CN111861252A - Electronic resource transmission method and device and server - Google Patents

Abstract

The method comprises the steps of storing resource data after the resource data are obtained, obtaining first resource data with the maximum priority from at least one stored resource data, wherein the priority corresponding to the resource data is in negative correlation with the number of times of transferring electronic resources corresponding to a first account contained in the resource data, and the first account is a transfer-out account of the electronic resources. That is, the greater the number of times of transferring the electronic resource corresponding to the first account is, the smaller the priority corresponding to the resource data is, and the smaller the number of times of transferring the electronic resource corresponding to the first account is, the greater the priority corresponding to the resource data is. The resource transfer request of the resource data corresponding to the account with the small electronic resource transfer frequency is preferentially sent to the third-party server, so that the condition that the resource transfer request of a legal user cannot be processed in time due to the fact that the electronic resource transfer application is maliciously submitted for multiple times by an illegal account is avoided.

Description

Electronic resource transmission method and device and server

Technical Field

The present disclosure relates to the field of network transaction technologies, and in particular, to a method and an apparatus for transmitting electronic resources, and a server.

Background

There is a need for electronic resource transfer, which refers to controlling electronic resources to be transferred among a plurality of electronic accounts via the internet, and electronic resources may refer to virtual resources, such as electronic money.

In the related art, a user having a demand for electronic resource transfer may submit an electronic resource transfer application through a client; the client can send the resource transfer request corresponding to the electronic resource transfer application to the server, so that the purpose of transferring the electronic resources among the plurality of electronic accounts is achieved through the server. Currently, the capacity of the server is limited, i.e. the number of resource transfer requests that the server can handle within a preset time period is limited.

If the electronic resource transfer application is maliciously submitted by the illegal user for multiple times, the number of resource transfer requests corresponding to the legal user which can be processed by the server is reduced, and even the resource transfer requests corresponding to the legal user cannot be processed.

Disclosure of Invention

The present disclosure provides an electronic resource transmission method, an electronic resource transmission device, and a server, so as to at least solve the problem that a resource transfer request corresponding to a valid user cannot be processed in time due to malicious multiple resource transfer applications by an invalid user in the related art. The technical scheme of the disclosure is as follows:

according to a first aspect of the embodiments of the present disclosure, an electronic resource transmission method is provided, including acquiring resource data, where the resource data includes the number of electronic resources to be transferred, a first account and a second account, the first account is a transfer-out account of the electronic resources, and the second account is a transfer-in account of the electronic resources; storing the resource data; obtaining first resource data with the highest priority from at least one stored resource data; the priority corresponding to one resource data is negatively related to the times of transferring the electronic resource corresponding to the first account contained in the resource data; and sending a resource transfer request corresponding to the first resource data to a third-party server, wherein the resource transfer request is used for instructing the third-party server to transfer the number of the electronic resources from the first account to the second account.

With reference to the first aspect, in a first possible implementation manner, the obtaining, from the stored at least one resource data, a first resource data with a highest priority includes: obtaining a target element with the maximum priority from the priority queue; the priority queue comprises at least one element and a weight value corresponding to the at least one element respectively, wherein one element comprises a transfer resource identifier corresponding to the resource data or one element comprises a transfer resource identifier corresponding to the resource data and the first account included in the resource data; the transfer resource identifications corresponding to different resource data are different; the smaller the weight value corresponding to one element is, the larger the priority corresponding to the element is; and obtaining the first resource data corresponding to the target element from at least one resource data stored in a database.

With reference to the first aspect, in a second possible implementation manner, the step of storing the resource data includes: storing the resource data to the database; acquiring a weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data; and inserting the element corresponding to the resource data and the weight value corresponding to the resource data into the priority queue.

With reference to the first aspect, in a third possible implementation manner, the obtaining a weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data includes: acquiring resource attribute information of the resource data, wherein the resource attribute information of the resource data comprises one or more of resource transfer application time, resource transfer channels and user grades corresponding to the first account; the resource transfer channel corresponding to the resource data represents the type of a third-party server for processing the resource transfer request corresponding to the resource data; and acquiring a weight value corresponding to the resource data based on the times of transferring the electronic resources corresponding to the resource data and the resource attribute information of the resource data.

With reference to the first aspect, in a fourth possible implementation manner, the resource attribute information of the resource data includes a resource transfer application time, and the step of obtaining the weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the resource data and the resource attribute information of the resource data includes: and determining the product of the times of transferring the electronic resources corresponding to the resource data and the resource transfer application time of the resource data as the weighted value of the resource data.

With reference to the first aspect, in a fifth possible implementation manner, the inserting the element corresponding to the resource data and the weight value corresponding to the resource data into the priority queue includes: acquiring a target resource transfer channel corresponding to the resource data, wherein the target resource transfer channel represents the type of a third-party server for processing a resource transfer request corresponding to the resource data; inserting the elements corresponding to the resource data and the weight values corresponding to the resource data into the priority queues corresponding to the target resource transfer channels; different resource transfer channels correspond to different priority queues.

With reference to the first aspect, in a sixth possible implementation manner, before the step of obtaining the target element with the highest priority from the priority queue, the method further includes: determining that the target value is smaller than a preset capacity threshold; the target value is the number of resource transfer requests which are sent to the third-party server within a preset time period; the preset capacity threshold refers to the maximum number of resource transfer requests that can be sent to the third-party server within the preset time period.

With reference to the first aspect, in a seventh possible implementation manner, after the step of sending the resource transfer request corresponding to the first resource data to the third-party server, the method further includes: deleting the first resource data.

According to a second aspect of the embodiments of the present disclosure, an electronic resource transmission apparatus is provided, which includes a first obtaining module configured to obtain resource data, where the resource data includes the number of electronic resources to be transferred, a first account and a second account, the first account is a transfer-out account of the electronic resources, and the second account is a transfer-in account of the electronic resources; a storage module configured to store the resource data obtained by the first obtaining module; a second obtaining module configured to obtain first resource data with a maximum priority from at least one of the resource data stored by the storage module; the priority corresponding to one resource data is negatively related to the times of transferring the electronic resource corresponding to the first account contained in the resource data; a sending module configured to send a resource transfer request corresponding to the first resource data obtained by the second obtaining module to a third-party server, where the resource transfer request is used to instruct the third-party server to transfer the number of the electronic resources from the first account to the second account.

With reference to the second aspect, in a first possible implementation manner, the second obtaining module is specifically configured to: a first obtaining unit configured to obtain a target element with a maximum priority from a priority queue; the priority queue comprises at least one element and a weight value corresponding to the at least one element respectively, wherein one element comprises a transfer resource identifier corresponding to the resource data or one element comprises a transfer resource identifier corresponding to the resource data and the first account included in the resource data; the transfer resource identifications corresponding to different resource data are different; the smaller the weight value corresponding to one element is, the larger the priority corresponding to the element is; the second acquisition unit is configured to acquire the first resource data corresponding to the target element acquired by the first acquisition unit from at least one resource data stored in a database.

With reference to the second aspect, in a second possible implementation manner, the storage module is specifically configured to: a first storage unit configured to store the resource data obtained by the first obtaining module in the database; the third acquisition unit is configured to acquire a weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data acquired by the first acquisition module; an inserting unit configured to insert the element corresponding to the resource data obtained by the first obtaining module and the weight value corresponding to the resource data obtained by the third obtaining unit into the priority queue.

With reference to the second aspect, in a third possible implementation manner, the third obtaining unit is specifically configured to: the first obtaining subunit is configured to obtain the resource attribute information of the resource data obtained by the first obtaining module, where the resource attribute information of the resource data includes one or more of resource transfer application time, resource transfer channels, and user grades corresponding to the first account; the resource transfer channel corresponding to the resource data represents the type of a third-party server for processing the resource transfer request corresponding to the resource data; and the second acquiring subunit is configured to acquire a weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the resource data and the resource attribute information of the resource data acquired by the first acquiring subunit.

