CN114979982B - Message issuing method and device, electronic equipment and storage medium - Google Patents

Abstract

The application discloses a message issuing method, a device, electronic equipment and a storage medium, belongs to the field of message processing, and solves the problem that a message issuing platform in the related technology enables the efficiency and accuracy of message issuing to be low. The method comprises the following steps: determining a message sending scene corresponding to a target downlink message, wherein the message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene; determining a message channel corresponding to the message sending scene; and sending the target downlink message to a terminal through the message channel, wherein the message channel comprises a group sending type message channel corresponding to the message group sending scene, an interaction type message channel corresponding to the message interaction sending scene or a triggering type message channel corresponding to the message triggering sending scene.

Description

Message issuing method and device, electronic equipment and storage medium

Technical Field

The application belongs to the field of message processing, and particularly relates to a message issuing method, a device, electronic equipment and a storage medium.

Background

Fifth generation (5) ^th Generating, 5G) messages are used as comprehensive upgrades of basic short message service of operators, support to send and receive rich media files on the 5G message terminal, have the function of a chat robot (chatbot), and provide rich interactive application for users on the terminal. The operation of each enterprise or organization based on the 5G message chatbot is a public platform established based on different systems at present, and can support the operation of the enterprise or organization to create the chatbot, issue the message and perform the data service.

However, in the related art, a public platform for issuing the 5G message can be used, and the problems of message backlog, message loss and the like are likely to be caused only by controlling the platform (Massage as a platform, MAAP) which is the message of the 5G message, so that the underlying message issuing flow is greatly influenced, and further the efficiency and accuracy of the message issuing are lower.

Disclosure of Invention

The embodiment of the application provides a message issuing method, a device, electronic equipment and a storage medium, which can solve the problem of lower message issuing efficiency and accuracy in the related technology.

In a first aspect, an embodiment of the present application provides a method for issuing a message, where the method includes: determining a message sending scene corresponding to a target downlink message, wherein the message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene; determining a message channel corresponding to the message sending scene; and sending the target downlink message to a terminal through the message channel, wherein the message channel comprises a group sending type message channel corresponding to the message group sending scene, an interaction type message channel corresponding to the message interaction sending scene or a triggering type message channel corresponding to the message triggering sending scene.

In a second aspect, an embodiment of the present application provides a device for issuing a message, where the device includes: the first determining module is used for determining a message sending scene corresponding to the target downlink message, wherein the message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene; the second determining module is used for determining a message channel corresponding to the message sending scene; and the sending module is used for sending the target downlink message to the terminal through the message channel, wherein the message channel comprises a group sending type message channel corresponding to the message group sending scene, an interaction type message channel corresponding to the message interaction sending scene or a triggering type message channel corresponding to the message triggering sending scene.

In a third aspect, an embodiment of the present application provides an electronic device, including a processor, a memory, and a program or instruction stored on the memory and executable on the processor, the program or instruction implementing the steps of the method according to the first aspect when executed by the processor.

In a fourth aspect, embodiments of the present application provide a readable storage medium having stored thereon a program or instructions which when executed by a processor perform the steps of the method according to the first aspect.

In a fifth aspect, an embodiment of the present application provides a chip, where the chip includes a processor and a communication interface, where the communication interface is coupled to the processor, and where the processor is configured to execute a program or instructions to implement a method according to the first aspect.

In the embodiment of the application, the message sending scene corresponding to the target downlink message is determined, wherein the message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene; determining a message channel corresponding to the message sending scene; and sending the target downlink message to a terminal through the message channel, wherein the message channel comprises a group sending message channel corresponding to the message group sending scene, an interaction message channel corresponding to the message interaction sending scene or a triggering message channel corresponding to the message triggering sending scene, and the target downlink message to be sent can be shunted to different message channels according to different message sending scenes corresponding to the target downlink message, so that the problems of message backlog and message loss can be effectively avoided, and the problem of lower efficiency and accuracy of message sending can be solved.

