CN110247808B - Information transmission method, device, equipment and readable storage medium - Google Patents

Abstract

The invention discloses an information sending method, a device, equipment and a readable storage medium, relating to the field of financial institutions, wherein the method comprises the following steps: acquiring to-be-multiplexed theme information from a preset configuration center every preset time period; acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm; and sending the theme information to be subjected to the multiple sending according to the target sending mode so as to enable a preset receiver to receive the theme information to be subjected to the multiple sending. The invention reduces the times of information transmission failure and reduces the business influence caused by server failure.

Description

Information transmission method, device, equipment and readable storage medium

Technical Field

The present invention relates to the technical field of financial technology (Fintech), and in particular, to an information transmission method, apparatus, device, and readable storage medium.

Background

With the continuous development of financial technology (Fintech), especially internet technology finance, more and more technologies are applied in the finance field. In the information transmission process in the financial field, the middleware server often fails, and for the failure problem of the middleware server, currently, a retransmission mechanism is generally adopted to retransmit information, specifically, when the transmission of a message of a sender fails, the sender selects other servers to retransmit the information, so as to ensure that the transmission of the message is not affected, however, if the message of the sender is successfully transmitted to a certain server, the server fails in hardware, which can cause that an information receiver cannot acquire a corresponding message from the server, and transaction or consumption cannot be completed, thereby reducing the experience of a user.

Disclosure of Invention

The invention mainly aims to provide an information sending method, device, equipment and readable storage medium, and aims to solve the technical problem that in the existing information sending process, if a sender message is successfully sent to a server, the server has hardware failure, so that transaction or consumption fails.

To achieve the above object, an embodiment of the present invention provides an information transmission method, including:

acquiring to-be-multiplexed theme information from a preset configuration center every preset time period;

acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm;

and sending the theme information to be subjected to the multiple sending according to the target sending mode so as to enable a preset receiver to receive the theme information to be subjected to the multiple sending.

Optionally, the step of obtaining a preset queue algorithm, and determining the target transmission mode of the to-be-multiplexed subject information according to the queue algorithm includes:

acquiring a target route path of the subject information to be multiplexed from a preset route center, and determining a local server cluster group through which the subject information to be multiplexed passes from a preset server cluster according to the target route path;

And acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm and the local server sub-group.

Optionally, the step of obtaining a preset queue algorithm, and determining the target transmission mode of the to-be-transmitted subject information according to the queue algorithm and the local server sub-group includes:

acquiring all target queues associated with the topic information to be multiplexed, and separating the local queues from all target queues based on the local server set group to obtain a local queue and other queues;

judging whether the local server cluster is the closest server cluster of the topic information to be multiplexed, and judging whether a local server which does not send the topic information to be multiplexed exists in the local server cluster when the local server cluster is the closest server cluster of the topic information to be multiplexed;

when the local server cluster group contains a local server which does not send the topic information to be sent out, selecting a first legal queue from the local queues in a polling mode, and adding the topic information to be sent out to the first legal queue to send out as a target sending mode.

Optionally, after the step of determining whether the local server group has the local server that has not sent the subject information to be sent out, the method further includes:

when all local servers in the local server set group completely send the theme information to be sent out, selecting a second legal queue from the other queues in a polling mode, and adding the theme information to be sent out to the second legal queue to send out the theme information to be sent out as a target sending mode, wherein the server where the second legal queue is located is a server which does not send the theme information to be sent out.

Optionally, after the step of determining whether the local server cluster is the server cluster closest to the address of the subject information to be multiplexed, the method further includes:

when the local server cluster group is not the closest server cluster of the address of the subject information to be multiplexed, selecting a third legal queue from all the target queues in a polling mode, and adding the subject information to be multiplexed into the third legal queue for transmission as a target transmission mode, wherein a server where the second legal queue is located is a server which does not transmit the subject information to be multiplexed.

Optionally, the step of obtaining a preset queue algorithm, and determining the target transmission mode of the to-be-multiplexed subject information according to the queue algorithm further includes:

acquiring the number of times of transmission of the subject information to be transmitted from the preset configuration center;

and when the number of the servers in the preset server cluster is larger than the sending times, selecting the servers with the same number as the sending times from the preset server cluster, and sequentially sending the theme information to be sent to the selected different servers as a target sending mode.

