embodiments may provide a method of operating an electronic device for setting a data serving structure and an electronic device supporting the same.

In a method for an electronic device providing a service according to various embodiments to set up a data serving structure, information on a frontend including a plurality of customer page domains for the service and the service are provided. checking information on a backend including a plurality of backend data domains related to a database for obtaining configuration information for setting a data serving structure between the front-end and the back-end; and setting the data serving structure including a main data serving structure for serving the data requested by the front end based on the setting information.

In an exemplary embodiment, the configuration information includes main configuration information for configuring the main data serving structure, and the main data serving structure includes: a plurality of data queues corresponding to the plurality of backend data domains; a storage for storing data transmitted through the plurality of data queues; and a serving layer that calls the requested data from the storage and transmits it to the front end.

In an exemplary embodiment, the configuration information includes first additional configuration information for configuring a first additional data serving structure added to the main data serving structure, or a second additional data serving structure added to the main data serving structure It may further include second additional setting information for setting the .

In an exemplary embodiment, the first additional data serving structure may include: a cache configured to obtain and store at least a portion of data included in data stored in the storage from the storage; an update data queue configured to transmit the updated first data to the cache when the updated first data corresponding to the first data included in the at least part of the data is identified in the storage; and a cache update manager managing to transmit the updated first data to the cache through the update data queue, wherein the second additional data serving structure determines that real-time update is required among data stored in the database a real-time cache for acquiring and storing real-time updated second data corresponding to the second data through a specific data queue related to the second data among the plurality of data queues with respect to the second data; and a real-time cache update manager that manages to transmit the real-time updated second data to the real-time cache through the specific data queue.

In an exemplary embodiment, the configuration information may include information for interworking between the first additional data serving structure and the second additional data serving structure with the main data serving structure.

In an exemplary embodiment, the updated first data is a data queue related to the first data from among the plurality of data queues based on a first period corresponding to an update period of the storage when the first data is updated is transmitted to the storage through , and when the updated first data is confirmed in the storage and the update data queue according to the first cycle, the cache update manager performs the updated first data through the update data queue. may direct data to be transferred to the cache.

In an exemplary embodiment, the setting of the data serving structure includes: based on the first additional configuration information, setting the data serving structure including the main data serving structure and the first additional data serving structure wherein the serving layer preferentially calls the requested data from the cache and transmits it to the front end, and when the requested data is not confirmed in the cache, the serving layer retrieves the requested data from the cache. It can be called from the storage and transmitted to the front-end.

In an exemplary embodiment, the at least a portion of the data stored in the cache is selected to be stored in the cache based on a data call priority among the data stored in the storage, and the data call priority is the data call from the serving layer. It may be determined based on the number of times.

In an exemplary embodiment, when the updated first data is confirmed in the storage and the first data that is not updated in the cache is identified, update request information for the first data is transmitted by the serving layer can

In an exemplary embodiment, the real-time updated second data may be transmitted to the real-time cache through the specific data queue based on a second period corresponding to real-time when the second data is updated.

In an exemplary embodiment, the setting of the data serving structure includes: based on the second additional configuration information, setting the data serving structure including the main data serving structure and the second additional data serving structure and, based on whether the requested data corresponds to data requiring real-time update, the serving layer may call the requested data from the real-time cache and transmit it to the front end.

In an exemplary embodiment, the setting of the data serving structure includes the main data serving structure, the first additional data serving structure, and the second additional configuration information based on the first additional configuration information and the second additional configuration information. setting the data serving structure to include an additional data serving structure, wherein when the requested data corresponds to data requiring real-time update, the serving layer stores the requested data in both the cache and the real-time cache. , and the latest data among data called by the serving layer from the cache and the real-time cache may be transmitted to the front end.

In an exemplary embodiment, when the requested data does not correspond to data requiring real-time update, the serving layer may call the requested data from the cache and transmit it to the front end.

In an exemplary embodiment, the method may further include obtaining information on whether the requested data corresponds to data requiring real-time update.

In an exemplary embodiment, when the front-end requests a data set including a plurality of data and the requested data is included in the plurality of data, all of the plurality of data are stored in the storage, the cache or the real-time cache The requested data may be transmitted to the front-end based on a point called by the serving layer in .

In an exemplary embodiment, identification information corresponding to the data set is set for the plurality of data, and it is confirmed that all of the plurality of data are called from the storage, the cache or the real-time cache based on the identification information can be

In an exemplary embodiment, the acquiring of the configuration information may include: checking information on a first service domain related to the service; checking information on one or more backend data domains related to the first service domain among the plurality of backend data domains; checking, based on the information on the one or more backend data, first information on whether the first additional data serving structure needs to be configured and second information on whether the second additional data serving structure needs to be configured; and obtaining the setting information determined to include the first additional setting information or the second additional setting information based on the first information and the second information.

In an exemplary embodiment, the requested data may be requested from a first customer page corresponding to a first customer page domain included in the plurality of customer page domains.

An electronic device for setting a data serving structure related to a service according to various embodiments, comprising: a processor; and one or more memories storing one or more instructions, wherein the one or more instructions, when executed, cause the processor to: a front end comprising a plurality of customer page domains for the service. ) and checking information on a backend including a plurality of backend data domains related to a database for the service; obtaining configuration information for setting a data serving structure between the front-end and the back-end; and setting the data serving structure including a main data serving structure for serving the data requested by the front-end based on the setting information.

The various embodiments of the present disclosure described above are only some of the preferred embodiments of the present disclosure, and various embodiments in which the technical features of various embodiments of the present disclosure are reflected are made by those of ordinary skill in the art. It can be derived and understood based on the detailed description to be described below.

The present invention provides a method for setting a data serving structure based on a serving structure that is selectively applicable to an electronic device setting a data serving structure, thereby reducing processing delay for data serving and optimizing data serving. have an effect

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned may be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description. will be.