With reference to the second aspect, in a fourth possible implementation manner, the resource attribute information of the resource data includes a resource transfer application time, and the second obtaining subunit is specifically configured to: the determining sub-module is configured to determine a product of the number of times of transferring the electronic resource corresponding to the resource data and the resource transfer application time of the resource data obtained by the first obtaining sub-unit as a weight value of the resource data.

With reference to the second aspect, in a fifth possible implementation manner, the inserting unit is specifically configured to: a fourth obtaining unit, configured to obtain a target resource transfer channel corresponding to the resource data, where the target resource transfer channel represents a type of a third-party server that processes a resource transfer request corresponding to the resource data; an inserting subunit, configured to insert the element corresponding to the resource data and the weight value corresponding to the resource data obtained by the third obtaining unit into the priority queue corresponding to the target resource transfer channel obtained by the fourth obtaining unit; different resource transfer channels correspond to different priority queues.

With reference to the second aspect, in a sixth possible implementation manner, the electronic resource transmission apparatus further includes: a determination module configured to determine that the target value is less than a preset capacity threshold; the target value is the number of resource transfer requests which are sent to the third-party server within a preset time period; the preset capacity threshold refers to the maximum number of resource transfer requests that can be sent to the third-party server within the preset time period.

With reference to the second aspect, in a seventh possible implementation manner, the electronic resource transmission apparatus further includes: a deleting module configured to delete the first resource data after the sending module sends the resource transfer request corresponding to the first resource data to the third-party server.

According to a third aspect of the embodiments of the present disclosure, there is provided a server, including: a processor; a memory for storing the processor-executable instructions; wherein the processor is configured to execute the instructions to implement the electronic resource transfer method of the first aspect.

According to a fourth aspect of embodiments of the present disclosure, there is provided a storage medium having instructions that, when executed by a processor of a server, enable the server to perform the electronic resource transmission method according to the first aspect.

According to a fifth aspect of the embodiments of the present disclosure, there is provided a computer program product directly loadable into an internal memory of a computer and containing software codes, the computer program being loaded into and executed by the computer to implement the electronic resource transmission method shown in the first aspect.

The technical scheme provided by the embodiment of the disclosure at least brings the following beneficial effects:

after the resource data are obtained, the resource data are stored, first resource data with the maximum priority are obtained from at least one stored resource data, the priority corresponding to the resource data is in negative correlation with the times of transferring the electronic resources corresponding to a first account contained in the resource data, and the first account is a transfer-out account of the electronic resources. That is, the greater the number of times of transferring the electronic resource corresponding to the first account is, the smaller the priority corresponding to the resource data is, and the smaller the number of times of transferring the electronic resource corresponding to the first account is, the greater the priority corresponding to the resource data is. According to the technical scheme, the resource transfer request of the resource data corresponding to the account with the small electronic resource transfer frequency is preferentially sent to the third-party server, so that the third-party server preferentially processes the resource transfer request of the resource data corresponding to the account with the small electronic resource transfer frequency, and the condition that the resource transfer request of a legal user cannot be processed timely due to the fact that an illegal account maliciously submits the electronic resource transfer application for multiple times is avoided.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and, together with the description, serve to explain the principles of the disclosure and are not to be construed as limiting the disclosure.

FIG. 1 is an architectural diagram illustrating one implementation environment in accordance with an exemplary embodiment;

FIG. 2 is a flow chart illustrating a method of electronic resource transfer in accordance with an exemplary embodiment;

FIG. 3 is a flow chart illustrating another method of electronic resource transfer in accordance with an exemplary embodiment;

FIG. 4 is a block diagram illustrating an electronic resource transfer device in accordance with an exemplary embodiment;

FIG. 5 is a block diagram illustrating a server in accordance with an example embodiment.

Detailed Description

In order to make the technical solutions of the present disclosure better understood by those of ordinary skill in the art, the technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the disclosure described herein are capable of operation in sequences other than those illustrated or otherwise described herein. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

Before describing the technical solution provided by the embodiment of the present disclosure in detail, a brief description is first given to an implementation environment and an application environment scenario related to the embodiment of the present disclosure.

First, a brief description is given of an application environment related to an embodiment of the present disclosure.

The user can carry out electronic resource transfer application based on the client in the electronic equipment to obtain resource data. And after the client sends the resource data to the server, the server stores the resource data and the resource transfer application time corresponding to the resource data to the database. When the server processes the resource data subsequently, the resource transfer request corresponding to the resource data can be sequentially sent to the third-party server from morning to evening based on the resource transfer application time stored in the database.

For example, the user may set at least part of the resource data on a user interface presented by a client in the electronic device, and the resource data may include: the method comprises the steps of the number of electronic resources to be transferred, a first account and a second account, wherein the first account is a transfer-out account of the electronic resources, and the second account is a transfer-in account of the electronic resources.

For example, the electronic resource transfer application may be a withdrawal application; the electronic resource may be electronic money, e.g., electronic cash, electronic gold money, or the like.

For example, the user may not set the first account on the user interface, and when the user sets the resource data based on the user interface, the default first account is an account logged in by the client on the electronic device.

For example, the server determines the time of receiving the resource data as the resource transfer application time corresponding to the resource data, or the server determines the time of storing the resource data in the database as the resource transfer application time corresponding to the resource data, or the time of obtaining the resource data by the client is the resource transfer application time corresponding to the resource data.

Assume that the database includes resource data 1, resource data 2, and resource data 3, where resource transfer application time 1 corresponding to resource data 1 is 10 am at 5/29/2020, resource transfer application time 2 corresponding to resource data 2 is 10 am at 29/2020, and resource transfer application time 3 corresponding to resource data 3 is 15 am at 10 am at 29/2020. Then, the transmission sequence of the resource transfer requests respectively corresponding to the three electronic resources by the server to the third-party server is as follows: resource data 1, resource data 2, and resource data 3.

If the resource transfer application times corresponding to the plurality of resource data are the same, for example, one of the plurality of resource data may be processed randomly, and the database further includes resource data 4 and resource data 5, where the resource transfer application time 4 corresponding to the resource data 4 is 16 minutes at 10 am on 5/29/2020/29 and the resource transfer application time 5 corresponding to the resource data 5 is 16 minutes at 10 am on 5/29/2020/29, and then the resource data 4 may be processed first or the resource data 5 may be processed first.

It can be understood that, because the capacity of the third-party server is limited, if the resource data sent by the client to the server within the preset time period is greater than the preset capacity threshold, according to the method, the server sends the resource transfer request corresponding to the resource data with the preset capacity threshold before the resource transfer application time to the third-party server.

If the illegal user maliciously and frequently applies for resource transfer, the resource data corresponding to other legal users cannot be processed in time.

For example, the illegal user a applies for resource transfer at 10 am 1 am on 28 d of 5 and 28 in 2020 (it is assumed that the resource transfer application time is 1 am 10 am on 28 d of 5 and 28 in 2020, and the following description is omitted), and the client obtains resource data a 1; an illegal user A applies for resource transfer at 10 am 2 am on 28 days of 2020, 5 and 28, and a client side obtains resource data A2; an illegal user A applies for resource transfer at 10 am 3 am on 28 am in 2020, 5 and 28, and a client side obtains resource data A3; an illegal user A applies for resource transfer at 10 am and 4 am on 28 am in 2020, and a client obtains resource data A4; … …, respectively; the illegal user A applies for resource transfer at 55 am 10 am on 28 am in 2020, the client obtains resource data A55, the legal user B applies for resource transfer at 56 am on 28 am in 5 am in 2020, and the client obtains resource data B1; the legal user C applies for resource transfer at 57 am on 28 am of 5/2020, and the client obtains the resource data C1.