Drawings

Fig. 1 is a flow chart of a method for issuing a message according to an embodiment of the present application;

fig. 2 is a schematic flow chart of a message issuing according to an embodiment of the present application;

FIG. 3 is a schematic flow chart of issuing a message according to another embodiment of the present application;

FIG. 4 is a schematic flow chart of another message issuing method according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a message issuing apparatus according to an embodiment of the present application;

fig. 6 is a schematic structural view of an electronic device according to another embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The terms first, second and the like in the description and in the claims, 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 may be interchanged where appropriate such that embodiments of the application may be practiced otherwise than as specifically illustrated or described herein. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

The following describes in detail a method, an apparatus, an electronic device, and a storage medium for issuing a message according to embodiments of the present application through specific embodiments and application scenarios thereof with reference to the accompanying drawings.

Specifically, the 5G message is used as the overall upgrade of the basic short message service of the operator, supports the receiving and sending of rich media files on the 5G message terminal, has the function of a chat robot (chatbot), and provides rich interactive application for the user on the terminal. The operation of each enterprise or organization based on the 5G message chatbot is a public platform established based on different systems at present, and can support the operation of the enterprise or organization to create the chatbot, issue the message and perform the data service.

However, in the related art, a public platform for issuing the 5G message can be used, and the problems of message backlog, message loss and the like are likely to be caused only by controlling the platform (Massage as a platform, MAAP) which is the message of the 5G message, so that the underlying message issuing flow is greatly influenced, and further the efficiency and accuracy of the message issuing are lower.

Therefore, the application can be developed based on a 5G message subscription number platform, the platform is a 5G message public platform service based on a focus mode, and the 5G message chatbots are created, operated and managed by enterprises or organizations so as to help various merchants or organizations to realize full connection and full touch between users and services on 5G messages. The message delivery of the 5G message subscription number platform may include four modules of chat bot service provider (Chatbot Service Provider, CSP), unified message processing platform, MAAP, 5G message center (5G Message Center,5GMC).

The method comprises the steps of determining a message sending scene corresponding to a target downlink message, wherein the message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene; determining a message channel corresponding to the message sending scene; and sending the target downlink message to the terminal through the message channel, wherein the message channel comprises a group sending type message channel corresponding to a message group sending scene, an interaction type message channel corresponding to a message interaction sending scene or a triggering type message channel corresponding to a message triggering sending scene, and the target downlink message to be sent can be shunted to different message channels according to different message sending scenes corresponding to the target downlink message, so that the problems of message backlog and message loss can be effectively avoided, and the problem of lower efficiency and accuracy of message sending can be solved.

Fig. 1 illustrates a method for issuing a message according to an embodiment of the present application, which may be performed by an electronic device, where the electronic device may include: a server and/or a terminal device, wherein the terminal device may be, for example, a mobile phone terminal or the like. In other words, the method may be performed by software or hardware installed in an electronic device, the method comprising the steps of:

Step 101: and determining a message sending scene corresponding to the target downlink message.

The message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene.

Specifically, the target downlink message refers to a message sent to the terminal by the third party. The third party may be a merchant chatbot, various application clients, and the like. The present embodiment will be described below by taking a chat as an example of a sender of a target downlink message.

Specifically, the message group sending scenario may be a scenario in which the same message is simultaneously sent to a plurality of terminals (i.e., users).

The message interaction sending scene may be a scene of message interaction with the terminal, for example, the chatbot automatically replies to the message for the uplink keyword sent by the user.

The message trigger transmission scenario may be a scenario in which a message is transmitted to a terminal based on some specific instruction.

In addition, the sending process of the target downlink message may be as follows: taking the 5G message subscription number platform target as an example, the target downlink message in the 5G message system architecture can be transmitted to the terminal after passing through an application layer (official CSP or third party CSP, carrying own or external industry chatbot), a unified message processing platform (message issuing), a MAAP (message auditing, message control, content storage, spam processing, etc.), and a 5GMC (short message and basic multimedia message processing).

Step 102: and determining a message channel corresponding to the message sending scene.

The message channels comprise group sending type message channels corresponding to message group sending scenes, interaction type message channels corresponding to message interaction sending scenes or trigger type message channels corresponding to message trigger sending scenes.

Step 103: and sending the target downlink message to a terminal through the message channel.