1 is a diagram for describing a data serving structure setting system in which a method of operating an electronic device for setting a data serving structure according to various embodiments of the present disclosure may be implemented.
2 is a diagram illustrating a configuration of a server device and a device interworking with the server device according to various embodiments of the present disclosure;
3 is a diagram illustrating an operating method of the server device 100 for setting a data serving structure according to various embodiments of the present disclosure.
4 is a diagram illustrating an overview of a data flow related to data serving of a front end and a back end related to a service.
5 is a diagram illustrating a state in which a main data serving structure is set between a front end and a back end.
6 is a diagram illustrating a configuration in which a first additional data serving structure is added between a front end and a back end.
7 is a diagram illustrating a configuration in which a second additional data serving structure is added between the front-end and the back-end.
8 is a diagram illustrating a configuration in which a first additional data serving structure and a second additional data serving structure are added between a front end and a back end.
FIG. 9 is a diagram illustrating an operation method in which the server device 100 for setting a data serving structure obtains setting information according to various embodiments of the present disclosure.
10 is a diagram illustrating an example of setting a data serving structure according to a backend data domain corresponding to a service domain.
11 is a diagram illustrating a state in which a plurality of data serving structures are set between a front end and a back end.

The following embodiments combine elements and features of various embodiments in a predetermined form. Each component or feature may be considered optional unless explicitly stated otherwise. Each component or feature may be implemented in a form that is not combined with other components or features. In addition, various embodiments may be configured by combining some elements and features. The order of operations described in various embodiments may be changed. Some features or features of one embodiment may be included in another embodiment, or may be replaced with corresponding features or features of another embodiment.

In the description of the drawings, procedures or steps that may obscure the gist of various embodiments are not described, and procedures or steps that can be understood at the level of those of ordinary skill in the art are also not described. did

Throughout the specification, when a part is said to "comprising or including" a certain component, it does not exclude other components unless otherwise stated, meaning that other components may be further included. do. In addition, terms such as "...unit", "...group", and "module" described in the specification mean a unit that processes at least one function or operation, which is hardware or software or a combination of hardware and software. can be implemented as Also, "a or an," "one," "the," and like related terms are used herein in the context of describing various embodiments (especially in the context of the claims that follow). Unless indicated otherwise or clearly contradicted by context, it may be used in a sense including both the singular and the plural.

Hereinafter, preferred embodiments according to various embodiments will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION The detailed description set forth below in conjunction with the appended drawings is intended to describe exemplary embodiments of various embodiments, and is not intended to represent the only embodiments.

In addition, specific terms used in various embodiments are provided to help the understanding of various embodiments, and the use of these specific terms may be changed to other forms without departing from the technical spirit of various embodiments. .

1 is a diagram for describing a data serving structure setting system in which a method of operating an electronic device for setting a data serving structure according to various embodiments of the present disclosure may be implemented.

Referring to FIG. 1 , a data serving structure setting system according to various embodiments may be implemented in various types of electronic devices. For example, the data serving structure setting system may be implemented in the server device 100 and the device 200 linked to the server device 100 . In other words, the server device 100 and the device 200 interworking with the server device 100 perform operations according to various embodiments of the present disclosure based on the data serving structure setting system implemented in each device. can Meanwhile, the data serving structure setting system according to various embodiments is not limited to that shown in FIG. 1 , and may be implemented in more various electronic devices and servers.

The server device 100 according to various embodiments may be an apparatus that performs wireless and wired communication with the device 200 linked to the server device 100 and includes storage having a large storage capacity. For example, the server device 100 may be a cloud device connected to the device 200 linked to the server device 100 .

The device 200 linked to the server device 100 according to various embodiments may be a device that can be used by an individual user, such as a desktop PC, a tablet PC, or a mobile terminal. In addition, other electronic devices that perform similar functions may be used as the device 200 linked to the server device 100 .

A data serving structure setting system according to various embodiments may include various modules for operation. The modules included in the data serving structure setting system are computer code implemented so that a physical device (eg, the server device 100) in which the data serving structure setting system is implemented (or included in the physical device) can perform a specified operation. or one or more instructions. In other words, the physical device in which the data serving structure setting system is implemented stores a plurality of modules in the form of computer code in the memory, and when the plurality of modules stored in the memory are executed, the plurality of modules corresponds to the physical device corresponding to the plurality of modules It can be configured to perform specified actions.

2 is a diagram illustrating a configuration of a server device and a device interworking with the server device according to various embodiments of the present disclosure;

Referring to FIG. 2 , the server device 100 and the device 200 interlocked with the server device 100 may include an input/output unit 210 , a communication unit 220 , a storage 230 , and a processor 240 . can

The input/output unit 210 may be various interfaces or connection ports for receiving user input or outputting information to the user. The input/output unit 210 may include an input module and an output module, and the input module receives a user input from a user. The user input may be made in various forms including a key input, a touch input, and a voice input. Examples of input modules that can receive such user input include a traditional keypad, keyboard, and mouse, as well as a touch sensor that detects a user's touch, a microphone that receives a voice signal, a camera that recognizes gestures through image recognition, A proximity sensor including at least one of an illuminance sensor or an infrared sensor that detects a user's approach, a motion sensor that recognizes a user's motion through an acceleration sensor or a gyro sensor, and other various types of user input sensing or receiving There is an input means, and the input module according to an embodiment of the present disclosure may include at least one of the devices listed above. Here, the touch sensor may be implemented as a piezoelectric or capacitive touch sensor for detecting a touch through a touch panel or a touch film attached to the display panel, an optical touch sensor for detecting a touch by an optical method, and the like. In addition, the input module may be implemented in the form of an input interface (USB port, PS/2 port, etc.) for connecting an external input device that receives a user input instead of a device that detects a user input by itself. In addition, the output module can output various types of information. The output module may include at least one of a display that outputs an image, a speaker that outputs a sound, a haptic device that generates vibration, and other various types of output means. In addition, the output module may be implemented in the form of a port-type output interface for connecting the above-described individual output means.