Assuming that the preset time period is 2 hours and the preset capacity threshold is 55, in two hours, 10 am 0 pm to 12 am 0 am, on 28 days of 5 and 28 months in 2020, the server 13 only processes 55 resource data of the illegal user a, but does not process resource data of the legal user B and the legal user C. For example, the resource data of the legitimate user B and the legitimate user C may not be processed until the next predetermined time period (for example, 0 pm 12 to 0 pm 2 of 28 pm 5/2020).

For example, the preset time period may be Q hours, W days, and M months, where Q, W, and M are any positive numbers greater than or equal to 0, and the duration of the preset time period is not limited in the embodiments of the present disclosure.

In summary, how to avoid that an illegal user maliciously occupies the resource of the server, so that the server preferentially processes the resource data corresponding to the legal user is a difficult problem that needs to be solved urgently by technical personnel in the field.

Based on this, the embodiment of the present disclosure provides an electronic resource transmission method, where after resource data is obtained, the resource data is stored, and first resource data with a maximum priority is obtained from at least one stored resource data, where the priority corresponding to the resource data is negatively related to the number of times of transferring electronic resources corresponding to a first account included in the resource data, and the first account is a transfer-out account of the electronic resources. That is, the greater the number of times of transferring the electronic resource corresponding to the first account is, the smaller the priority corresponding to the resource data is, and the smaller the number of times of transferring the electronic resource corresponding to the first account is, the greater the priority corresponding to the resource data is. According to the technical scheme, the resource transfer request of the resource data corresponding to the account with the small electronic resource transfer frequency is preferentially sent to the third-party server, so that the third-party server preferentially processes the resource transfer request of the resource data corresponding to the account with the small electronic resource transfer frequency, and the condition that the resource transfer request of a legal user cannot be processed timely due to the fact that an illegal account maliciously submits the electronic resource transfer application for multiple times is avoided.

Further, by using the electronic resource transmission method of the embodiment of the disclosure, if a legal user applies for resource transfer for multiple times, the resource data corresponding to the legal user may be delayed, that is, on the premise that none of the plurality of resource data is processed, the resource data corresponding to the first account with a small number of times of transferring the electronic resource is preferentially processed, so as to avoid the situation that the resource data corresponding to the first account with a small number of times of transferring the electronic resource is not processed in time under the condition that the capacity of the third-party server is limited, because the resource data corresponding to the first account with a small number of times of transferring the electronic resource is preferentially processed, the resource data corresponding to the first account with a large number of times of transferring the electronic resource may not be processed in time, for the user corresponding to the first account, the presentation speed is slow, and to a certain extent, the number of times of applying for resource transfer by the user may be reduced, for example, a user may merge multiple resource transfer applications into one resource transfer application, thereby reducing the data amount of the third-party server for processing data, and also reducing the processing amount of the resource data in the embodiment of the present disclosure.

The following presents a simplified description of an implementation environment related to embodiments of the present disclosure.

FIG. 1 is an architectural diagram illustrating one implementation environment in accordance with an exemplary embodiment. As shown in fig. 1, the following electronic resource transmission method may be applied to the implementation environment, which includes: at least one electronic device 11, a third party server 12, a server 13, and a database 14.

Wherein the electronic device 11 and the server 13 can establish a connection and communicate through a wireless network. The server 13 and the third party server 12 may establish a connection and communicate through a wireless network.

The electronic device 11 may be any electronic product capable of interacting with a user through one or more ways, such as a keyboard, a touch PAD, a touch screen, a remote controller, a voice interaction device, or a handwriting device, for example, a mobile phone, a notebook computer, a tablet computer, a palm computer, a personal computer, a wearable device, a smart television, a PAD, and the like.

It should be noted that fig. 1 is only an example, and the types of the electronic devices may be various, and are not limited to the notebook computer, the smart phone, the PAD, and the personal computer in fig. 1.

Illustratively, an application may be installed in the electronic device 11, and the application may be an instant messaging application, a short video application, or a news application.

Illustratively, the electronic device 11 may have a browser installed therein, and may log in a web client based on the browser, where the web client may be an instant messaging web client, or a short video web client, or a news web client.

The user may submit the electronic resource transfer application through a corresponding user interface of the client (i.e., the application client or the web page version client) presented by the electronic device 11. For example, the user interface of the PAD display shown in fig. 1.

As shown in fig. 1, a user may set at least part of resource data on a user interface, and the resource data may include: the method comprises the steps of the number of electronic resources to be transferred, a first account and a second account, wherein the first account is a transfer-out account of the electronic resources, and the second account is a transfer-in account of the electronic resources.

For example, the resource transfer application may be a withdrawal application; the electronic resource may be electronic money, e.g., electronic cash, electronic gold money, or the like.

For example, the user may not set the first account on the user interface, and when the user sets the resource data based on the user interface, the default first account is the account logged in by the client on the PAD.

It should be noted that fig. 1 is only an example, the resource data that the user can set on the user interface is not limited to the number of electronic resources to be transferred and the second account, and the resource data that the user can set on the user interface may be determined based on actual situations, for example, the resource data that the user can set may further include: one or more of a resource transfer channel and a resource transfer mode.

For example, the resource transfer channel represents a type of a third-party server that processes a resource transfer request corresponding to the resource data, for example, if the resource transfer channel is a pay channel, the type of the third-party server is a type of a server that belongs to a pay bank; if the resource transfer channel is a WeChat channel, the type of the third-party server is the type of the server belonging to WeChat; if the resource transfer channel is a Chinese bank channel, the type of the third-party server is the type of the server belonging to the Chinese bank; if the resource transfer channel is a channel of a China construction bank, the type of the third-party server is the type of the server belonging to the China construction bank.

Illustratively, the second account corresponds to the resource transfer channel, for example, if the second account is an account of a payment treasure, the resource transfer channel is a payment treasure channel; if the second account is the account of the WeChat, the resource transfer channel is a WeChat channel; if the second account is an account of a Chinese bank, the resource transfer channel is a Chinese bank channel; if the second account is an account of a China construction bank, the resource transfer channel is a channel of the China construction bank.

Illustratively, the resource transfer mode refers to a mode of agreeing the electronic resource account time, for example, a quick account (account is expected within two hours) or a normal account (account is expected after 4 days), or an account-arriving mode provided by the embodiment of the present disclosure, and the like.

Illustratively, the server 13 is configured to obtain resource data based on a client in the electronic device 11, store the resource data, obtain first resource data with a maximum priority from at least one stored resource data, and send a resource transfer request corresponding to the first resource data to a third-party server. The priority corresponding to one resource data is inversely related to the number of times of transferring the electronic resource corresponding to the first account included in the resource data.

For one resource data, the negative correlation means that the smaller the number of times of transferring the electronic resource corresponding to the first account included in the resource data is, the greater the priority of the resource data is; the greater the number of times of transferring the electronic resource corresponding to the first account included in the resource data is, the smaller the priority of the resource data is.

For example, if the capacity of the third-party server is limited, the number of resource transfer requests that the client can send to the third-party server within the preset time period is smaller than the preset capacity threshold. If the number of the resource data sent to the server 13 by one or more clients in the preset time period is greater than the preset capacity threshold, the server 13 cannot process all the resource data in time, and only the resource data with the preset capacity threshold can be processed, that is, the resource transfer request corresponding to the resource data with the preset capacity threshold is sent to the third-party server 12.

For example, since the server 13 cannot process a plurality of resource data in time, the server 13 may store the resource data in the database 14, so that the resource data is temporarily stored for the server 13 to process subsequently.

As shown in fig. 1, the database 14 stores resource data such as resource data 1 and resource data 2, and it should be noted that the database 14 shown in fig. 1 only shows part of the resource data, and fig. 1 does not limit the number of the resource data stored in the database 14.