Optionally, the step of sending the subject information to be sent out according to the target sending mode, so that the preset receiver receives the subject information to be sent out includes:

and sending the theme information to be multiplexed according to the target sending mode so as to enable a preset receiver to receive the theme information to be multiplexed, and performing de-duplication processing on the theme information to be multiplexed according to the multiple identifiers of the theme information to be multiplexed.

The present invention also provides an information transmitting apparatus including:

the first acquisition module is used for acquiring the to-be-multiplexed theme information from a preset configuration center every interval preset time period;

The second acquisition module is used for acquiring a preset queue algorithm and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm;

and the sending module is used for sending the theme information to be subjected to the multiple sending according to the target sending mode so as to enable a preset receiver to receive the theme information to be subjected to the multiple sending.

Optionally, the second obtaining module includes:

the first acquisition unit is used for acquiring a target route path of the subject information to be multiplexed from a preset route center, and determining a local server cluster group through which the subject information to be multiplexed passes from a preset server cluster according to the target route path;

the second acquisition unit is used for acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm and the local server sub-group.

Optionally, the second acquisition unit includes:

the first acquisition subunit is used for acquiring all target queues associated with the topic information to be multiplexed, and separating local queues and other queues from all target queues based on the local server cluster group;

the judging subunit is used for judging whether the local server cluster is the address nearest server cluster of the topic information to be multiplexed, and judging whether a local server which does not send the topic information to be multiplexed exists in the local server cluster when the local server cluster group is the address nearest server cluster of the topic information to be multiplexed;

And the second acquisition subunit is used for selecting a first legal queue from the local queues in a polling mode when the local servers which do not send the theme information to be sent exist in the local server cluster group, and adding the theme information to be sent to the first legal queue to send the theme information to be sent to serve as a target sending mode.

Optionally, the second acquisition unit includes:

the first selecting subunit is configured to select a second legal queue from the other queues in a polling manner when all the local servers in the local server cluster group have sent the to-be-multiple topic information, and add the to-be-multiple topic information to the second legal queue for sending as a target sending manner, where the server where the second legal queue is located is a server that has not sent the to-be-multiple topic information.

Optionally, the second acquisition unit includes:

and the second selecting subunit is configured to select a third legal queue from the all target queues in a polling manner when the local server cluster group is not the server cluster with the nearest address of the to-be-multiplexed subject information, and add the to-be-multiplexed subject information to the third legal queue for transmission as a target transmission manner, where a server where the second legal queue is located is a server that has not transmitted the to-be-multiplexed subject information.

Optionally, the second acquisition module further includes:

a third obtaining unit, configured to obtain the number of times of transmission of the subject information to be transmitted from the preset configuration center;

and a fourth obtaining unit, configured to obtain the number of servers in a preset server cluster, and when the number of servers in the preset server cluster is greater than the number of sending times, select, from the preset server cluster, a server with the same number as the number of sending times, and sequentially send the to-be-sent subject information to the selected different servers as a target sending mode.

Optionally, the sending module includes:

and the sending unit is used for sending the theme information to be multiplexed according to the target sending mode so as to enable a preset receiver to receive the theme information to be multiplexed, and performing de-duplication processing on the theme information to be multiplexed according to the multiple identifiers of the theme information to be multiplexed.

The present invention also provides a readable storage medium having stored thereon an information transmission program which, when executed by a processor, implements the steps of the information transmission method described above.

The method comprises the steps of obtaining to-be-multiplexed theme information from a preset configuration center every preset time period; acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm; and sending the theme information to be subjected to the multiple sending according to the target sending mode so as to enable a preset receiver to receive the theme information to be subjected to the multiple sending. In the application, in order to avoid the phenomenon that the sender message is successfully sent to a certain server, but the server has a hardware fault, and the information receiver cannot acquire the corresponding message from the server, the important theme information needing to be sent for many times, namely the theme information to be sent for many times, is pre-arranged in the configuration center, and because the theme information to be sent for many times is pre-arranged in the configuration center, when the server sent for one time has a fault, the theme information to be sent for many times is sent by another or several sending modes (sent to different servers), so that transaction failure caused by the fault of the certain server is avoided, and the preset receiver can receive the theme information to be sent for many times without causing transaction failure.