For example, the display-type output module may display text, still images, and moving images. The display includes a liquid crystal display (LCD), a light emitting diode (LED) display, an organic light emitting diode (OLED) display, a flat panel display (FPD), and a transparent display. display), a curved display, a flexible display, a 3D display, a holographic display, a projector, and other various types of devices capable of performing an image output function. It may include at least one. Such a display may be in the form of a touch display integrally formed with the touch sensor of the input module.

The communication unit 220 may communicate with other devices. Accordingly, the server device 100 and the device 200 interworking with the server device 100 may transmit/receive information to and from other devices through the communication unit. For example, the server device 100 and the device 200 interlocked with the server device 100 may communicate with each other using a communication unit or communicate with other devices.

Here, communication, that is, transmission and reception of data may be performed by wire or wirelessly. To this end, the communication unit includes a wired communication module that accesses the Internet through a local area network (LAN), a mobile communication module that accesses a mobile communication network through a mobile communication base station and transmits and receives data, and a wireless local area network (WLAN) such as Wi-Fi. A short-distance communication module using an area network communication method or a wireless personal area network (WPAN) communication method such as Bluetooth or Zigbee, or a global navigation satellite system (GNSS) such as GPS (Global Positioning System) ) using a satellite communication module or a combination thereof.

The storage 230 may store various types of information. Storage can store data temporarily or semi-permanently. For example, in the storage of the server 100 , an operating program (OS) for driving the server 100, a program or application for generating data or Braille for hosting a web site or an application (eg, a web application) ) may be stored. In addition, the storage may store the modules in the form of computer code as described above.

Examples of the storage 230 include a hard disk (HDD), a solid state drive (SSD), a flash memory, a read-only memory (ROM), a random access memory (RAM), and the like. This can be. Such storage may be provided as a built-in type or a detachable type.

The processor 240 controls overall operations of the server device 100 and the device 200 linked to the server device 100 . To this end, the processor 240 may perform calculation and processing of various types of information and may control operations of components of the server 100 . For example, the processor 240 may execute a program or application for setting the data serving structure. The processor 240 may be implemented as a computer or a similar device according to hardware, software, or a combination thereof. In hardware, the processor 240 may be implemented in the form of an electronic circuit that processes electrical signals to perform a control function, and in software, it may be implemented in the form of a program that drives the processor 240 in hardware. Meanwhile, in the following description, unless otherwise specified, the server device 100 and the operation of the device 200 linked to the server device 100 may be interpreted as being performed under the control of the processor 240 . That is, when the modules implemented in the above-described data serving structure setting system are executed, the modules allow the processor 240 to perform the following operations on the server device 100 and the device 200 interlocked with the server device 100 . It can be interpreted as controlling.

In summary, various embodiments may be implemented through various means. For example, various embodiments may be implemented by hardware, firmware, software, or a combination thereof.

In the case of implementation by hardware, the method according to various embodiments may include one or more application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), FPGAs (field programmable gate arrays), a processor, a controller, a microcontroller, may be implemented by a microprocessor.

In the case of implementation by firmware or software, the method according to various embodiments may be implemented in the form of a module, procedure, or function that performs the functions or operations described below. For example, the software code may be stored in a memory and driven by a processor. The memory may be located inside or outside the processor, and data may be exchanged with the processor by various known means.

Hereinafter, various embodiments will be described in more detail based on the above technical idea. The above-described contents may be applied to various embodiments described below. For example, operations, functions, terms, etc. that are not defined in various embodiments described below may be performed and described based on the contents described above.

In the following description, various embodiments will be described on the premise that the server device 100 performs a data serving structure setting operation, and according to various embodiments, the server device 100 provides information related to the data serving structure setting operation may be transmitted/received with the device 200 linked to the server device 100 .

3 is a diagram illustrating an operating method of the server device 100 for setting a data serving structure according to various embodiments of the present disclosure.

According to FIG. 3 , the server device 100 may set a data serving structure, and in order to perform an operation of setting the data serving structure, a plurality of customer page domains for services provided by the server device 100 Check information on the backend including a plurality of backend data domains related to the database for the service and information on the frontend including (301), the data serving structure between the frontend and the backend It is possible to obtain configuration information for setting 303 , and set a data serving structure including a main data serving structure for serving data requested by the front-end based on the obtained configuration information ( 305 ). In FIG. 3 , the database-related backend may be a node that generates information to be provided to the frontend, and may effectively provide data generated by the node to the frontend according to the data serving structure according to various embodiments.

According to various embodiments, in operation 301 , the server device 100 includes a plurality of backends related to information on a frontend including a plurality of customer page domains for a service and a database for a service. You can check information about the backend including the data domain.

4 is a diagram illustrating an overview of a data flow related to data serving of a front end and a back end related to a service.

Referring to identification number 401, the front-end may include a plurality of customer page domains for a service, and the customer page domain is a user interface/user (UI/UX) of a service provided by the server device 100 . experience) may mean a domain corresponding to various service pages that a user can access. As an example, a user may use an item search page for searching for an item on the UI/UX of the service, a category page for classifying the item, and an item detail page including detailed information of a specific item (Detail Page) And/or it is possible to access My Page including the user's personal information, and the server device 100 correspondingly responds to the customer page domain corresponding to the item search page, the customer page domain corresponding to the category page, and the item. A front end including a customer page domain corresponding to the detail page and/or a customer page domain corresponding to the My Page may be identified.

Referring to identification number 401, the front end includes a plurality of customer page domains as described above, so that each page and data requested from each page domain corresponding to each page can be managed according to the user's UI/UX access, etc. It can be understood as a set user-side management stage.