Illustratively, the database 14 may be located within the server 13, or the database 14 may be separate from the server 13.

Illustratively, the third party server 12 is configured to transfer a corresponding number of electronic resources to the second account upon receiving the resource transfer request.

The server 13 may be one server, a server cluster composed of a plurality of servers, or a cloud computing server center. The server 13 may include a processor, memory, and a network interface, among others.

The third-party server 12 may be a server, a server cluster composed of a plurality of servers, or a cloud computing server center. The third party server 12 may include a processor, memory, and network interface, among others.

It will be understood by those skilled in the art that the foregoing electronic devices and servers are merely exemplary and that other existing or future electronic devices or servers may be suitable for use with the present disclosure and are intended to be included within the scope of the present disclosure and are hereby incorporated by reference.

The technical scheme provided by the disclosure is described below with reference to the accompanying drawings.

Fig. 2 is a flowchart illustrating an electronic resource transmission method according to an exemplary embodiment, which may be used in the server shown in fig. 1, as shown in fig. 2, and includes the following steps S21 to S14.

In step S21, resource data is acquired.

The resource data comprise the number of the electronic resources to be transferred, a first account and a second account, wherein the first account is a transfer-out account of the electronic resources, and the second account is a transfer-in account of the electronic resources.

In step S22, the resource data is stored.

In step S23, the first resource data with the highest priority is obtained from at least one of the stored resource data.

The priority corresponding to one of the resource data is inversely related to the number of times the electronic resource is transferred corresponding to the first account included in the resource data.

In step S24, a resource transfer request corresponding to the first resource data is sent to a third-party server.

The resource transfer request is to instruct the third-party server to transfer the number of the electronic resources from the first account to the second account.

The following describes the electronic resource, the first account, and the second account by way of example.

The electronic resource may be, for example, electronic money, such as electronic cash or electronic gold coin, and the like, and if the electronic resource is electronic cash, the electronic resource also includes, for example, a type of electronic cash.

For example, the electronic cash may be of any national currency such as RMB, USD, Euro, etc.

For example, the first account may be an account that logs into a client in the electronic device.

Illustratively, the second account refers to a posting account for the electronic resource transferred from the first account.

Taking the first account logged in by the client in the electronic device as zhang san as an example, based on the PAD shown in fig. 1, zhang san is the first account, 123456 is the second account, and the number of the electronic resources to be transferred is 30 yuan.

The relationship between the priority and the number of times the electronic resource is transferred will be described below.

For example, the number of times of transferring the electronic resource corresponding to one first account may be the number of times of transferring the electronic resource within a preset time period, and when a next preset time period arrives, the number of times of transferring the electronic resource is recorded from 0.

For example, assuming that the preset time period is 2 hours, for the first account a, the number of times of transferring the electronic resource is 2 when the transfer of the electronic resource is requested twice from 10 o 'clock 0 to 12 o' clock 0 on 29 days 5 and 29 months in 2020, and the initial value of the number of times of transferring the electronic resource is 0 when the transfer of the electronic resource comes from 12 o 'clock 0 to 14 o' clock 0 on 29 days 12 and 29 months in 5 and 29 months in 2020; if 12 o ' clock 0 to 14 o ' clock 0 are counted on 29 o ' clock in 5/29/2020 in the preset time period, the number of times of transferring the electronic resource becomes 1 after the first account a first requests the transfer of the electronic resource.

Therefore, the situation that the resource data corresponding to the legal user cannot be processed in time due to the fact that the illegal user concentrates on resource transfer application for many times within a period of time can be avoided.

For example, the number of times of transferring the electronic resource corresponding to one first account may be an accumulated sum of the number of times of transferring the electronic resource within a plurality of preset time periods.

For example, assuming that the preset time period is 2 hours, for the first account a, the number of times of transferring the electronic resource is 2 when the transfer of the electronic resource is requested twice at 10 o 'clock 0 to 12 o' clock 0 on 29 days 5 and 29 months in 2020, and the initial value of the number of times of transferring the electronic resource is 2 when the transfer of the electronic resource comes at 12 o 'clock 0 to 14 o' clock 0 on 29 days 12 and 29 months in 5 and 2020; if 12 o ' clock 0 to 14 o ' clock 0 are counted on 29 o ' clock in 5/29/2020 in the preset time period, the number of times of transferring the electronic resource is changed to 3 after the first account a first requests the transfer of the electronic resource.

For a first account, the priority of the resource data corresponding to the resource transfer application of the first account is in negative correlation with the number of times of transferring the electronic resource corresponding to the first account, which means that the smaller the number of times of transferring the electronic resource corresponding to the first account is, the higher the priority of the resource data corresponding to the resource transfer application of the first account is, and the larger the number of times of transferring the electronic resource corresponding to the first account is, the lower the priority of the resource data corresponding to the resource transfer application of the first account is.

For example, the first resource data obtained from at least one stored resource data is the first resource data with the highest priority in the resource data, which means that the first resource data is the resource data with the smallest number of times of transferring the electronic resource corresponding to the first account included in the resource data.

Illustratively, the priority is a predetermined operation on the number of times the electronic resource is transferred.

Exemplary, the predetermined operation includes, but is not limited to: the number of times of transferring the electronic resource is inverted (in the case where the number of times of transferring the electronic resource is not 0), or a logarithmic operation is performed on the number of times of transferring the electronic resource, or the like.

The following describes the relationship between resource data and a resource transfer request.

Illustratively, the resource data is a resource transfer request. For example, after the user applies for the electronic resource transfer at the client, the client may generate a resource transfer request and send the resource transfer request to the server 13.

Illustratively, a resource transfer request corresponding to a resource data is generated based on the resource data. For example, after the user applies for resource transfer at the client, the client may obtain resource data and send the resource data to the server 13, and the server 13 may generate a resource transfer request based on the resource data.

Illustratively, one resource data may include, in addition to the first account, the second account, and the number of electronic resources to be transferred: and the resource transfer channel corresponding to one resource data represents the type of the third-party server for processing the resource transfer request corresponding to the resource data.

The description of the types of the resource transfer channel and the third-party server may be referred to as "description of the types of the resource transfer channel and the third-party server" described with reference to fig. 1, and will not be described herein again.

Illustratively, the server 13 has different network interfaces for data interaction with third-party servers corresponding to different resource transfer channels; that is, the network interfaces of the resource transfer requests sent by the server 13 according to different resource transfer channels are different. Optionally, the resource transfer request carries a number of the network interface.

Illustratively, when the resource transfer request is sent to the corresponding third-party server, the method specifically includes: and sending the resource transfer request to a corresponding third-party server through the network interface corresponding to the network interface number carried by the resource transfer request.

For example, if the client only corresponds to one resource transfer channel, the resource data may not include the resource transfer channel. For example, based on that the client is capable of only transferring the electronic resource between the client and the payment apparatus, the network interface of the server 13 for transmitting the resource transfer request is connected to the third-party server corresponding to the payment apparatus, and after the server 13 generates the resource transfer request, the server defaults to send the resource transfer request to the third-party server corresponding to the payment apparatus.

After step S24, the method further includes: deleting the first resource data. For example, the embodiment of the present disclosure performs steps S21 to S24 in a loop. Since the first resource data has been deleted after the step S24, the first resource data obtained by performing the steps S21 to S24 again is different from the first resource data obtained by performing the steps S21 to S24 last time.