Drawings

FIG. 1 is a flowchart of a first embodiment of an information sending method according to the present invention;

fig. 2 is a detailed flowchart of a step of acquiring a preset queue algorithm in a second embodiment of the information transmission method according to the present invention, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm;

FIG. 3 is a schematic diagram of a device architecture of a hardware operating environment involved in a method according to an embodiment of the present invention;

fig. 4 is a schematic view of a scenario of the information transmission method of the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The present invention provides an information transmission method, in an embodiment of the information transmission method, referring to fig. 1, the information transmission method includes:

step S10, obtaining to-be-multiplexed theme information from a preset configuration center every interval preset time period;

step S20, a preset queue algorithm is obtained, and a target sending mode of the subject information to be transmitted is determined according to the queue algorithm;

step S30, the theme information to be transmitted according to the target transmission mode, so that a preset receiver can receive the theme information to be transmitted.

The method comprises the following specific steps:

step S10, obtaining to-be-multiplexed theme information from a preset configuration center every interval preset time period;

it should be noted that, in this embodiment, the information sending method may be applied to an information sending system, in which a preset configuration center may be preset, that is, the preset configuration center may be set in the information sending system, where the preset configuration center set in the information sending system receives, in a receiving manner, a dual-sending or multiple-sending configuration of an information sender to determine subject information to be dual-sent or multiple-sent, and in addition, the preset configuration center may be another component in communication with the information sending system, and when the configuration of the preset configuration center changes, push the dual-sending or multiple-sending configuration to the information sender, so that the information sender determines the subject information to be dual-sending or multiple-sending based on the dual-sending or multiple-sending configuration. The information sending system can be used for sending information to financial institutions, and the preset configuration center can be used for configuration centers of financial institutions such as banks.

In this embodiment, in the preset configuration center, taking the configuration of different subsystems that correspondingly transmit different types of theme information as an example, the configuration of different subsystems that correspondingly transmit different types of theme information may refer to: the configuration of the attribute of part of the theme information sent by the subsystem or the configuration of the attribute of all the theme information sent by the subsystem comprises the configuration of multiple times of the theme information, wherein the multiple times of the configuration comprise the configuration of sending the theme information for at least more than 2 times, namely, for a certain subsystem, all the theme information in the subsystem is sent for more than two times, or the part of the theme information in the subsystem is sent for more than two times, and particularly, the configuration of what kind of theme information is sent for multiple times is preset. For example, the configuration of sending the Topic information Topic a of the subsystem 1111 twice is performed in the preset configuration center, and the configuration of sending the Topic information Topic B of the subsystem 222 three times is performed in the preset configuration center, wherein, because the amount of the Topic information to be sent by the information sending system is massive, when the sender information is successfully sent to the server, the probability of hardware failure of the server is relatively low, and if each Topic information is sent for multiple times, the resource of the server is wasted. Specifically, in this embodiment, the preset configuration center performs multiple-unit identification processing on the subject information that needs multiple-unit, and the performing multiple-unit identification processing on the subject information that needs multiple-unit includes: and carrying out II identification processing on the theme information needing 2 times of transmission, carrying out III identification processing on the theme information needing 3 times of transmission, and the like.

In this embodiment, since the subject information to be multiplexed is preconfigured, the subject information to be multiplexed in the preset configuration center may be changed, that is, the subject information to be multiplexed in the preset configuration center supports dynamic configuration.

The information sender acquires the subject information to be multiplexed from the preset configuration center every preset time period, that is, in this embodiment, the information sender starts a timing task, acquires configuration data from the preset configuration center at fixed time, and in particular, acquires the subject information to be multiplexed from the preset configuration center for transmission.

It should be noted that, as shown in fig. 4, the sending and receiving mechanism of the subject message of the present invention is that the information sender obtains the route information of the publishing subject message (Topic) from the route center (Namesrv), then obtains the server cluster (including multiple Broker servers) where the subject message is located from the route information, establishes a connection with the server cluster (including multiple Broker servers), and after the received message is stored in the server cluster (including multiple Broker servers), the information receiver may obtain the route information of the subscribing subject message (Topic) from the route center (Namesrv), then establishes a connection with the server cluster (including multiple Broker servers) through which the subject message is passed, and collects the message. In this case, when one of the servers transmitting the Topic information fails in hardware, it is assumed here that the server Broker-1 fails, and the sender sends the Topic information successfully, but the consumer cannot receive the subscribed Topic information from the server Broker-1 due to the server failure, so that the transaction cannot be completed, and in this embodiment, the sender of the information will select multiple servers from the other Broker servers (Broker-2, …, broker-n) containing the Topic information (Topic) to resend, so as to ensure that the message transmission is not affected. In practical application, the possibility that a plurality of Broker servers where the Topic is located at the same time have faults is low, so that the influence of a certain server hardware fault on the service is reduced.