Specifically, the target downlink message may be sent to the terminal through the determined message channel. For example, if the message sending scene is a message group sending scene, the message channel is a group sending type message channel corresponding to the message group sending scene, and the target downlink message is sent to the terminal through the group sending type message channel; for another example, if the message sending scene is a message interaction sending scene, the message channel is an interaction type message channel corresponding to the message interaction sending scene; for another example, if the message sending scene is a message trigger sending scene, the message channel is a trigger type message channel corresponding to the message trigger sending scene.

In this way, by determining a message sending scene corresponding to the target downlink message, wherein the message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene; determining a message channel corresponding to the message sending scene; and sending the target downlink message to the terminal through the message channel, wherein the message channel comprises a group sending type message channel corresponding to a message group sending scene, an interaction type message channel corresponding to a message interaction sending scene or a triggering type message channel corresponding to a message triggering sending scene, and the target downlink message to be sent can be shunted to different message channels according to different message sending scenes corresponding to the target downlink message, so that the problems of message backlog and message loss can be effectively avoided, and the problem of lower efficiency and accuracy of message sending can be solved.

In an alternative implementation, the message channel corresponds to at least one message transmission queue; the sending the target downlink message to the terminal through the message channel comprises the following steps: determining a target message sending queue corresponding to the target downlink message; determining a target sending rate corresponding to the target message sending queue; and sending the target downlink message to a terminal through the target message sending queue at the target sending rate.

Specifically, the target sending rate corresponding to the target message sending queue may be set according to specific needs during application, which is not limited herein specifically.

As a specific example, for example, a group send type message channel may correspond to 3 message send queues, an interaction type message channel may correspond to 1 message send queue, a trigger type message channel may correspond to 2 message send queues, and each message send queue may have its corresponding send rate.

Therefore, the problems of message backlog and message loss can be further effectively avoided by further shunting the target downlink message passing through the message channel to different queues, and the problem of lower efficiency and accuracy of message issuing can be further solved.

In an optional implementation manner, the message sending scene is a message group sending scene; the sending the target downlink message to the terminal through the message channel comprises the following steps: determining the account type of a target account for issuing the target downlink message; determining a first target message sending queue corresponding to the account type and a first target sending rate corresponding to the account type; and sending the target downlink message to a terminal through the first target message sending queue at the first preset rate.

Wherein the first target message sending queue is a queue under the message channel.

Specifically, the target account number may be an account number of a third party that transmits the target downlink message.

Optionally, the account types may include a subscription number type, a direct number type, a guest (Very Important Person, VIP) direct number type, and a special standby type.

Optionally, the first target message sending queue corresponding to the subscription number type may be a subscription number queue; the first target message sending queue corresponding to the direct number type may be a direct number queue; the first target message sending queue corresponding to the VIP direct number type may be a VIP direct number queue; the first target message transmit queue corresponding to the special reserve type may be a special reserve queue.

Optionally, taking the 5G message subscription platform target as an example, the first target sending rate corresponding to the account type may be determined according to the historical sending magnitude of the target downlink message corresponding to the account type, and the upper limit of the total amount of loadable messages in the downlink region to which the MAAP and the target downlink message belong.

In this way, the target downlink message passing through the mass-sending message channel is further shunted to the subscription number queue, the direct number queue, the VIP direct number queue and the special standby queue, and the corresponding message sending rate is set for each queue, so that the problems of backlog and message loss of the mass-sending message can be further effectively avoided, and the problem of lower efficiency and accuracy of mass-sending message issuing can be further solved.

In an optional implementation manner, the message sending scene is a message triggering sending scene, and the message triggering sending scene comprises a real-time notification scene and a non-real-time notification scene; the sending the target downlink message to the terminal through the message channel comprises the following steps: under the condition that the message triggering and sending scene is the non-real-time notification scene, sending the target downlink message to a terminal through a non-real-time message sending queue corresponding to the non-real-time notification scene at a second target sending rate; and under the condition that the message triggering and sending scene is the real-time notification scene, the target downlink message is sent to the terminal through a real-time message sending queue corresponding to the real-time notification scene.

Wherein, the real-time message sending queue is not provided with a sending rate upper limit value;

the non-real-time message sending queue and the real-time message sending queue are both message sending queues under a trigger type message channel corresponding to the message trigger sending scene.