According to the electronic resource transmission method provided by the embodiment of the disclosure, after the resource data is obtained, the resource data is stored, and the first resource data with the maximum priority is obtained from at least one stored resource data, the priority corresponding to the resource data is negatively related to the number of times of transferring the electronic resource corresponding to the first account included in the resource data, and the first account is a transfer-out account of the electronic resource. That is, the greater the number of times of transferring the electronic resource corresponding to the first account is, the smaller the priority corresponding to the resource data is, and the smaller the number of times of transferring the electronic resource corresponding to the first account is, the greater the priority corresponding to the resource data is. According to the technical scheme, the resource transfer request of the resource data corresponding to the account with the small electronic resource transfer frequency is preferentially sent to the third-party server, so that the third-party server preferentially processes the resource transfer request of the resource data corresponding to the account with the small electronic resource transfer frequency, and the condition that the resource transfer request of a legal user cannot be processed timely due to the fact that an illegal account maliciously submits the electronic resource transfer application for multiple times is avoided.

Illustratively, there are various implementations of the step S23, and the embodiment of the disclosure provides, but is not limited to, the following four implementations.

The implementation of the first step S23 may include the following steps a11 to a 12.

In step A11, the highest priority target element is obtained from the priority queue.

The priority queue comprises at least one element and a weight value corresponding to the at least one element respectively, wherein one element comprises a transfer resource identifier corresponding to the resource data, or one element comprises a transfer resource identifier corresponding to the resource data and the first account included in the resource data; the transfer resource identifications corresponding to different resource data are different; the smaller the weight value corresponding to one element is, the greater the priority corresponding to the element is.

In step a12, the first resource data corresponding to the target element is obtained from at least one of the resource data stored in the database.

The priority queue is explained below.

A priority queue (priority queue) is a collection of 0 or more elements, each element having a priority, and operations performed on the priority queue include find element operations, insert element operations, delete element operations. In the embodiment of the present disclosure, the search element operation for the priority queue is used to search the element with the highest priority in the priority queue. The delete element operation for the priority queue is used to delete the searched element with the highest priority.

For example, if the priority queue stores multiple elements with the same priority, the elements may be processed in a first-in first-out order or in any order.

Illustratively, in the embodiment of the present disclosure, one element in the priority queue is a unique identifier for embodying one resource data.

Illustratively, one element in the priority queue is a transfer resource identifier corresponding to one resource data, or one element is a transfer resource identifier corresponding to one resource data and a first account, or one element includes one resource data and a transfer resource identifier corresponding to the resource data.

The following explains the transfer resource identification.

Illustratively, transfer resource identifications corresponding to resource data of different electronic resource transfer applications proposed by the same first account are different. An exemplary resource transfer identification may be a cash register number.

It can be understood that the same first account may perform multiple electronic resource transfer applications, that is, the same user may correspond to multiple resource data.

For example, Zhang three users apply for resource transfer at 10 am on 28 am of 5/month 2020, assuming that the resource data includes: the number of electronic resources to be transferred is 100, the second account is 123456, and the resource transfer identity may be 20720052510007714.

It should be noted that the resource transfer identifier is only an example, and the embodiment of the present disclosure does not limit the number of bits of the resource transfer identifier, nor does it limit the expression form of the resource transfer identifier. For example. The resource transfer identification may include at least one of a number, a letter, a symbol, and a special character.

The user Zhang III applies for resource transfer at 5 pm on 28 pm of 5 month in 2020, and it is assumed that the resource data includes: the number of electronic resources to be transferred is 50 yuan, the second account is 123457, and the resource transfer identity may be 20720052510008860.

In summary, the resource transfer identifiers corresponding to different resource data are different, but the first accounts included in the plurality of resource data corresponding to the same first account are the same, that is, the first account cannot uniquely identify one resource data.

In an alternative implementation, steps a11 through a13 may be applied in two application scenarios.

First application scenario: if the resource data comprises resource transfer channels, different resource transfer channels are aligned to the same priority queue. That is, one priority queue includes elements corresponding to resource data having different resource transfer channels, respectively.

In the embodiment of the present disclosure, since the elements corresponding to the resource data having different resource transfer channels are located in the same priority queue, that is, the elements corresponding to all the resource data in the embodiment of the present disclosure are stored in one priority queue, that is, each time step S23 is executed, one first resource data can be obtained. The above-described manner of processing one resource data at a time may result in the following: for each resource transfer channel, even if the number of resource data that needs to be processed by the corresponding third-party server within the preset time period is greater than or equal to the preset capacity threshold corresponding to the third-party server, the number of resource transfer requests sent to the third-party server within the preset time period may be less than the preset capacity threshold, resulting in a situation where resources of the third-party server are not fully utilized.

For example, the third-party server corresponding to the payment channel is a third-party server a; the third-party server corresponding to the WeChat channel is a third-party server B; the third-party server corresponding to the Chinese bank channel is a third-party server C; and the third-party server corresponding to the Chinese construction bank channel is a third-party server D.

Assuming that the preset time periods are all 2 hours, the preset capacity threshold corresponding to the third-party server A is 60, and the quantity of the resource data of the resource transfer channel which is a pay channel is 60; the preset capacity threshold corresponding to the third-party server B is 70, and the quantity of the resource data of which the resource transfer channel is a WeChat channel is 70; the preset capacity threshold corresponding to the third-party server C is 90, and the quantity of the resource data of the resource transfer channel which is a Chinese bank channel is 90; the preset capacity threshold corresponding to the third-party server D is 100, and the quantity of the resource data of the resource transfer channel which is a China construction bank channel is 100. In total, 320 resource data.

It is assumed that one priority queue includes the elements corresponding to the 320 resource data and the priority. One highest priority target element may be obtained from the priority queue at a time.

Since a certain time is required to obtain the target element with the highest priority from the priority queue each time, it is assumed that 200 elements can be obtained from the priority queue within 2 hours, and it is assumed that the priorities corresponding to 320 resource data have the following levels:

the priority of 20 resource data of which the resource transfer channel is a WeChat channel is less than that of 20 resource data of which the resource transfer channel is a China construction bank channel is less than that of 40 resource data of which the resource transfer channel is a China bank channel is less than that of 60 resource data of which the resource transfer channel is a Paibao channel is less than that of 50 resource data of which the resource transfer channel is a WeChat channel is less than that of 50 resource data of which the resource transfer channel is a China bank channel is less than that of 80 resource data of which the resource transfer channel is a China construction bank channel.

Then, 80 resource data of which the resource transfer channel is a chinese construction bank channel, 50 resource data of which the resource transfer channel is a chinese bank channel, 40 resource data of which the resource transfer channel is a WeChat channel, 30 resource data of which the resource transfer channel is a Payment treasure channel, 40 resource data of which the resource transfer channel is a chinese bank channel, and 20 resource data of which the resource transfer channel is a chinese construction bank channel can be processed within a preset time period.

In summary, it can be seen that the number (0) of resource transfer requests sent by the server to the third-party server a in the preset time period is smaller than the preset capacity threshold 60; the number (70) of resource transfer requests sent by the server to the third-party server B within the preset time period is equal to the preset capacity threshold value 70; the number (50) of resource transfer requests sent by the server to the internal third-party server C in a preset time period is smaller than a preset capacity threshold 90; the number (80) of resource transfer requests sent by the server to the third-party server D within the preset time period is smaller than a preset capacity threshold value 100; obviously, the capacity of other third-party servers except for the third-party server corresponding to the WeChat channel is not fully utilized.

For example, the preset capacity thresholds of the third-party servers corresponding to different resource transfer channels may be different or the same, and this is not limited in the embodiment of the present disclosure.

For example, the preset time periods corresponding to different resource transfer channels may be the same or different, and this is not limited in this disclosure.

In the second application scenario, if the resource data includes resource transfer channels, priority queues corresponding to different resource transfer channels are different, that is, a priority queue corresponding to a resource transfer channel only includes an element corresponding to the resource data having the resource transfer channel. That is, each time step S23 is executed, one first resource data is available for each priority queue, and the first resource data in different priority queues is different. That is, the first resource data of the number of priority queues can be obtained each time step S23 is executed.

For the priority queue corresponding to each resource transfer channel, steps a11 to a12 may be performed.