Step S20, a preset queue algorithm is obtained, and a target sending mode of the subject information to be transmitted is determined according to the queue algorithm;

after the theme information to be transmitted is obtained, a preset queue algorithm is obtained, and a target transmission mode of the theme information to be transmitted is determined according to the queue algorithm. The target sending mode may be a mode of selecting a target server from a server cluster (including a plurality of Broker servers) or a mode of determining a server to send the subject information to be sent multiple times.

Specifically, the step of obtaining a preset queue algorithm, and determining the target transmission mode of the topic information to be multiplexed according to the queue algorithm further includes:

step S21, obtaining the number of times of sending the theme information to be transmitted from the preset configuration center;

in this embodiment, the number of times of sending the to-be-multiple subject information is obtained from the preset configuration center, specifically, the number of times of sending the to-be-multiple subject information is obtained from the preset configuration center, so as to obtain the number of times of sending the to-be-multiple subject information, where the number of times of sending the to-be-multiple subject information may be 2 times, 3 times or more.

Step S22, obtaining the number of servers in a preset server cluster, selecting the servers with the same number as the number of the transmission times from the preset server cluster when the number of the servers in the preset server cluster is larger than the number of the transmission times, and sequentially transmitting the theme information to be transmitted to the selected different servers as a target transmission mode.

In this embodiment, the preset queue algorithm may refer to an algorithm that selects a specific server to be transmitted from a server cluster through which the server is transmitted, obtains the number of servers in the server cluster through which the server is transmitted, selects the same number of servers as the number of transmissions from the preset server cluster when the number of servers in the server cluster through which the server is transmitted is greater than the number of transmissions, and sequentially transmits the topic information to be transmitted to the selected different servers as a target transmission mode, and when the number of servers in the server cluster through which the server is transmitted is less than the number of transmissions, sequentially transmits the topic information to be transmitted to each server based on the number of servers, and after the topic information to be transmitted by the server is completed corresponding to each server, retransmits the topic information to be transmitted in excess number of times.

Further, in this embodiment, a preset routing center component exists, a routing path storing the subject information in the preset routing center component is preset, and based on the routing path, a target transmission mode of the subject information to be multiple can be determined according to a specific queue algorithm through the specific queue algorithm.

Referring to fig. 2, the step of obtaining a preset queue algorithm, and determining, according to the queue algorithm, the target transmission mode of the to-be-multiplexed subject information includes:

step S23, a target route path of the subject information to be multiplexed is obtained from a preset route center, and a local server cluster group through which the subject information to be multiplexed passes is determined from a preset server cluster according to the target route path;

the target routing path of the topic information to be multiplexed is obtained from a preset routing center, and a local server cluster group through which the topic information to be multiplexed passes is determined from a preset server cluster according to the target routing path, in this embodiment, the topic information to be multiplexed generally passes through the local server cluster group (all queues in the local server cluster group are out of legal state), where the local server cluster group refers to a server cluster that receives the topic information to be multiplexed first, or the local server cluster sub-group refers to a server cluster consistent with the source address of the topic information to be multiplexed currently, for example, if the topic information to be multiplexed is derived from the area a, the local server cluster group refers to a server cluster in the area a.

Step S24, a preset queue algorithm is obtained, and a target sending mode of the topic information to be transmitted is determined according to the queue algorithm and the local server sub-group.

And acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm and the local server cluster, namely, in the embodiment, when determining the target transmission mode, comprehensively considering the queue algorithm and the local server cluster group so as to avoid waste of excessive resources.

