CN111669327A - Service providing system, method, storage medium and service node - Google Patents

Abstract

The application provides a service providing system, a service providing method, a storage medium and a service node, and relates to the technical field of communication. The service providing system includes: a routing node; a base station connected to the routing node; a plurality of service nodes coupled to the base station, all of the service nodes communicatively coupled to each other, and each of the service nodes may provide a same service. Compared with the traditional mode of providing service by a central machine room, the service node can not only realize a honeycomb network on a physical structure, but also realize the honeycomb network on a data flow direction. Therefore, the distance between each user (terminal) and the logical structure and the physical structure of a server (namely a service node) on the data flow can be shortest, so that the limitation of the performance (capacity and response speed) of a routing node and a trunk optical fiber is avoided, the routing performance of a backbone network and the node is not depended on, and the network bandwidth flow is improved.

Description

Service providing system, method, storage medium and service node

Technical Field

The present application relates to the field of communications technologies, and in particular, to a service providing system, a service providing method, a storage medium, and a service node.

Background

Cloud computing power and cloud storage provided by an existing cloud computing service provider belong to a centralized service type, although different regional machine rooms exist, the cloud computing power and the cloud storage are still centralized services, service capacity is limited by network bandwidth of the central machine room, and the problems of insufficient capacity and high cost exist.

Disclosure of Invention

In order to overcome at least the above disadvantages in the prior art, an object of the present application is to provide a service providing system, method, storage medium and service node, so as to improve the capability of a cloud computing service provider in providing services.

In a first aspect, an embodiment of the present application provides a service providing system, including:

a routing node;

a base station connected to the routing node;

a plurality of service nodes coupled to the base station, all of the service nodes communicatively coupled to each other, and each of the service nodes may provide a same service.

Has the advantages that: the service providing system provided by the embodiment of the application provides service through the service node, and compared with the traditional mode of providing service through a central machine room, the service providing system not only can realize a cellular network on a physical structure, but also can realize a cellular network on a data flow direction. Therefore, the distance between each user (terminal) and the logical structure and the physical structure of a server (namely a service node) on the data flow can be shortest, so that the limitation of the performance (capacity and response speed) of a routing node and a trunk optical fiber is avoided, the routing performance of a backbone network and the node is not depended on, and the network bandwidth flow is improved.

With reference to the first aspect, in a first possible implementation manner of the first aspect, the number of the base stations is multiple, each base station is connected with multiple service nodes, and each base station is communicatively connected with each other.

Has the advantages that: by connecting a plurality of base stations on the same routing node, the coverage area of the system can be further improved, and the cost can be saved as much as possible.

With reference to the first possible implementation manner of the first aspect, in a second possible implementation manner of the first aspect, the number of the routing nodes is multiple, each routing node is connected to multiple base stations, and each base station is connected to multiple service nodes.

Has the advantages that: by interconnecting a plurality of routing nodes, each routing node is connected with a plurality of base stations, and each base station is connected with a plurality of service nodes, the wide-range coverage of services can be realized with the lowest cost as possible.

With reference to the first aspect, in a third possible implementation manner of the first aspect, any one of the service nodes is configured to:

obtaining a first request for requesting a newly-added service node;

sending the first request to other service nodes in the service providing system;

verifying the first request, obtaining a corresponding verification result, and obtaining a verification result determined by the other service nodes based on the first request;

determining whether a service node is newly added according to all verification results;

if the newly added service node is determined, the information of the newly added service node is broadcasted to all service nodes in the service providing system, so that each service node records the information.

Has the advantages that: the method comprises the steps of verifying a first request of a newly added service node by using each service node in the system, determining whether the service node is newly added or not by integrating verification results of the service nodes, and recording information by each existing service node when the service node is newly added so as to realize the function of the newly added service node in the system.

With reference to the first aspect, in a fourth possible implementation manner of the first aspect, any one of the service nodes is configured to:

obtaining a second request for requesting provision of a service;

and providing corresponding service to the terminal sending the second request.