Referring to identification number 403, the backend may include a plurality of backend data domains related to a database for a service, and the backend data domain includes each data included in a database managed by the server device 100 to store and manage data. may refer to a domain that manages data of the corresponding type or type in response to the determined type or type of data. For example, according to the characteristics of the service provided by the server device 100 , data for logistics management (Fulfillment), data of a seller who sells an item on the service (Seller), and data related to discount information of the item (Promotions/Benefits) ) and/or review data written for the item (Product Review), etc. may be generated and stored, and the server device 100 corresponds to this, a backend data domain corresponding to data for logistics management, and data corresponding to the seller's data. A backend including a backend data domain, a backend data domain corresponding to data related to discount information of an item, and/or a backend data domain corresponding to review data may be identified.

Referring to identification number 403, the backend includes a plurality of backend data domains as described above, and is a database-side management unit configured to provide or check data stored or managed in relation to the service provided by the server device 100 . can be understood as

In this case, the plurality of backend data domains included in the backend may be configured to manage various data managed by the database 405 according to the characteristics of each data domain.

According to various embodiments, in operation 303 , the server device 100 may obtain configuration information for setting a data serving structure between the front-end and the back-end.

For example, the data serving structure between the front-end and the back-end may mean a structure for serving data requested by the user-side management end from the database-side management end according to the user's UI/UX connection, etc. . In particular, in the case where the service provided by the server device 100 corresponds to e-commerce, in-service data management, various data necessary for the customer page are stored in the front-end customer page domain related to the customer page. It can be based on MSA (Micro Service Architecture) that is served by targeting the corresponding data domain in charge of the backend side, and for MSA, high throughput and low latency to digest high I/O traffic are guaranteed. It is necessary to provide a core logic structure that can ensure data consistency, freshness, or system availability.

However, even if the core logical structure is designed, the characteristics of the data processed in the customer page domain or data domain are different and when operating based on different code bases, duplicate codes increase and management becomes difficult even if the core logical structure is utilized. may occur. Therefore, it is necessary to prevent the core logical structure from being fragmented according to each customer page domain or data domain. It may correspond to a data serving structure set to prevent fragmentation by having scalability corresponding to a domain or data domain.

That is, the data serving structure, which is the target of the setting information obtained by the server device 100 in operation 303, is based on the main data serving structure for data serving, and an additional data serving structure that can correspond to various customer page domains or data domains is Implemented in an additive manner, it may have scalability for customer page domains or data domains of different characteristics.

For example, the setting information obtained by the server device 100 in operation 303 is main setting information for setting a main data serving structure corresponding to a basic data serving structure for performing data serving between the front end and the back end. may include For example, when the main data serving structure is set between the front end and the back end based on the main configuration information, data requested by the front end may be served from the back end. Such a main data serving structure may be implemented in the same manner as in FIG. 5 .

5 is a diagram illustrating a state in which a main data serving structure is set between a front end and a back end.

The main data serving structure 501 may include various components for data serving, and the components for the main data serving structure include a plurality of data queues 503 corresponding to a plurality of backend data domains; A common (storage) 505 that stores data transmitted through a plurality of data queues, and a common serving layer that calls data requested from the front-end from storage and transmits it to the front-end (Serving Layer) 507 may be included.

In the main data serving structure of 501 , various data of a database managed in a plurality of backend data domains may be transmitted to a data queue corresponding to each backend data domain. Here, the data queue may refer to a data queue that receives and stores data provided from the transmitting end, waits until the stored data is transmitted to the receiving end, and transmits the stored data to the receiving end. have. In 503, one data queue corresponds to one backend data domain or one or more backend data domains, receives data provided from the corresponding backend data domain, stores it, and then waits, and the data stored according to the data update cycle of the storage can be transmitted to the storage side. That is, the data queue of 503 may play a role of queuing data received from the backend data domain side and delivering data to the storage side according to the update cycle of the storage side.

In addition, in the main data serving structure of 501 , the storage may receive and store various data of the database through a plurality of data queues. Storage is data that stores and manages data in the database identically or similarly so that the serving layer can call the requested data from the front-end only by accessing the storage without accessing the back-end data domain for the convenience of data serving. It can mean storage space. In 505, the storage may receive and store data of the database managed by the backend data domain. In particular, there is a data queue between the backend data domain and the storage, and the data queue transfers the data of the database from the data domain. It receives and stores the data, and the storage can receive the data stored in the data queue according to a certain cycle. The serving layer can acquire the desired data by calling the desired data to the storage for storing the received data in this way. That is, the storage of the 505 receives the data of the database managed in the backend data domain through a plurality of data queues, stores the data of the database, and enables the serving layer to obtain desired data. .

In the main data serving structure of 501, the serving layer can access the storage and obtain the desired data by calling it. The serving layer may perform a function for calling various data requested through a plurality of customer page domains included in the frontend from the storage. In 507, the serving layer may be requested to call certain data from the customer page corresponding to the front-end, access the storage and obtain the requested data by calling the call target. It can be transmitted to the end side.

For example, the setting information obtained by the server device 100 in operation 303 may include first additional setting information for setting a first additional data serving structure added to the main data serving structure, or adding to the main data serving structure. It may include second additional configuration information for configuring a second additional data serving structure to be used. For example, 1) When the first additional data serving structure is set between the front end and the back end based on the first additional configuration information, data requested from the front end is transmitted from the back end in a different way from the main data serving structure. 2) When a second supplementary data serving structure is set between the frontend and the backend based on the second additional configuration information, data requested from the frontend is transferred to the backend in a different way from the main data serving structure. 3) This is also the case when both the first additional data serving structure and the second additional data serving structure are configured between the front end and the back end based on the first additional configuration information and the second additional configuration information. can be The first additional data serving structure and the second additional data serving structure may be implemented in the same manner as in FIGS. 6 to 8 .

6 is a diagram illustrating a configuration in which a first additional data serving structure is added between a front end and a back end.

The first additional data serving structure 601 may include various components for data serving, and as the components for the first additional data serving structure, at least some data included in data stored in the storage is obtained from the storage. With respect to the specific data included in the cache 603, at least some data stored in the cache, the specific data is updated and the updated specific data is confirmed when the updated specific data is checked in the storage. may include an update data queue 605 for storing and transmitting to the cache, and a cache invalidator 607 which manages to transmit specific updated data to the cache through the update data queue. have.