Specifically, the step of obtaining a preset queue algorithm, and determining the target transmission mode of the to-be-transmitted subject information according to the queue algorithm and the local server sub-group includes:

step S241, obtaining all target queues associated with the subject information to be multiplexed, and separating local queues and other queues from all target queues based on the local server cluster group;

in this embodiment, a transmission queue of the subject information to be multiplexed is determined in addition to a transmission server of the subject information to be multiplexed selected by a preset queue algorithm. In particular, all target queues associated with the subject information to be multiplexed are acquired, namely, the queues for transmitting the subject information by all servers in the server cluster are acquired,

And separating the local queues from all the target queues based on the local server cluster groups to obtain local queues and other queues, wherein the local queues refer to the queues of the local server cluster groups, for example, the local queues refer to the queues corresponding to the servers which receive the topic information to be multiplexed first, or the local queues refer to the queues corresponding to the servers which are consistent with the source address of the topic information to be multiplexed currently, for example, if the topic information to be multiplexed is sourced from zone A, the local queues refer to the queues corresponding to the servers in zone A.

Step S242, determining whether the local server cluster is the address nearest server cluster of the subject information to be multiplexed, and determining whether there is a local server in the local server cluster group that has not transmitted the subject information to be multiplexed when the local server cluster group is the address nearest server cluster of the subject information to be multiplexed;

judging whether the local server sub-cluster is the server cluster with the nearest address of the topic information to be multiplexed, when the local server sub-cluster is the server cluster which receives the topic information to be multiplexed first, judging whether the local server sub-cluster is the server cluster with the nearest address of the topic information to be multiplexed, when the local server sub-cluster is the server cluster which is consistent with the source address of the topic information to be multiplexed currently, judging whether the local server sub-cluster is the server cluster with the nearest address of the topic information to be multiplexed. When the local server cluster group is the server cluster with the nearest address of the topic information to be sent out, judging whether the local server cluster group has a local server which does not send the topic information to be sent out or not, wherein the judgment aims to avoid the phenomenon of transaction failure caused by the fact that the same server sends the topic information to be sent out for many times and the same server fails.

Step S243, when there is a local server in the local server cluster group that has not transmitted the subject information to be transmitted, selecting a first legal queue from the local queues in a polling manner, and adding the subject information to be transmitted to the first legal queue as a target transmission manner.

When the local server which does not send the topic information to be sent out exists in the local server cluster group, a first legal queue is selected from the local queues in a polling mode, wherein the polling mode refers to a mode of acquiring local queues corresponding to each local server from the local server cluster group one by one, the first legal queue is selected from the local queues, the first legal queue refers to a queue which does not send the topic information to be sent out and can normally send the topic information to be sent out, and the topic information to be sent out is added into the first legal queue to be sent out as a target sending mode.

Step S30, the theme information to be transmitted according to the target transmission mode, so that a preset receiver can receive the theme information to be transmitted.

After determining a target sending mode, sending the theme information to be sent out according to the target sending mode so as to enable a preset receiver to receive the theme information to be sent out for multiple times, thereby avoiding the technical problem that in the existing information sending process, if a sender message is successfully sent to a server, the server has hardware faults, and transaction or consumption fails.

The method comprises the steps of obtaining to-be-multiplexed theme information from a preset configuration center every preset time period; acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm; and sending the theme information to be subjected to the multiple sending according to the target sending mode so as to enable a preset receiver to receive the theme information to be subjected to the multiple sending. In the application, in order to avoid the phenomenon that the sender message is successfully sent to a certain server, but the server has a hardware fault, and the information receiver cannot acquire the corresponding message from the server, the important theme information needing to be sent for many times, namely the theme information to be sent for many times, is pre-arranged in the configuration center, and when the server sent for one time has a fault, the theme information to be sent is sent by another or several sending modes (sent to different servers) so as to avoid the transaction failure caused by the fault of the certain server, namely the preset receiver can receive the theme information to be sent without causing the transaction failure.

Further, in another embodiment of the information sending method, after the step of determining whether the local server group has the local server that has not sent the subject information to be sent, the method further includes:

and A1, when all local servers in the local server cluster group completely transmit the theme information to be transmitted, selecting a second legal queue from the other queues in a polling mode, and adding the theme information to be transmitted into the second legal queue to transmit the theme information to be transmitted as a target transmission mode, wherein the server where the second legal queue is located is a server which does not transmit the theme information to be transmitted.