Has the advantages that: by providing corresponding services to the terminal sending the request when receiving the service request, the method can realize quick response to the service requirement, and can provide services for the terminal (user) by the service node which is as close as possible.

With reference to the fourth possible implementation manner of the first aspect, in a fifth possible implementation manner of the first aspect, when the second request is a transaction request for requesting provision of a transaction service, the service node that receives the second request is further configured to:

verifying the validity of the transaction content corresponding to the transaction request;

when the transaction content of the transaction request is determined to be valid, providing corresponding transaction service to the terminal;

and broadcasting the transaction information generated based on the provided transaction service to all service nodes in the service providing system so that each service node records the transaction information.

Has the advantages that: in this way, transaction services can be provided for the terminal (user), and richer and more convenient transaction services can be provided compared with the traditional blockchain system (the performance and capacity of the traditional blockchain are difficult to support business services).

In a second aspect, an embodiment of the present application provides a service providing method, which is applied to any service node in the service providing system according to any one of the first aspect or possible implementation manners of the first aspect, where the method includes:

obtaining a first request for requesting a newly-added service node;

sending the first request to other service nodes in the service providing system;

verifying the first request, obtaining a corresponding verification result, and obtaining a verification result determined by the other service nodes based on the first request;

determining whether a service node is newly added according to all verification results;

if the newly added service node is determined, the information of the newly added service node is broadcasted to all service nodes in the service providing system, so that each service node records the information.

With reference to the second aspect, in a first possible implementation manner of the second aspect, the method further includes:

obtaining a transaction request for requesting provision of a transaction service;

verifying the validity of the transaction content corresponding to the transaction request;

when the transaction content of the transaction request is determined to be valid, providing corresponding transaction service to a terminal sending the transaction request;

and broadcasting the transaction information generated based on the provided transaction service to all service nodes in the service providing system so that each service node records the transaction information.

In a third aspect, an embodiment of the present application provides a storage medium, where one or more programs are stored, and the one or more programs are executable by one or more processors to implement the second aspect or the service providing method described in the first possible implementation manner of the second aspect.

In a fourth aspect, an embodiment of the present application provides a service node, including a memory and a processor, where the memory is used to store information including program instructions, and the processor is used to control execution of the program instructions, and the program instructions are loaded and executed by the processor to implement the second aspect or the service providing method described in the first possible implementation manner of the second aspect.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic diagram of a service providing system of a conventional star network structure;

fig. 2 is a schematic structural diagram of a service providing system according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of another service providing system provided in the embodiment of the present application;

fig. 4 is a flowchart of a service providing method according to an embodiment of the present application;

fig. 5 is a block diagram of a service node according to an embodiment of the present disclosure.

Icon: 100-service providing system of conventional star network structure; 110-a server; 120-routing nodes; 130-application node; 200-a service providing system; 210-routing nodes; 220-a base station; 230-a service node; 231-a memory; 232-a communication module; 233-a bus; 234-processor.

Detailed Description

The present application will now be described in detail with reference to the drawings, and the specific operations in the method embodiments may also be applied to the apparatus embodiments or the system embodiments. In the description of the present application, "at least one" includes one or more unless otherwise specified. "plurality" means two or more. For example, at least one of A, B and C, comprising: a alone, B alone, a and B in combination, a and C in combination, B and C in combination, and A, B and C in combination. In this application, "/" means "or, for example, A/B may mean A or B; "and/or" herein is merely an association describing an associated object, and means that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone.

In order to facilitate understanding of the technical solutions provided in the embodiments of the present application, before the present solution is introduced, a simple description is first given to a conventional service providing system.

As shown in fig. 1, fig. 1 is a schematic diagram of a service providing system 100 of a conventional star network structure.