In the first additional data serving structure of 601 , the cache may acquire and store some data among data stored in the storage from the storage. In the process of the serving layer accessing the storage and calling the desired data, the cache promotes easy data access on the serving layer side for reasons such as the data being called frequently is called on the serving layer side, or a large number of data to the storage. It may mean a separate data storage space that stores some data stored in the storage so that the serving layer can easily access it in order to prevent a problem that may cause latency in the storage by calling it. In 603, the cache is located between the storage and the serving layer, and the serving layer can transmit desired data to the front end by first calling it from the cache before calling it from the storage. If the serving layer confirms that the desired data is not in the cache because the desired data is not stored in the cache, the serving layer may call the desired data from the storage and transmit it to the front end.

As in 603, if the cache, which is set to acquire and store some of the data stored in the storage, is located between the storage and the serving layer, when the specific data stored in the cache is updated on the back-end data domain side, the storage creates a data queue. Specific data updated in response to specific data can be acquired and stored through There may be problems with storing data. In order to prevent such a problem, it is necessary to check and manage updates of data stored in common in storage and cache, and the update notification queue of 605 can perform such a role.

When the updated data is checked and managed on the back-end data domain side for the data stored in the storage, the updated data is delivered and stored in the data queue related to the data among the plurality of data queues, and then a specific data corresponding to the update cycle of the storage It is transmitted to the storage according to the cycle. At this time, if the data is stored in both the storage and the cache as described above, when the storage receives the updated data, the cache must also receive the updated data in the same way. It should be designed so that it can also be delivered to the notification queue. Based on this design, the update notification queue can hold the updated data, and when the updated data is checked in the storage and update data queue according to the update cycle of the storage, the cache update manager of the 607 updates it through the update data queue You can instruct the cache to send the cached data.

Some data in the storage that the cache obtains and stores from the storage has a primary purpose of facilitating data calls of the serving layer, so it can be selected from data stored in the storage in consideration of the data call priority by the serving layer. . That is, some data stored in the cache may be data selected to be stored in the cache based on a data call priority among data stored in the storage, and the priority of such a data call may be determined by the number of data calls from the serving layer. . For example, data to be stored in the cache in the order of the number of data calls may be selected, and data such as an item image, item name, price, and the like, having a large number of data calls from a customer page may be stored in the cache.

At this time, in the first additional data serving structure of 601, the serving layer may access the storage in the background while accessing the cache to call data having a high data call priority. If it is confirmed that updated data is stored in the storage but not updated data is stored in the cache for specific data, update request information for the specific data may be generated and transmitted by the serving layer. .

7 is a diagram illustrating a configuration in which a second additional data serving structure is added between the front-end and the back-end.

The second additional data serving structure 701 may include various components for data serving, and in particular, may include components for serving data requiring management of real-time updates. In the second additional data serving structure, for data that is determined to require real-time update among data stored in the database, real-time updated data for the data is obtained through a specific data queue related to the data from among a plurality of data queues. A real time cache 703 to store, and a real time data updater 705 that manages to transmit real-time updated data to the real-time cache through the specific data queue may be included.

In the second additional data serving structure of 701 , the real-time cache may acquire and store data identified as requiring management of real-time updates among data stored in the plurality of data queues from the plurality of data queues based on a period close to real-time. have. Among the data stored in the database and managed by the backend data domain, important data that is updated in real time, such as item inventory or promotional discount price, to reflect the real-time update, can be checked in advance, and multiple data corresponding to the backend data domain In the data queue of , when real-time updated data is confirmed for the checked data, the real-time updated data can be transmitted to the real-time cache.

That is, if a certain data is data identified as requiring management for real-time update, real-time updated data can be checked in response to the data in the data queue related to the data, and the data queue displays real-time updated data in real time. sent to the cache. From the data queue point of view, the data stored in the data queue is transmitted to the storage according to the update cycle of the storage. can be sent to the real-time cache at a near real-time period that is much faster than the update period of the storage. Therefore, by setting the real-time cache such as 703, it is possible to prevent the problem that the storage or cache cannot store real-time updated data in real time. It becomes possible to manage the transmission of real-time update data.

When the second additional data serving structure such as 701 is set, the serving layer caches the corresponding data in real time based on whether the desired data corresponds to data requiring real-time update, if the corresponding data corresponds to data requiring real-time update. can be called and sent to the frontend.

At this time, in FIG. 7, it is shown that a cache, which is a component of the first additional data serving structure, is set in addition to the second additional data serving structure for convenience, but this is a secondary example. You can also access and call the desired data.

8 is a diagram illustrating a configuration in which a first additional data serving structure and a second additional data serving structure are added between a front end and a back end.

In FIG. 8 , the first additional data serving structure 801 and the second additional data serving structure 803 are set together, which is based on the point that the setting information includes both the first additional setting information and the second additional setting information. it could be The data queue, storage, serving layer, cache, update notification queue, cache update manager, real-time cache, and real-time cache update manager included in FIG. 8 may operate as described above with reference to FIGS. 5 to 7 .

In the case of FIG. 8 , the serving layer calls the corresponding data from both the real-time cache and the cache based on whether the desired data corresponds to data requiring real-time update or not, and if the corresponding data corresponds to data requiring real-time update, Information such as time staff included in the cache and the data called from the cache is checked, and the latest data among the called data is transmitted to the front end. On the other hand, if the corresponding data does not correspond to data requiring real-time update, the serving layer calls the corresponding data from the cache and transmits it to the front end. If the corresponding data is not called from the cache, it accesses the storage and calls the data. sent to the frontend. To this end, the server device 100 may perform an operation of acquiring information on whether data requested by the front end, that is, data desired by the serving layer, corresponds to data requiring real-time update.

Meanwhile, the serving layer may make a data request to both the cache and the real-time cache regardless of the characteristics of the data as described above. Similarly, when data is called from both the cache and the real-time cache, the serving layer can deliver more recent data to the front-end based on information such as a timestamp of the called data.