In this embodiment, when all local servers in the local server cluster group have sent the topic information to be multiple, a second legal queue is acquired from the server clusters other than the local server cluster group in a polling manner, that is, the second legal queue is selected from the other queues in a polling manner, and the topic information to be multiple is added into the second legal queue to be sent as a target sending manner, where a server where the second legal queue is located is a server that has not sent the topic information to be multiple, so that a phenomenon of transaction failure caused when the same server sends the topic information to be multiple times and the same server fails is avoided, so as to implement timely sending of the topic information to be multiple.

The step of determining whether the local server cluster is the server cluster with the nearest address of the subject information to be multiplexed further includes:

and B1, when the local server cluster group is not the closest server cluster of the address of the subject information to be multiplexed, selecting a third legal queue from all the target queues in a polling mode, and adding the subject information to be multiplexed into the third legal queue for transmission as a target transmission mode, wherein the server where the third legal queue is located is a server which does not transmit the subject information to be multiplexed.

When the local server cluster group is not the server cluster with the nearest address of the subject information to be multiplexed, the queues can be randomly selected, namely a third legal queue is selected from all the target queues in a polling mode, the subject information to be multiplexed is added into the third legal queue to be sent as a target sending mode, wherein the server where the third legal queue is located is a server which does not send the subject information to be multiplexed, so that the phenomenon of transaction failure caused when the same server sends the subject information to be multiplexed for many times and the same server fails is avoided.

In this embodiment, when all the local servers in the local server cluster group have sent the subject information to be sent out, a second legal queue is selected from the other queues in a polling manner, and the manner that the subject information to be sent out is added into the second legal queue for sending is used as a target sending manner, where the server where the second legal queue is located is a server that has not sent the subject information to be sent out. Therefore, the embodiment solves the technical problem that in the existing information sending process, if the sender information is successfully sent to the server, the server has hardware failure, so that transaction or consumption fails.

Further, in another embodiment of the information sending method provided by the present invention, the step of sending the subject information to be sent according to the target sending manner, so that the preset receiver receives the subject information to be sent includes:

step S31, the subject information to be multiplexed is sent according to the target sending mode, so that a preset receiver can receive the subject information to be multiplexed, and the subject information to be multiplexed is subjected to de-duplication processing according to the multiple identifiers of the subject information to be multiplexed.

In this embodiment, the to-be-multiplexed subject information is further sent according to the target sending manner, so that a preset receiver receives the to-be-multiplexed subject information, and the to-be-multiplexed subject information is subjected to de-duplication processing according to the multiple identifiers of the to-be-multiplexed subject information, that is, for the receiver, the subject information is received for multiple times, de-duplication is performed on the multiple received subject information, and specifically, de-duplication is performed according to the identifiers of the subject information.

In this embodiment, the to-be-multiplexed subject information is sent according to the target sending manner, so that a preset receiver receives the to-be-multiplexed subject information, and the to-be-multiplexed subject information is subjected to de-duplication processing according to the multiple identifier of the to-be-multiplexed subject information. To avoid the influence of the transaction caused by the multiple receiving of information.

Referring to fig. 3, fig. 3 is a schematic device structure diagram of a hardware running environment according to an embodiment of the present invention.

The information sending device of the embodiment of the invention can be a PC, or can be terminal devices such as a smart phone, a tablet personal computer, a portable computer and the like.

As shown in fig. 3, the information transmitting apparatus may include: a processor 1001, such as a CPU, memory 1005, and a communication bus 1002. Wherein a communication bus 1002 is used to enable connected communication between the processor 1001 and a memory 1005. The memory 1005 may be a high-speed RAM memory or a stable memory (non-volatile memory), such as a disk memory. The memory 1005 may also optionally be a storage device separate from the processor 1001 described above.

Optionally, the information sending device may further include a target user interface, a network interface, a camera, an RF (Radio Frequency) circuit, a sensor, an audio circuit, a WiFi module, and so on. The target user interface may comprise a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the selectable target user interface may further comprise a standard wired interface, a wireless interface. The network interface may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface).

It will be appreciated by those skilled in the art that the information transmission apparatus structure shown in fig. 3 does not constitute a limitation of the information transmission apparatus, and may include more or less components than those illustrated, or may combine some components, or may be a different arrangement of components.

As shown in fig. 3, an operating system, a network communication module, and an information transmission program may be included in the memory 1005, which is one type of computer storage medium. An operating system is a program that manages and controls the hardware and software resources of the information delivery device, supporting the execution of information delivery programs and other software and/or programs. The network communication module is used to enable communication between components within the memory 1005 and with other hardware and software in the information transmission apparatus.