In the present embodiment, the service providing system 100 of the conventional star network structure may include a server 110, a routing node 120, and an application node 130. Wherein the servers may communicate with each other, the routing node may connect a plurality of servers, and the plurality of application nodes 130 may implement the connection with the servers through the routing node, thereby forming a star network structure.

Illustratively, the server 110 may include various servers such as an application server, a data server, and a general server (i.e., named as a server in fig. 1) to provide corresponding services for users (the users typically obtain the services through user terminals). The routing node 120, which is a backbone network of the service providing system 100 of the conventional star network structure, can implement data communication between the server 110 and the application node 130. The application node 130 may include various types such as a DIPCC (distributed IP call center) storage node, a DIPCC computing node, and the like (of course, various types of nodes such as a billing node, a voting node, and the like may also be included in other systems, which is not limited herein).

However, in the service providing system 100 with the traditional star network structure, the computing power and the storage belong to a centralized service type, although different regional rooms exist, the service is still centralized, the service capability is limited by the network bandwidth of the central room, and the problems of insufficient capability and overhigh cost exist. Even a fully distributed decentralized storage node is still limited by the bandwidth of the core routing node and the backbone network, and the existing optical fiber technology cannot meet the rapidly expanding information flooding.

In addition, although the conventional cellular network is constructed as a cellular network, it is only for the physical structure, and in order to reduce the construction of base stations (save cost) and enlarge the coverage area of each base station, a cellular layout of the service area of the base stations is adopted. However, in the existing wireless network, a cellular structure for data streaming is not implemented. In a strict sense, even after a 5G (5th Generation Mobile Networks, fifth Generation Mobile communication Technology) network is on line, most software or services still do not implement a cellular structure at a network Data flow level, because 4G (The 4th Generation Mobile communication Technology, fourth Generation Mobile communication Technology) and 5G network base stations, as well as an existing IDC (Internet Data Center) machine room depend on a trunk network, service Data is still greatly limited by The performance of routing nodes and trunk optical fibers.

Based on this, the embodiments of the present application provide a service providing system to alleviate or even solve the above problems.

As shown in fig. 2, fig. 2 is a schematic structural diagram of a service providing system 200 according to an embodiment of the present application.

In the present embodiment, the service providing system 200 may include a routing node 210, a base station 220, and a serving node 230. Routing node 210 may be coupled to base station 220, and base station 220 may be coupled to a plurality of serving nodes 230, and each serving node 230 may communicate with each other and each serving node 230 may provide the same service. That is, each service node 230 may be considered a server, and these servers may provide the same service.

In this embodiment, the service node 230 may include various types of nodes such as a storage node, an algorithm node, and the like, for providing services to the user. Each service node 230 (e.g., storage node, compute node) employs the same service protocol, allowing each service node 230 to provide services directly to nearby users without the need to provide services through conventional means (i.e., finding a central room server).

Illustratively, each service node 230 may have a complete set of processes for providing services such as authentication rights, billing, etc., thereby providing users with diversified services such as data storage services, query services, transaction services, etc. In addition, each service node 230 in the service providing system 200 may further respond to a request (i.e., a first request) for adding a new service node 230 to the service providing system 200, so as to implement scale expansion of the service providing system 200, so as to expand the coverage of the service provided by the service providing system 200.

The service providing system provided in this embodiment can implement not only a cellular network in a physical structure but also a cellular network in a data flow direction by providing services through the service nodes. Therefore, each user (user terminal) can have the shortest distance with the logical structure and the physical structure of the server (namely, a service node) on the data flow, so that the limitation of the performance (capacity and response speed) of the routing node and the trunk optical fiber is avoided, the backbone network and the node routing performance are not depended on, and the network bandwidth flow is improved.

As shown in fig. 3, fig. 3 is a schematic structural diagram of another service providing system 200 provided in the embodiment of the present application.