Because one resource transfer channel corresponds to one priority queue, when the target element with the maximum priority is selected from the priority queue, only the priority of the resource data belonging to the same resource transfer channel is considered, and the priority of the resource data of different resource transfer channels does not need to be considered.

Still taking the above as an example, by adopting the manner that one resource transfer channel corresponds to one priority queue provided by the embodiment of the present disclosure, since the target element with the highest priority is obtained from the priority queue corresponding to the pay channel; acquiring a target element with the highest priority from a priority queue corresponding to the WeChat channel; obtaining a target element with the highest priority from a priority queue corresponding to a Chinese bank channel; obtaining a target element with the highest priority from a priority queue corresponding to a channel of a Chinese construction bank; the steps are not affected mutually and have no precedence order. Then a maximum of 200 elements can be obtained from each priority queue in 2 hours. So, taking the above as an example, the following effects can be produced by adopting the method:

the number of resource transfer requests sent by the server 13 to the third-party server a within a preset time period is 60 (equal to a preset capacity threshold 60); the number 70 of resource transfer requests sent by the server 13 to the third-party server B within a preset time period (equal to the preset capacity threshold 70); the number of resource transfer requests sent by the server 13 to the third-party server C within a preset time period is 90 (equal to a preset capacity threshold 90); the number of resource transfer requests sent by the server 13 to the third-party server D within a preset time period is 100 (equal to a preset capacity threshold 100); obviously, the capacity of the third-party server is fully utilized, and the resource of the third-party server is not wasted.

In an implementation manner of the second step S23, the step S23 may include: and obtaining the target element with the highest priority from the priority queue. One element includes: resource data and a resource transfer identification.

One element in the priority queue already contains all the contents of the resource data, so that the first resource data is obtained by obtaining the target element.

In the second implementation manner, the method may also be applied to the above two application scenarios, and in the first application scenario, each time step S23 is executed, one first resource data may be obtained; in a second application scenario, the above steps may be performed for the priority queue corresponding to each resource transfer channel.

In an implementation manner of the third step S23, the step S23 may include: and comparing the priorities corresponding to at least one resource data stored in the database respectively to obtain a first resource data with the maximum priority.

In the third implementation manner, the resource data of different resource transfer channels are not distinguished, and one first resource data can be obtained each time step S23 is executed.

In an implementation manner of the fourth step S23, the step S23 may include the following steps: for each resource transfer channel, the following operations may be performed: and obtaining the first resource data with the maximum priority from at least one resource data with the resource transfer channels stored in the database so as to obtain the first resource data corresponding to each resource transfer channel.

In a fourth implementation, different resource transfer channels are distinguished.

Illustratively, the representation of one resource data may be any one of a hash table and an array.

In an alternative implementation manner, there are various implementation manners of step S22, and the embodiment of the present disclosure provides, but is not limited to, the following four.

The first step S22 includes the following steps B11 to B13 in implementation.

In step B11, the resource data is stored to a database.

In step B12, a weight value corresponding to the resource data is obtained based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data.

In step B13, the element corresponding to the resource data and the weight value corresponding to the resource data are inserted into the priority queue.

The first implementation of step S22 corresponds to the first implementation of step S23.

In an alternative implementation, if the resource data includes resource transfer channels, and different resource transfer channels correspond to the same priority queue, the process of performing the insert element operation on the priority queue is as shown in steps B11 to B13.

In an alternative implementation, if the resource data includes resource transfer channels, and different resource transfer channels correspond to different priority queues, the process of performing the insert element operation for the priority queue corresponding to each resource transfer channel includes step B11, step B12, step C11, and step C12.

In step B11, the resource data is stored to a database.

In step B12, a weight value corresponding to the resource data is obtained based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data.

In step C11, a target resource transfer channel corresponding to the resource data is obtained, where the target resource transfer channel represents a type of a third-party server that processes a resource transfer request corresponding to the resource data.

In step C12, inserting the element corresponding to the resource data and the weight value corresponding to the resource data into the priority queue corresponding to the target resource transfer channel; different resource transfer channels correspond to different priority queues.

The second step S22 includes the following steps D11 to D12 in a real-time process.

In step D11, a weight value corresponding to the resource data is obtained based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data.

In step D12, the resource data, the resource transfer identifier corresponding to the resource data, and the weight value corresponding to the resource data are inserted into the priority queue.

The second implementation of step S22 corresponds to the second implementation of step S23.

In an alternative implementation, if the resource data includes resource transfer channels, and different resource transfer channels correspond to the same priority queue, the process of performing the insert element operation on the priority queue is as shown in steps D11 to D12.

In an alternative implementation manner, if the resource data includes resource transfer channels, and different resource transfer channels correspond to different priority queues, the process of performing the insert element operation for the priority queue corresponding to each resource transfer channel includes steps D11 and D12. At this time, step D12 is to insert the resource data, the resource transfer identifier corresponding to the resource data, and the weight value corresponding to the resource data into the priority queue corresponding to the resource transfer channel included in the resource data.

The third step S22 includes the following steps E11 to E12 in a real-time process.

In step E11, a weight value corresponding to the resource data is obtained based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data.

In step E12, the resource data, the resource transfer identifier corresponding to the resource data, and the weight value corresponding to the resource data are inserted into the database.

The implementation of step S22 corresponds to the third or fourth implementation of step S23.

Fig. 3 is a flowchart illustrating another electronic resource transmission method according to an exemplary embodiment, as shown in fig. 3, the electronic resource transmission method may be used in the server shown in fig. 1, and if different resource transfer channels correspond to different priority queues, the method includes the following steps S21, S22, S31 to S34 for each resource transfer channel.

For the description of step S21 and step S22, reference may be made to fig. 2, which is not repeated here.

In step S31, it is determined whether the target value is greater than a preset capacity threshold corresponding to the resource transfer channel, if the target value is less than the preset capacity threshold, step S32 is performed, and if the target value is greater than or equal to the preset capacity threshold, step S36 is performed.

The target value is the number of resource transfer requests which are sent to the third-party server within a preset time period; the preset capacity threshold refers to the maximum number of resource transfer requests that can be sent to the third-party server within the preset time period.

In summary, for the third-party server corresponding to each resource transfer channel, if the number of the resource transfer requests sent in the preset time period does not reach the preset capacity threshold corresponding to the third-party server, it indicates that the third-party server can continue to process the resource transfer requests, so step S32 may be executed. If the number of the resource transfer requests sent within the preset time period reaches or exceeds the preset capacity threshold corresponding to the third-party server, it is indicated that the third-party server cannot process subsequent resource transfer requests.

In step S32, the target element with the highest priority is obtained from the priority queue corresponding to the resource transfer channel.

In step S33, first resource data including the target element is obtained from at least one resource data stored in the database.

In step S34, a resource transfer request corresponding to the first resource data is sent to a third-party server.

Illustratively, after the step S34 is executed, the method may further include a step S35 of deleting the target element from the priority queue.

For example, after obtaining a target element with the highest priority from the priority queue, a resource transfer request is obtained based on the first resource data corresponding to the target element, and the resource transfer request is sent to a corresponding third-party server, and then the target element in the priority queue may be deleted.

For example, after obtaining a target element with the highest priority from the priority queue, obtaining a resource transfer request based on first resource data corresponding to the target element, sending the resource transfer request to a corresponding third-party server, and after receiving feedback information including that the resource transfer request is successfully processed, which is fed back by the third server, deleting the target element in the priority queue.

Illustratively, in step S36, the process is suspended, for example, the target element with the highest priority is suspended from the priority queue corresponding to the resource transfer channel.

For example, in step S36, if the arrival of the next preset time period is detected, the process returns to step S31. This branch is shown in fig. 3, the other two optional branches not being shown.