In the information transmission apparatus shown in fig. 3, a processor 1001 is configured to execute an information transmission program stored in a memory 1005, and to implement the steps of the information transmission method described in any one of the above.

The specific implementation manner of the information sending device of the present invention is basically the same as that of each embodiment of the information sending method, and will not be repeated here.

In addition, an embodiment of the present invention further provides an information sending apparatus, where the information sending apparatus includes:

the first acquisition module is used for acquiring the to-be-multiplexed theme information from a preset configuration center every interval preset time period;

the second acquisition module is used for acquiring a preset queue algorithm and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm;

and the sending module is used for sending the theme information to be subjected to the multiple sending according to the target sending mode so as to enable a preset receiver to receive the theme information to be subjected to the multiple sending.

Optionally, the second obtaining module includes:

the first acquisition unit is used for acquiring a target route path of the subject information to be multiplexed from a preset route center, and determining a local server cluster group through which the subject information to be multiplexed passes from a preset server cluster according to the target route path;

The second acquisition unit is used for acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm and the local server sub-group.

Optionally, the second acquisition unit includes:

the first acquisition subunit is used for acquiring all target queues associated with the topic information to be multiplexed, and separating local queues and other queues from all target queues based on the local server cluster group;

the judging subunit is used for judging whether the local server cluster is the address nearest server cluster of the topic information to be multiplexed, and judging whether a local server which does not send the topic information to be multiplexed exists in the local server cluster when the local server cluster group is the address nearest server cluster of the topic information to be multiplexed;

and the second acquisition subunit is used for selecting a first legal queue from the local queues in a polling mode when the local servers which do not send the theme information to be sent exist in the local server cluster group, and adding the theme information to be sent to the first legal queue to send the theme information to be sent to serve as a target sending mode.

Optionally, the second acquisition unit includes:

the first selecting subunit is configured to select a second legal queue from the other queues in a polling manner when all the local servers in the local server cluster group have sent the to-be-multiple topic information, and add the to-be-multiple topic information to the second legal queue for sending as a target sending manner, where the server where the second legal queue is located is a server that has not sent the to-be-multiple topic information.

Optionally, the second acquisition unit includes:

and the second selecting subunit is configured to select a third legal queue from the all target queues in a polling manner when the local server cluster group is not the server cluster with the nearest address of the to-be-multiplexed subject information, and add the to-be-multiplexed subject information to the third legal queue for transmission as a target transmission manner, where a server where the second legal queue is located is a server that has not transmitted the to-be-multiplexed subject information.

Optionally, the second acquisition module further includes:

a third obtaining unit, configured to obtain the number of times of transmission of the subject information to be transmitted from the preset configuration center;

And a fourth obtaining unit, configured to obtain the number of servers in a preset server cluster, and when the number of servers in the preset server cluster is greater than the number of sending times, select, from the preset server cluster, a server with the same number as the number of sending times, and sequentially send the to-be-sent subject information to the selected different servers as a target sending mode.

Optionally, the sending module includes:

a transmitting unit, configured to transmit the subject information to be multiplexed according to the target transmission manner, so that a preset receiver receives the subject information to be multiplexed, and perform deduplication processing on the subject information to be multiplexed according to a multiple identifier of the subject information to be multiplexed

The specific implementation manner of the information sending device of the present invention is basically the same as that of each embodiment of the information sending method, and will not be repeated here.

In addition, an embodiment of the present invention further provides an information sending device, where the device includes: the memory 109, the processor 110, and the information transmission program stored in the memory 109 and executable on the processor 110, the information transmission program when executed by the processor 110 implements the steps of the embodiments of the information transmission method described above.

Furthermore, the present invention provides a computer-readable storage medium storing one or more programs executable by one or more processors for implementing the steps of the embodiments of the above information transmission method.

The expansion content of the specific implementation manner of the device and the readable storage medium (i.e., the computer readable storage medium) of the present invention is basically the same as that of each embodiment of the information sending method, and will not be described herein.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) comprising instructions for causing a terminal (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present invention.

The embodiments of the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present invention and the scope of the claims, which are to be protected by the present invention.