For example, there may be a case where specific data requested from the frontend is requested from the frontend in the form of a data set including a plurality of data including specific data, rather than being requested from the frontend in the form of single data. can If the front-end requests a data set including a plurality of data and it is confirmed that specific data included in the plurality of data is requested, all of the plurality of data will be called by the serving layer from the storage, cache, or real-time cache. It can be configured to transmit the specific data to the front end by the serving layer only when possible.

That is, since the front-end requests a data set including a plurality of data in many cases to utilize all of the plurality of data in a customer page or a certain area of the customer page, all data included in the data set is called Data omission can be prevented by allowing a plurality of data included in the data set to be transmitted to the front-end only when possible. For example, when a data set including data such as real-time inventory for an item, an item image, an item name and/or an item price is requested from an item detail page, real-time inventory data identified as requiring real-time update is stored in the real-time cache. will be called and the rest of the data will be called from cache or storage. If item image data is not verified from cache or storage, real-time inventory data may not be sent to the frontend even if it is correctly called from the real-time cache.

In order to manage the above data set type request, identification information corresponding to the data set may be determined and set for a plurality of data included in the data set. A plurality of data included in a data set has one piece of identification information corresponding to the data set in common, and based on such identification information, all of the plurality of data included in the data set is called from storage, cache, or real-time cache. A point can be confirmed, and omission of data can be prevented.

For example, the setting information obtained by the server device 100 in operation 303 may include information for interworking with the main data serving structure for the first additional data serving structure and the second additional data serving structure. As described above with reference to FIGS. 5 to 8 , the first additional data serving structure and the second additional data serving structure correspond to structures that serve data in conjunction with the main data serving structure, so even if the additional data serving structure is added, smooth data Interworking information for setting interworking with each other so that serving can be performed may be included in the setting information obtained by the server device 100 in operation 303 .

For example, in operation 303 , the operation of the server device 100 acquiring the configuration information may include a first additional data serving structure or a second additional data serving according to a backend data domain corresponding to various types of service domains forming a service. It may include an operation of obtaining setting information in which the first additional setting information or the second additional setting information is selectively or adaptively included so that the structure can be additionally set, and the specific operation may be performed as shown in FIG. have.

FIG. 9 is a diagram illustrating an operation method in which the server device 100 for setting a data serving structure obtains setting information according to various embodiments of the present disclosure. FIG. 9 may correspond to an operation method in which the server device 100 acquires setting information in 303 of FIG. 3 in detail.

With respect to the service provided by the server device 100, the server device 100 may check information on a specific service domain among various types of service domains that form a service, such as a product service domain, an order service domain, or a review service domain. In operation 901 , information on one or more backend data domains corresponding to the specific service domain among the plurality of backend data domains may be checked ( 903 ).

Based on the checked information on one or more backend data domains, the server device 100 determines whether the first additional data serving structure needs to be set or not, and second information on whether the second additional data serving structure needs to be set. After confirming (905), the first additional configuration information for adding the first additional data serving structure or the second additional configuration information for adding the second additional data serving structure according to the first information and the second information Setting information determined to be included may be acquired ( 907 ).

Since the backend data domain related to data requested in a specific service domain is highly likely to be a part of the entire backend data domain, a first additional data serving structure or a second additional data serving structure is used for data serving for some related backend data domains. By determining whether is necessary, setting information determined to include the first additional setting information or the second additional setting information may be obtained from the server device 100 . A data serving structure can be designed so that data serving for some backend data domains corresponding to a specific service domain can be optimized through the setting information acquisition operation of the server device 100 as described above.

10 is a diagram illustrating an example of setting a data serving structure according to a backend data domain corresponding to a service domain.

Reference numeral 1001 denotes configuration information for a data serving structure, and denotes a selection option related to configuration for a main data serving structure, a first additional data serving structure, and/or a second additional data serving structure, and reference numeral 1003 denotes information related to each service domain As such, information for confirming which backend data domain can correspond to each service domain or information related to whether a first additional data serving structure or a second additional data serving structure is required for data serving may be included.

According to the information shown in 1003, a corresponding backend data domain may be determined differently for each service domain as shown in 1005, and when the corresponding backend data domain is changed in this way, the data serving structure for each service domain may vary as shown in 1007. . That is, each service domain may have different data serving structures based on the main data serving structure, the first additional data serving structure, and/or the second additional data serving structure. As an example, in a product domain corresponding to certain backend data domains (Catalog, Seller, Subscribe Order), both the first additional data serving structure and the second additional data serving structure are added to the main data serving structure. It can be confirmed, and in a review domain corresponding to a different backend data domain (Member), it can be confirmed that only the first additional data serving structure is added to the main data serving structure and configured.

As shown in FIG. 10, by enabling different data serving structures to be applied according to each service domain or a backend data domain corresponding to each service domain, the server device 100 selects each service domain or a backend data domain corresponding to each service domain. It is possible to have scalability for data serving for this purpose, and to increase the effectiveness of data serving by applying an optimal data serving structure for each service domain or a backend data domain corresponding to each service domain.

According to various embodiments, in operation 305 , the server device 100 may set a data serving structure including a main data serving structure for serving data requested by the front end based on the obtained setting information.

For example, the data serving structure set by the server device 100 in operation 305 basically includes the main data serving structure, and the first additional setting information or the second setting information included in the setting information obtained in operation 303 described above. A first additional data serving structure or a second additional data serving structure may be further included according to the additional configuration information.

For example, in operation 305 , the data requested from the front end to be served may be data requested from the first customer page corresponding to the first customer page domains included in the plurality of customer page domains included in the front end. can

For example, in the data serving structure set by the server device 100 in operation 305, when a failure occurs in each component included in the data serving structure, a circuit for preventing incorrect data from being served from the failed component Application information for circuit breaker may be included. For example, when a failure occurs in a real-time cache that stores real-time updated data in the second additional data serving structure including a real-time cache, the serving layer serves data containing errors from the real-time cache in which the failure occurs and provides it to the user Rather, it may be more appropriate in terms of customer experience to provide users with historical data that has not been updated in real time. Therefore, the server device 100 can isolate the failed real-time cache by blocking the access path to prevent the serving layer from accessing the real-time cache based on the circuit breaker. In this case, the serving layer is not updated in real time from the cache or storage. However, it is possible to serve data without errors.