In order to effectively improve the coverage of the service providing system 200 on the basis of saving cost as much as possible, in this embodiment, the number of the base stations 220 may be multiple, and each base station is connected to multiple service nodes 230 (including a DIPCC computing node, a DIPCC storage node, and the like), and each base station is communicatively connected to another base station. By adopting the arrangement mode of the honeycomb structure, a plurality of base stations are connected on the same routing node, and the coverage area of the system can be further improved under the condition of using less base stations (the cost can be saved as far as possible).

And, in order to make the service providing system 200 implement a wider coverage, and provide services for more users in a wider range, the number of the routing nodes 210 is multiple, each routing node 210 is connected with a plurality of base stations 220, each base station 220 is connected with a plurality of service nodes 230, each routing node 210 can be connected with each other to implement data communication, each base station 220 can be connected with each other by communication, and each service node 230 can be connected with each other by communication.

By interconnecting a plurality of routing nodes, each routing node is connected with a plurality of base stations, and each base station is connected with a plurality of service nodes, the wide-range coverage of services can be realized with the lowest cost as possible. In addition, the addition of a plurality of routing nodes can further improve the network bandwidth flow of the whole system, thereby improving the capacity of the service providing system (realized by more service nodes, routing nodes and base stations).

And, each service node 230 may provide resources such as computing power, storage, network bandwidth, etc. to the service providing system 200. The network of the service providing system 200 may be a 5G network, a 4G network, etc., and is subject to the network bandwidth provided by the service node 230, which is not limited herein. By the decentralized distributed network topology structure, computing power and storage can be completely dispersed, and 5G technology can be deeply fused, so that any dispersed service node (computing power node or storage node) can provide own 5G network bandwidth (or 4G network or other networks), and the network bandwidth is high enough and can not be limited by the optical fiber bandwidth limit of a backbone network.

Compared with the traditional star network structure (which can realize distributed computing power on a physical structure, but can realize decentralization only in a large range, such as worldwide), the service providing system provided by the embodiment of the application can realize distributed computing power and/or storage on the physical structure and a data stream structure, and can realize decentralization in a smaller network range (such as inside a metropolitan area network). For example, if an APP (Application) Application runs in the service providing system, the service node may be different for each login, e.g., the node and server logged in yunnan are different from the node and server logged in shanghai. In the existing star network structure, users all need to log in the same central computer room server (the IDC computer room may have several cells, but is still centralized relatively).

The embodiment of the application also provides a service providing method, and the service providing method can be applied to any service node in the service providing system. As shown in fig. 4, fig. 4 is a flowchart of a service providing method according to an embodiment of the present application.

In the present embodiment, the service providing method may include step S100, step S200, step S300, step S400, and step S500.

Step S100: a first request for requesting a newly added service node is obtained.

Step S200: and sending the first request to other service nodes in the service providing system.

Step S300: and verifying the first request, obtaining a corresponding verification result, and obtaining the verification result determined by the other service nodes based on the first request.

Step S400: and determining whether to add a new service node according to all the verification results.

Step S500: if the newly added service node is determined, the information of the newly added service node is broadcasted to all service nodes in the service providing system, so that each service node records the information.

In this embodiment, when a manager or a user desires to add a new service node to the service providing system, any service node (for example, a service node nearby) in the service providing system may perform step S100.

Step S100: a first request for requesting a newly added service node is obtained.

In this embodiment, the service node may obtain a first request, where the first request is used to request that a new service node be added to the service providing system.

After obtaining the first request, the service node may perform step S200.

Step S200: and sending the first request to other service nodes in the service providing system.

In this embodiment, the service providing system obtaining the first request may send the first request to other service nodes in the service providing system, so as to verify the first request. For example, the service node obtaining the first request may send the first request to all service nodes, or may send the first request to a preset proportion (for example, 70% of all nodes in the service providing system), or a preset number (for example, 100, 10000, etc.) of service nodes, or service nodes within a preset range (for example, within a range of 100 square kilometers), and may determine the service node to be sent according to actual needs (considering the verification efficiency under the condition of ensuring the verification accuracy), which is not limited herein.