For example, in step S36, the target element with the highest priority may be continuously obtained from the priority queue corresponding to the resource transfer channel, but after step S35, the target element is not deleted, so that after the next preset time period comes, the target element may also be obtained from the priority queue.

In an optional implementation manner, there are multiple methods for obtaining the priority corresponding to one resource data, and the embodiments of the present disclosure provide, but are not limited to, the following two methods.

The first implementation mode comprises the following steps: and calculating to obtain the priority corresponding to the resource data according to the times of transferring the electronic resources corresponding to the first account contained in the resource data.

Illustratively, if priority is given based only on the number of times the electronic resource is transferred, the following may occur: as time goes on, each user continuously makes an electronic resource transfer application, the client continuously obtains new resource data, and if the number of times of transferring the electronic resource corresponding to the first account a is large, the corresponding priority may be low, for example, the priority may be lower than the priority corresponding to the newly obtained resource data, so that the resource data corresponding to the first account a may not be processed.

For example, the first account a applies for the transfer of electronic resources 10 minutes at 18 am on 5/18 th of 2020, and the number of times of transferring electronic resources corresponding to the first account a is 100 times; the first account B carries out electronic resource transfer application at 10 am and 30 am of 18 th of a month in 2020, and the number of times of transferring electronic resources corresponding to the first account B is 2; the first account C applies for the transfer of the electronic resource at 10 am and 40 am on day 18 of month 5 in 2020, and the number of times of transferring the electronic resource corresponding to the first account C is 20.

After the server processes the resource data corresponding to the first account B, the resource data corresponding to the first account C is processed, and as time goes on, if new resource data is obtained again, and if the number of times of transferring electronic resources corresponding to the first account included in the obtained new resource data is less than 100 times, the new resource data is processed first, which may cause a situation that the resource data corresponding to the first account a cannot be processed.

In order to solve the above problem, the embodiments of the present disclosure provide a second implementation manner.

The second implementation mode comprises the following steps: and aiming at each resource data, acquiring the priority corresponding to the resource data based on the times of transferring the electronic resources corresponding to the first account and the resource transfer application time contained in the resource data.

For example, the number of times of transferring the electronic resource and the resource transfer application time may be subjected to a preset operation to obtain the priority.

The preset operations include, but are not limited to: at least one of multiplication, division, logarithm, reciprocal, and the like.

Taking a preset operation as an example of multiplication, determining, for each resource data, a product of the number of times of transferring the electronic resource corresponding to the resource data and the resource transfer application time of the resource data as a weighted value of the resource data.

Illustratively, the priority corresponding to the resource data is positively correlated with the resource transfer application time corresponding to the resource data, that is, the earlier the resource transfer application time is, the higher the priority is, the later the resource transfer application time is, the lower the priority is.

The third implementation mode comprises the following steps: and aiming at each resource data, acquiring the priority corresponding to the resource data based on the times of transferring the electronic resources corresponding to the first account and the resource transfer channel contained in the resource data.

It can be understood that, some resource transfer channels have a larger preset capacity threshold, and some resource transfer channels have a smaller preset capacity threshold, and in order to enable a user to set a resource transfer channel to a resource transfer channel with a larger preset capacity threshold, it is optional to set a channel weight for the resource transfer channel. The larger the preset capacity threshold value is, the larger the weight of the resource transfer channel is, and the smaller the preset capacity threshold value is, the smaller the weight of the resource transfer channel is.

Illustratively, the priority corresponding to the resource data is positively correlated with the resource transfer channel weight, that is, the higher the resource transfer channel weight is, the higher the priority is, the lower the resource transfer channel weight is, the lower the priority is.

If the resource data of different resource transfer channels correspond to a priority queue, then, for the resource data of different resource transfer channels with the same number of times of transferring electronic resources and the same resource transfer application time, the resource data corresponding to the resource transfer channel with a larger preset capacity threshold (for example, a pay treasure) is preferentially processed, so that the user feels that the resource transfer channel with the larger preset capacity threshold (for example, the pay treasure) is presented to the account faster than the resource transfer channel with the larger preset capacity threshold (for example, the pay treasure), so that the user is more inclined to present the resource transfer channel with the larger preset capacity threshold (for example, the pay treasure).

The fourth implementation mode comprises the following steps: and aiming at each resource data, acquiring the priority corresponding to the resource data based on the times of transferring the electronic resources corresponding to the first account and the resource attribute information contained in the resource data.

Illustratively, the resource attribute information includes: the resource transfer application time, the resource transfer channel and the user grade corresponding to the first account.

For example, the user level corresponding to the first account is positively correlated with the priority, that is, the higher the user level corresponding to the first account is, the higher the priority is, the lower the user level corresponding to the first account is, the lower the priority is.

Fig. 4 is a block diagram illustrating an electronic resource transfer device in accordance with an exemplary embodiment. Referring to fig. 4, the apparatus includes a first obtaining module 41, a storing module 42, a second obtaining module 43, and a transmitting module 44.

The first obtaining module 41 is configured to obtain resource data, where the resource data includes the number of electronic resources to be transferred, a first account and a second account, the first account is a transfer-out account of the electronic resources, and the second account is a transfer-in account of the electronic resources; the storage module 42 is configured to store the resource data obtained by the first obtaining module; the second obtaining module 43 is configured to obtain the first resource data with the highest priority from at least one of the resource data stored in the storage module; the priority corresponding to one resource data is negatively related to the times of transferring the electronic resource corresponding to the first account contained in the resource data; the sending module 44 is configured to send a resource transfer request corresponding to the first resource data obtained by the second obtaining module to a third-party server, where the resource transfer request is used to instruct the third-party server to transfer the number of the electronic resources from the first account to the second account.

Optionally, the second obtaining module is specifically configured to: a first obtaining unit configured to obtain a target element with a maximum priority from a priority queue; the priority queue comprises at least one element and a weight value corresponding to the at least one element respectively, wherein one element comprises a transfer resource identifier corresponding to the resource data or one element comprises a transfer resource identifier corresponding to the resource data and the first account included in the resource data; the transfer resource identifications corresponding to different resource data are different; the smaller the weight value corresponding to one element is, the larger the priority corresponding to the element is; the second acquisition unit is configured to acquire the first resource data corresponding to the target element acquired by the first acquisition unit from at least one resource data stored in a database.

Optionally, the storage module is specifically configured to: a first storage unit configured to store the resource data obtained by the first obtaining module in the database; the third acquisition unit is configured to acquire a weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data acquired by the first acquisition module; an inserting unit configured to insert the element corresponding to the resource data obtained by the first obtaining module and the weight value corresponding to the resource data obtained by the third obtaining unit into the priority queue.

Optionally, the third obtaining unit is specifically configured to: the first obtaining subunit is configured to obtain the resource attribute information of the resource data obtained by the first obtaining module, where the resource attribute information of the resource data includes one or more of resource transfer application time, resource transfer channels, and user grades corresponding to the first account; the resource transfer channel corresponding to the resource data represents the type of a third-party server for processing the resource transfer request corresponding to the resource data; and the second acquiring subunit is configured to acquire a weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the resource data and the resource attribute information of the resource data acquired by the first acquiring subunit.

Optionally, the resource attribute information of the resource data includes a resource transfer application time, and the second obtaining subunit is specifically configured to: the determining sub-module is configured to determine a product of the number of times of transferring the electronic resource corresponding to the resource data and the resource transfer application time of the resource data obtained by the first obtaining sub-unit as a weight value of the resource data.

Optionally, the insertion unit is specifically configured to: a fourth obtaining unit, configured to obtain a target resource transfer channel corresponding to the resource data, where the target resource transfer channel represents a type of a third-party server that processes a resource transfer request corresponding to the resource data; an inserting subunit, configured to insert the element corresponding to the resource data and the weight value corresponding to the resource data obtained by the third obtaining unit into the priority queue corresponding to the target resource transfer channel obtained by the fourth obtaining unit; different resource transfer channels correspond to different priority queues.