In addition, in addition to the application of the circuit breaker as described above, even if a failure occurs in the real-time cache, if a situation arises in which real-time updated data needs to be served due to the importance or necessity of data, the server device 100 performs the real-time failure of the serving layer It is also possible to set up to call and serve real-time updated correct data by directly accessing multiple data queues that store real-time updated correct data without going through the cache.

For example, the data serving structure set by the server device 100 in operation 305 may correspond to one data serving structure among a plurality of data serving structures existing between the front end and the back end. In other words, a plurality of data serving structures set by the server device 100 according to operation 305 may exist between the front-end and the back-end as shown in FIG. 11 , and each data serving structure independently serves data and affects each other may not give The server device 100 sets up a plurality of independent data serving structures in this way, and by making each data serving structure correspond to different customer page domains, even if a problem occurs in the data serving structure for a specific customer page domain, other customers For page domains, you can design them to serve data correctly.

11 is a diagram illustrating a state in which a plurality of data serving structures are set between a front end and a back end.

Two data serving structures corresponding to 1101 and 1103 are set between the front end and the back end of FIG. 11, and the data serving structure corresponding to 1101 serves data for some of the customer page domains among the plurality of customer page domains. and a data serving structure corresponding to 1103 is utilized to serve data for the remaining customer page domains. By setting a plurality of data serving structures as shown in FIG. 11 , even if data serving for any customer page domain becomes impossible due to a problem in one data serving structure, data serving for other customer page domains by another data serving structure This may be possible.

In particular, among the plurality of customer page domains, some customer page domains with high importance for user experience, such as a customer page domain for an item search page, and a customer page domain for an item detail page, may exist. For the customer page domain, a data serving structure of 1101 may be configured as a Critical Serving Path (CSP). Conversely, the data serving structure of 1103 as a non-CSP (N-CSP) for the remaining customer page domains that are not of high importance related to user experience, such as a customer page domain for item category pages and a customer page domain for my page related to user information. can be set.

The server device 100 sets the data serving structure of 1101 for CSP and the data serving structure of 1103 for N-CSP in parallel and independently, resulting in a problem in the data serving structure for the customer page domain, which is not of high importance. Even so, the data serving structure for other customer page domains with high importance can still be designed to be utilized for data serving. In addition, when a problem occurs in the data serving structure of 1101 for the customer page domain with high importance, the server device 100 has a customer page domain with high importance to supplement the data serving for the customer page domain with high importance. It can also be designed to serve data by utilizing the data serving structure of 1103.

According to the above-described embodiments, each information generated or provided by the server device 100 performing an operation of setting the data serving structure based on FIGS. 3 to 11 in connection with the setting of the data serving structure is combined in various forms. It is obvious that it may be generated or provided.

The embodiments of the present invention disclosed in the present specification and drawings are merely provided for specific examples in order to easily explain the technical contents of the present invention and help the understanding of the present invention, and are not intended to limit the scope of the present invention. That is, it is apparent to those of ordinary skill in the art to which the present invention pertains that other modified examples can be implemented based on the technical spirit of the present invention. In addition, each of the above embodiments may be operated in combination with each other as needed. For example, all embodiments of the present invention may be implemented by a system in which parts are combined with each other.

In addition, the method according to the system or the like according to the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium.

As such, various embodiments of the present invention may be embodied as computer readable code on a computer readable recording medium in a particular aspect. A computer readable recording medium is any data storage device capable of storing data that can be read by a computer system. Examples of computer readable recording media include read only memory (ROM), random access memory (RAM), and compact disk-read only memory (CD-ROM). ), magnetic tapes, floppy disks, optical data storage devices, and carrier waves (such as data transmission over the Internet). The computer readable recording medium may also be distributed over network coupled computer systems, so that the computer readable code is stored and executed in a distributed fashion. In addition, functional programs, codes, and code segments for achieving various embodiments of the present invention may be easily interpreted by programmers skilled in the field to which the present invention is applied.

In addition, it will be appreciated that the apparatus and method according to various embodiments of the present invention can be realized in the form of hardware, software, or a combination of hardware and software. Such software may contain, for example, a volatile or non-volatile storage device, such as a storage device, such as a ROM, or a memory such as, for example, RAM, a memory chip, device or integrated circuit, whether erasable or rewritable; or, for example, a compact disk (CD), DVD, magnetic disk or magnetic tape, etc. may be stored in an optically or magnetically recordable and machine (eg computer) readable storage medium. . The method according to various embodiments of the present invention may be implemented by a computer including a controller and a memory, or a vehicle including such a memory or a computer, and the memory is a program including instructions for implementing embodiments of the present invention Or it will be appreciated that it is an example of a machine-readable storage medium suitable for storing programs.

Accordingly, the present invention includes a program including code for implementing the apparatus or method described in the claims of the present specification, and a machine (computer, etc.) readable storage medium storing such a program. Also, such a program may be transmitted electronically through any medium such as a communication signal transmitted through a wired or wireless connection, and the present invention suitably includes the equivalent thereof.

Although the above has been described with reference to the embodiments of the present invention, the embodiments of the present invention disclosed in the present specification and drawings are merely presented as specific examples to easily explain the technical content of the present invention and help the understanding of the present invention. It is not intended to limit the scope of In addition, the embodiments according to the present invention described above are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent ranges of embodiments are possible therefrom. Accordingly, the true technical protection scope of the present invention should be defined by the following claims.