The service node may then perform step S300.

Step S300: and verifying the first request, obtaining a corresponding verification result, and obtaining the verification result determined by the other service nodes based on the first request.

In this embodiment, the service node that obtains the first request may verify the first request, obtain a corresponding verification result, and obtain a verification result that is determined by other service nodes based on the accepted first request.

After obtaining all the authentication results determined based on the first request, the service node may perform step S400.

Step S400: and determining whether to add a new service node according to all the verification results.

In this embodiment, the service node may determine whether to add a new service node according to all the verification results. For example, when there is a preset percentage (90% or more, 50% or more, etc.) of all the verification results indicating that the verification is passed, the service node may determine that the first request is verified.

Of course, this is only an exemplary authentication manner, and other manners may also be adopted for authentication, for example, when each service node sends the first request to other service nodes, the corresponding authentication result is additionally sent (when the N +1 th service node receives the first request, the authentication results of the first N service nodes are additionally sent in the information), so that the authentication of the first request is completed.

When the verification result indicates that a service node can be newly added, the service node may perform step S500.

Step S500: if the newly added service node is determined, the information of the newly added service node is broadcasted to all service nodes in the service providing system, so that each service node records the information.

In this embodiment, the service node may be determined as a new service node of the service providing system, and information of the new service node (for example, node information of the new service node, time information, and the like) may be broadcast to all service nodes in the service providing system, so that each service node records the information, thereby adding service nodes of the service providing system.

The method comprises the steps of verifying a first request of a newly added service node by using each service node in the system, determining whether the service node is newly added or not by integrating verification results of the service nodes, and recording information by each existing service node when the service node is newly added so as to realize the function of the newly added service node in the system.

In this embodiment, any service node in the service providing system may also provide other types of services for the user.

For example, the service node may obtain a second request for requesting to provide a service, and provide the corresponding service to the terminal sending the second request. This enables a fast response to service demands and provides services to the terminal (user) with the closest possible serving node.

For example, a service node may provide transaction services for an end (user).

When the second request is a transaction request for requesting to provide a transaction service, the service node receiving the second request may verify validity of transaction content corresponding to the transaction request (the verification manner may be multiple verification, that is, multiple service nodes perform verification, or a single service node performs verification, and may be set according to actual needs, which is not limited here). Upon determining that the transaction content of the transaction request is valid, the service node (i.e., the service node that obtained the transaction request) may provide the corresponding transaction service to the terminal. And, the transaction information generated based on the provided transaction service may be broadcast to all service nodes in the service providing system, so that each service node records the transaction information, thereby completing the provision of the transaction service.

In this way, transaction services can be provided for the terminal (user), and richer and more convenient transaction services can be provided compared with the traditional blockchain system (the performance and capacity of the traditional blockchain are difficult to support business services).

Of course, the service providing system may also provide more services for the user, such as data query, data storage, map search, route navigation, and so on, which are not listed here.

As shown in fig. 5, fig. 5 is a block diagram of a service node 230 according to an embodiment of the present disclosure.

In this embodiment, the service node 230 may be a terminal device, such as a personal computer, a notebook computer, etc., and is not limited herein. Of course, the service node 230 may also be a server, such as a network server, a data server, etc., and is not limited herein.

Illustratively, the service node 230 may include: a communication module 232 connected to the outside through a network, one or more processors 234 for executing program instructions, a bus 233, a Memory 231 of different forms, for example, a magnetic disk, a ROM (Read-Only Memory), a RAM (Random Access Memory), or any combination thereof. The memory 231, the communication module 232 and the processor 234 are connected by a bus 233.

Illustratively, the memory 231 has stored therein a program. The processor 234 may call and execute the programs from the memory 231, so that the service providing method may be performed by executing the programs to realize the provision of the service.

Also, an embodiment of the present application provides a storage medium storing one or more programs, which are executable by one or more processors to implement the service providing method as described in the embodiment of the present application.