Optionally, the electronic resource transmission apparatus further includes: a determination module configured to determine that the target value is less than a preset capacity threshold; the target value is the number of resource transfer requests which are sent to the third-party server within a preset time period; the preset capacity threshold refers to the maximum number of resource transfer requests that can be sent to the third-party server within the preset time period.

Optionally, the electronic resource transmission apparatus further includes: a deleting module configured to delete the first resource data after the sending module sends the resource transfer request corresponding to the first resource data to the third-party server.

With regard to the apparatus in the above-described embodiment, the specific manner in which each module performs the operation has been described in detail in the embodiment related to the method, and will not be elaborated here.

Fig. 5 is a block diagram illustrating a server 500 according to an example embodiment, and as shown in fig. 5, the server 500 includes, but is not limited to: a processor 501, a memory 502, a network interface 503, an I/O controller 504, and a communication bus 505.

It should be noted that the structure of the server shown in fig. 5 is not limited to the server, and the server may include more or less components than those shown in fig. 5, or some components may be combined, or a different arrangement of components may be used, as will be understood by those skilled in the art.

The following describes each component of the server 500 in detail with reference to fig. 5:

the processor 501 is a control center of the server, connects various parts of the entire server using various interfaces and lines, and performs various functions of the server and processes data by running or executing software programs and/or modules stored in the memory 502 and calling data stored in the memory 502, thereby performing overall monitoring of the server. Processor 501 may include one or more processing units; optionally, the processor 501 may integrate an application processor and a modem processor, wherein the application processor mainly handles operating systems, user interfaces, application programs, and the like, and the modem processor mainly handles wireless communications. It will be appreciated that the modem processor described above may not be integrated into the processor 501.

Processor 501 may be a Central Processing Unit (CPU), or an application Specific Integrated circuit (asic), or one or more Integrated circuits configured to implement embodiments of the present invention, etc.;

the Memory 502 may include Memory, such as Random-Access Memory (RAM) 5021 and Read-Only Memory (ROM) 5022, and may also include a mass storage device 5023, such as at least 1 disk storage. Of course, the server may also include hardware needed for other services.

The memory 502 is used for storing the executable instructions of the processor 501. The processor 501 is configured to perform any of the steps of the electronic resource transmission method embodiments.

A wired or wireless network interface 503 is configured to connect the server 500 to a network.

The processor 501, the memory 502, the network interface 503, and the I/O controller 504 may be connected to each other by a communication bus 505, which may be an ISA (Industry Standard Architecture) bus, a PCI (Peripheral Component Interconnect) bus, an EISA (extended Industry Standard Architecture) bus, or the like. The bus may be divided into an address bus, a data bus, a control bus, etc.

In an exemplary embodiment, the server 500 may be implemented by one or more Application Specific Integrated Circuits (ASICs), Digital Signal Processors (DSPs), Digital Signal Processing Devices (DSPDs), Programmable Logic Devices (PLDs), Field Programmable Gate Arrays (FPGAs), controllers, micro-controllers, microprocessors or other electronic components for performing the above-described electronic resource transmission methods.

In an exemplary embodiment, a storage medium comprising instructions, such as a memory 502 comprising instructions, executable by a processor 501 of a server 500 to perform the above-described method is also provided. Alternatively, the storage medium may be a non-transitory computer readable storage medium, which may be, for example, a ROM, a Random Access Memory (RAM), a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like.

In an exemplary embodiment, a computer program product is also provided, which can be directly loaded into an internal memory of a computer, such as the memory 502, and contains software codes, and the computer program can be loaded into the computer and executed to implement the method of any embodiment of the electronic resource transmission method.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. An electronic resource transmission method, comprising:

acquiring resource data, wherein the resource data comprises the number of electronic resources to be transferred, a first account and a second account, the first account is a transfer-out account of the electronic resources, and the second account is a transfer-in account of the electronic resources;

storing the resource data;

obtaining first resource data with the highest priority from at least one stored resource data; the priority corresponding to one resource data is negatively related to the times of transferring the electronic resource corresponding to the first account contained in the resource data;

and sending a resource transfer request corresponding to the first resource data to a third-party server, wherein the resource transfer request is used for instructing the third-party server to transfer the number of the electronic resources from the first account to the second account.

2. The electronic resource transmission method according to claim 1, wherein the step of obtaining the first resource data with the highest priority from the stored at least one of the resource data comprises:

obtaining a target element with the maximum priority from the priority queue; the priority queue comprises at least one element and a weight value corresponding to the at least one element respectively, wherein one element comprises a transfer resource identifier corresponding to the resource data, or one element comprises a transfer resource identifier corresponding to the resource data and the first account included in the resource data; the transfer resource identifications corresponding to different resource data are different; the smaller the weight value corresponding to one element is, the larger the priority corresponding to the element is;

and obtaining the first resource data corresponding to the target element from at least one resource data stored in a database.

3. The electronic resource transmission method according to claim 2, wherein the step of storing the resource data comprises:

storing the resource data to the database;

acquiring a weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data;

and inserting the element corresponding to the resource data and the weight value corresponding to the resource data into the priority queue.

4. The method according to claim 3, wherein the step of obtaining the weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the first account included in the resource data comprises:

acquiring resource attribute information of the resource data, wherein the resource attribute information of the resource data comprises one or more of resource transfer application time, resource transfer channels and user grades corresponding to the first account; the resource transfer channel corresponding to the resource data represents the type of a third-party server for processing the resource transfer request corresponding to the resource data;

and acquiring a weight value corresponding to the resource data based on the times of transferring the electronic resources corresponding to the resource data and the resource attribute information of the resource data.

5. The method according to claim 4, wherein the resource attribute information of the resource data includes a resource transfer application time, and the step of obtaining the weight value corresponding to the resource data based on the number of times of transferring the electronic resource corresponding to the resource data and the resource attribute information of the resource data includes:

and determining the product of the times of transferring the electronic resources corresponding to the resource data and the resource transfer application time of the resource data as the weighted value of the resource data.

6. The electronic resource transmission method according to any one of claims 3 to 5, wherein the step of inserting the element corresponding to the resource data and the weight value corresponding to the resource data into the priority queue includes:

acquiring a target resource transfer channel corresponding to the resource data, wherein the target resource transfer channel represents the type of a third-party server for processing a resource transfer request corresponding to the resource data;

inserting the elements corresponding to the resource data and the weight values corresponding to the resource data into the priority queues corresponding to the target resource transfer channels; different resource transfer channels correspond to different priority queues.

7. The electronic resource transmission method according to any one of claims 1 to 5, further comprising, after the step of sending the resource transfer request corresponding to the first resource data to a third-party server:

deleting the first resource data.

8. An electronic resource transmission apparatus, comprising:

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is configured to acquire resource data, and the resource data comprises the number of electronic resources to be transferred, a first account and a second account, the first account is a transfer-out account of the electronic resources, and the second account is a transfer-in account of the electronic resources;

a storage module configured to store the resource data obtained by the first obtaining module;

a second obtaining module configured to obtain first resource data with a maximum priority from at least one of the resource data stored by the storage module; the priority corresponding to one resource data is negatively related to the times of transferring the electronic resource corresponding to the first account contained in the resource data;

a sending module configured to send a resource transfer request corresponding to the first resource data obtained by the second obtaining module to a third-party server, where the resource transfer request is used to instruct the third-party server to transfer the number of the electronic resources from the first account to the second account.

9. A server, comprising:

a processor;

a memory for storing the processor-executable instructions;

wherein the processor is configured to execute the instructions to implement the electronic resource transfer method of any one of claims 1 to 7.

10. A storage medium, wherein instructions in the storage medium, when executed by a processor of a server, enable the server to perform the electronic resource transmission method of any one of claims 1 to 7.

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