Claims (8)

1. An information transmission method, characterized in that the information transmission method comprises:

acquiring to-be-multiplexed theme information from a preset configuration center every preset time period;

acquiring the number of times of transmission of the subject information to be transmitted from the preset configuration center;

acquiring the number of servers in a preset server cluster, selecting the servers with the same number as the transmission times from the preset server cluster when the number of the servers in the preset server cluster is larger than the transmission times, and sequentially transmitting the theme information to be transmitted to the selected different servers as a target transmission mode;

acquiring a target route path of the subject information to be multiplexed from a preset route center, and determining a local server cluster group through which the subject information to be multiplexed passes from a preset server cluster according to the target route path;

acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm and the local server sub-group;

and sending the theme information to be subjected to the multiple sending according to the target sending mode so as to enable a preset receiver to receive the theme information to be subjected to the multiple sending.

2. The information transmission method according to claim 1, wherein the step of obtaining a preset queuing algorithm, and determining the target transmission mode of the subject information to be transmitted according to the queuing algorithm and the local server cluster includes:

acquiring all target queues associated with the topic information to be multiplexed, and separating the local queues from all target queues based on the local server set group to obtain a local queue and other queues;

judging whether the local server cluster is the closest server cluster of the topic information to be multiplexed, and judging whether a local server which does not send the topic information to be multiplexed exists in the local server cluster when the local server cluster is the closest server cluster of the topic information to be multiplexed;

when the local server cluster group contains a local server which does not send the topic information to be sent out, selecting a first legal queue from the local queues in a polling mode, and adding the topic information to be sent out to the first legal queue to send out as a target sending mode.

3. The information transmission method as claimed in claim 2, wherein the step of determining whether the local server group has the local server for which the subject information to be multiplexed has not been transmitted further comprises, after the step of determining that the local server group has the local server for which the subject information to be multiplexed has not been transmitted:

When all local servers in the local server set group completely send the theme information to be sent out, selecting a second legal queue from the other queues in a polling mode, and adding the theme information to be sent out to the second legal queue to send out the theme information to be sent out as a target sending mode, wherein the server where the second legal queue is located is a server which does not send the theme information to be sent out.

4. The information transmission method as claimed in claim 2, wherein the step of determining whether the local server cluster is the address nearest server cluster of the subject information to be multiplexed further comprises:

when the local server cluster group is not the closest server cluster of the address of the subject information to be multiplexed, selecting a third legal queue from all the target queues in a polling mode, and adding the subject information to be multiplexed into the third legal queue for transmission as a target transmission mode, wherein a server where the third legal queue is located is a server which does not transmit the subject information to be multiplexed.

5. The method for sending information according to any one of claims 1 to 4, wherein the step of sending the subject information to be sent according to the target sending manner, so that a preset receiver receives the subject information to be sent, includes:

And sending the theme information to be multiplexed according to the target sending mode so as to enable a preset receiver to receive the theme information to be multiplexed, and performing de-duplication processing on the theme information to be multiplexed according to the multiple identifiers of the theme information to be multiplexed.

6. An information transmission apparatus, characterized in that the information transmission apparatus includes:

the first acquisition module is used for acquiring the to-be-multiplexed theme information from a preset configuration center every interval preset time period;

the second acquisition module is used for acquiring the transmission times of the subject information to be transmitted from the preset configuration center;

acquiring the number of servers in a preset server cluster, selecting the servers with the same number as the transmission times from the preset server cluster when the number of the servers in the preset server cluster is larger than the transmission times, and sequentially transmitting the theme information to be transmitted to the selected different servers as a target transmission mode;

acquiring a target route path of the subject information to be multiplexed from a preset route center, and determining a local server cluster group through which the subject information to be multiplexed passes from a preset server cluster according to the target route path;

Acquiring a preset queue algorithm, and determining a target transmission mode of the subject information to be transmitted according to the queue algorithm and the local server sub-group;

and the sending module is used for sending the theme information to be subjected to the multiple sending according to the target sending mode so as to enable a preset receiver to receive the theme information to be subjected to the multiple sending.

7. An information transmission apparatus, characterized in that the apparatus comprises: memory, a processor and an information transmission program stored on the memory and executable on the processor, which when executed by the processor, implements the steps of the information transmission method according to any one of claims 1 to 5.

8. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon an information transmission program which, when executed by a processor, realizes the steps of the information transmission method according to any one of claims 1 to 5.