Claims (19)

A method for an electronic device that provides a service to set up a data serving structure, the method comprising:
checking information on a frontend including a plurality of customer page domains for the service and information on a backend including a plurality of backend data domains related to a database for the service;
obtaining configuration information for setting a data serving structure between the front-end and the back-end; and
setting the data serving structure including a main data serving structure for serving the data requested by the front-end based on the setting information;
The setting information is
Main configuration information for setting the main data serving structure, and
First additional configuration information for setting a first additional data serving structure added to the main data serving structure in response to the service domain related to the service, or second additional configuration information added to the main data serving structure in response to the service domain Including second additional configuration information for setting the additional data serving structure,
How to set up a data serving structure. The method of claim 1,
The main data serving structure is,
a plurality of data queues corresponding to the plurality of backend data domains; a storage for storing data transmitted through the plurality of data queues; and a serving layer that calls the requested data from the storage and transmits it to the front end,
How to set up a data serving structure. delete 3. The method of claim 2,
The first additional data serving structure,
a cache for acquiring and storing at least a portion of data included in the data stored in the storage from the storage; an update data queue configured to transmit the updated first data to the cache when updated first data corresponding to the first data included in the at least partial data is identified in the storage; and a cache update manager managing to transmit the updated first data to the cache through the update data queue,
The second additional data serving structure is,
With respect to second data determined to require real-time update among the data stored in the database, real-time updated second data corresponding to the second data through a specific data queue related to the second data among the plurality of data queues Real time cache to obtain and store; and a real-time cache update manager that manages to transmit the real-time updated second data to the real-time cache through the specific data queue.
How to set up a data serving structure. 5. The method of claim 4,
The setting information is
The first additional data serving structure and the second additional data serving structure include information for interworking with the main data serving structure,
How to set up a data serving structure. 5. The method of claim 4,
The updated first data is transmitted to the storage through a data queue related to the first data among the plurality of data queues based on a first period corresponding to an update period of the storage when the first data is updated has become,
Instructing the cache update manager to transmit the updated first data to the cache through the update data queue when the updated first data is confirmed in the storage and the update data queue according to the first period ,
How to set up a data serving structure. 5. The method of claim 4,
Setting the data serving structure comprises:
setting the data serving structure including the main data serving structure and the first additional data serving structure based on the first additional configuration information;
The serving layer preferentially calls the requested data from the cache and transmits it to the front end,
When the requested data is not confirmed in the cache, the serving layer calls the requested data from the storage and transmits it to the front end.
How to set up a data serving structure. 5. The method of claim 4,
The at least a portion of the data stored in the cache is selected to be stored in the cache based on a data call priority among the data stored in the storage,
The data call priority is determined based on the number of data calls from the serving layer,
How to set up a data serving structure. 5. The method of claim 4,
When the updated first data is checked in the storage and the first data that is not updated in the cache is checked, update request information for the first data is transmitted by the serving layer,
How to set up a data serving structure. 5. The method of claim 4,
The real-time updated second data is transmitted to the real-time cache through the specific data queue based on a second period corresponding to real-time when the second data is updated.
How to set up a data serving structure. 5. The method of claim 4,
Setting the data serving structure comprises:
setting the data serving structure including the main data serving structure and the second additional data serving structure based on the second additional configuration information;
based on whether the requested data corresponds to data requiring real-time update, the serving layer calls the requested data from the real-time cache and transmits it to the front-end;
How to set up a data serving structure. 5. The method of claim 4,
Setting the data serving structure comprises:
setting the data serving structure to include the main data serving structure, the first additional data serving structure, and the second additional data serving structure based on the first additional configuration information and the second additional configuration information including,
When the requested data corresponds to data requiring real-time update, the serving layer calls the requested data from both the cache and the real-time cache,
The latest data among data called by the serving layer in the cache and the real-time cache is transmitted to the front end,
How to set up a data serving structure. 13. The method of claim 12,
When the requested data does not correspond to data requiring real-time update, the serving layer calls the requested data from the cache and transmits it to the front end,
How to set up a data serving structure. 13. The method of claim 12,
The method is
Further comprising the step of obtaining information on whether the requested data corresponds to data requiring real-time update,
How to set up a data serving structure. 13. The method of claim 12,
When the front end requests a data set including a plurality of data and the requested data is included in the plurality of data,
wherein the requested data is sent to the front-end based on the point that all of the plurality of data are called by the serving layer in the storage, the cache or the real-time cache.
How to set up a data serving structure. 16. The method of claim 15,
Identification information corresponding to the data set is set for the plurality of data,
It is confirmed that all of the plurality of data are called from the storage, the cache or the real-time cache based on the identification information,
How to set up a data serving structure. 5. The method of claim 4,
The step of obtaining the setting information includes:
checking information on a first service domain related to the service;
checking information on one or more backend data domains related to the first service domain among the plurality of backend data domains;
checking first information on whether the first additional data serving structure needs to be configured and second information on whether the second additional data serving structure needs to be configured, based on the information on the one or more backend data; and
Based on the first information and the second information, comprising the step of obtaining the setting information determined to include the first additional setting information or the second additional setting information,
How to set up a data serving structure. The method of claim 1,
wherein the requested data is requested from a first customer page corresponding to a first customer page domain included in the plurality of customer page domains;
How to set up a data serving structure. In the electronic device for setting a data serving structure related to a service,
processor; and
one or more memories storing one or more instructions;
The one or more instructions, when executed, cause the processor to:
checking information on a frontend including a plurality of customer page domains for the service and information on a backend including a plurality of backend data domains related to a database for the service;
obtaining configuration information for setting a data serving structure between the front-end and the back-end; and
controlling the processor to perform the step of setting the data serving structure including the main data serving structure for serving the data requested by the front end based on the setting information,
The setting information is
Main configuration information for setting the main data serving structure, and
First additional configuration information for setting a first additional data serving structure added to the main data serving structure in response to the service domain related to the service, or second additional configuration information added to the main data serving structure in response to the service domain Including second additional configuration information for setting the additional data serving structure,
electronic device.

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