To sum up, an embodiment of the present application provides a service providing system, a method, a storage medium, and a service node, where the system includes: a routing node; a base station connected to the routing node; a plurality of service nodes coupled to the base station, all of the service nodes communicatively coupled to each other, and each of the service nodes may provide a same service.

Compared with the traditional mode of providing service by a central machine room, the service node can not only realize a honeycomb network on a physical structure, but also realize the honeycomb network on a data flow direction. Therefore, the distance between each user (terminal) and the logical structure and the physical structure of a server (namely a service node) on the data flow can be shortest, so that the limitation of the performance (capacity and response speed) of a routing node and a trunk optical fiber is avoided, the routing performance of a backbone network and the node is not depended on, and the network bandwidth flow is improved.

It is to be understood that various changes and modifications may be made to the embodiments of the present application by those skilled in the art without departing from the spirit and scope of the present application. Thus, if such modifications and variations of the embodiments of the present application fall within the scope of the claims of the present application and their equivalents, the present application is also intended to encompass such modifications and variations.

Claims (10)

1. A service providing system, comprising:

a routing node;

a base station connected to the routing node;

a plurality of service nodes coupled to the base station, all of the service nodes communicatively coupled to each other, and each of the service nodes may provide a same service.

2. The service providing system of claim 1, wherein the base station is plural, each base station is connected with plural service nodes, and each base station is communicatively connected with each other.

3. The service providing system according to claim 2, wherein the routing node is a plurality of routing nodes, and a plurality of base stations are connected to each routing node, and a plurality of service nodes are connected to each base station.

4. The service provisioning system of claim 1, wherein any of said service nodes is configured to:

obtaining a first request for requesting a newly-added service node;

sending the first request to other service nodes in the service providing system;

verifying the first request, obtaining a corresponding verification result, and obtaining a verification result determined by the other service nodes based on the first request;

determining whether a service node is newly added according to all verification results;

if the newly added service node is determined, the information of the newly added service node is broadcasted to all service nodes in the service providing system, so that each service node records the information.

5. The service provisioning system of claim 1, wherein any of said service nodes is configured to:

obtaining a second request for requesting provision of a service;

and providing corresponding service to the terminal sending the second request.

6. The service providing system according to claim 5, wherein the service node receiving the second request is further configured to, when the second request is a transaction request for requesting provision of a transaction service:

verifying the validity of the transaction content corresponding to the transaction request;

when the transaction content of the transaction request is determined to be valid, providing corresponding transaction service to the terminal;

and broadcasting the transaction information generated based on the provided transaction service to all service nodes in the service providing system so that each service node records the transaction information.

7. A service providing method applied to any service node in the service providing system according to any one of claims 1 to 6, the method comprising:

obtaining a first request for requesting a newly-added service node;

sending the first request to other service nodes in the service providing system;

verifying the first request, obtaining a corresponding verification result, and obtaining a verification result determined by the other service nodes based on the first request;

determining whether a service node is newly added according to all verification results;

if the newly added service node is determined, the information of the newly added service node is broadcasted to all service nodes in the service providing system, so that each service node records the information.

8. The service providing method according to claim 7, wherein the method further comprises:

obtaining a transaction request for requesting provision of a transaction service;

verifying the validity of the transaction content corresponding to the transaction request;

when the transaction content of the transaction request is determined to be valid, providing corresponding transaction service to a terminal sending the transaction request;

and broadcasting the transaction information generated based on the provided transaction service to all service nodes in the service providing system so that each service node records the transaction information.

9. A storage medium characterized in that the storage medium stores one or more programs executable by one or more processors to implement the service providing method of claim 7 or 8.

10. A service node, comprising a memory for storing information including program instructions and a processor for controlling the execution of the program instructions, which program instructions, when loaded and executed by the processor, implement the service provisioning method of claim 7 or 8.

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