Specifically, the real-time notification scenario may be a scenario in which the target downlink message needs to be sent to the user in real time. For example, the real-time notification scenario is a scenario in which a bill for a telephone charge needs to be sent to the user or a bill for a flow needs to be sent to the user.

Specifically, the non-real-time notification scenario may be a scenario in which the target downstream message does not need to be sent to the client in real time. For example, the non-real time notification scenario may be a scenario in which the preview is sent for a mass-sent message.

Specifically, the second target transmission rate may be set by a skilled person according to specific needs, and is not specifically limited herein.

The above-described fact that the transmission rate upper limit value is not set means that the transmission rate upper limit value is not specifically limited, and it does not mean that the transmission rate upper limit value may exceed the actual range of the transmission rate that can be achieved in the art.

Therefore, the target downlink message through the trigger type message channel is further distributed into the real-time message sending queue and the non-real-time message sending queue, so that the problems of backlog and message loss of the trigger type message can be further effectively avoided, and the problem of lower efficiency and accuracy of issuing the trigger type message can be further solved.

In an optional implementation manner, the message sending scene is the message interaction sending scene; the sending the target downlink message to the terminal through the message channel comprises the following steps: and sending the target downlink message to a terminal through an interaction queue.

Wherein, the interaction queue is not provided with a sending rate upper limit value.

The interaction queue is a message sending queue under an interaction type message channel corresponding to the message interaction sending scene.

Therefore, the target downlink message in the message interaction sending scene can be shunted to the interaction queue, so that the processing efficiency and the accuracy of the target downlink message in the message interaction sending scene are higher.

In an optional implementation manner, the sending the target downlink message to the terminal through the message channel includes: determining the proportion of the flow control rates of the mass sending type message channel, the interaction type message channel and the triggering type message channel in the issuing area corresponding to the target downlink message, and respectively determining the alarm threshold values of the flow control rates of the mass sending type message channel, the interaction type message channel and the triggering type message channel in the issuing area;

And sending the target downlink message to a terminal through the message channel corresponding to the issuing area based on the proportion of the flow control rate and the alarm threshold of the flow control rate.

The flow control rate is a sending rate of the target downlink message sent to the terminal through the message channel.

Optionally, the issuing area may include an issuing area queue corresponding to the issuing area; further, the issue area queue may include a group send type message channel, an interactive type message channel, and a trigger type message channel.

Optionally, the target downlink message may be sent to the message channel of the CSP layer at the target sending rate; further, the target downlink message can be sent to the message channel of the unified message processing platform at a target sending rate;

optionally, when the message sending scene corresponding to the target downlink message is a message group sending scene, the target sending rate may be the first target sending rate; when the message sending scene corresponding to the target downlink message is a non-real-time notification scene, the target sending rate may be the second target sending rate.

Specifically, the issuing area to which the target downlink message belongs may be determined according to the issuing area to which the third party that sends the target downlink message belongs.

Alternatively, the issuing area may be divided into a south China large area, a north China large area, a south China large area, a east China large area, a north west large area and a south west large area according to the division of the administrative area.

Optionally, the issue area queues corresponding to the south China large area, the north China large area, the south China large area, the east China large area, the north west large area and the south west large area may be a south China large area queue, a north China large area queue, a south China large area queue, a east China large area queue, a north west large area queue and a south west large area queue.

Specifically, the alarm threshold of the flow control rate may be the highest value of the flow control rate.

Therefore, the flow control rate and the flow control rate threshold value of the message channels in each issuing area can be determined by setting the flow control rate proportion of the message channels in each issuing area and the flow control rate alarm threshold value, and the target downlink message is shunted to the message channels in different issuing areas on the basis of the flow control rate and the flow control rate threshold value, so that the target downlink message can be further shunted, and the processing efficiency and the accuracy of the target downlink message are further improved.

In an optional implementation manner, after the sending the target downlink message to the terminal through the message channel, the method further includes: and under the condition that the target downlink message meets the preset condition, the target downlink message is sent to the terminal through a short transfer queue and/or a color transfer queue.

The sending rate of the target downlink message to the color conversion queue is set with an upper limit value, the sending rate of the target downlink message to the short conversion queue is not set with an upper limit value, the short conversion queue is used for converting the target downlink message into a short message, and the color conversion queue is used for converting the target downlink message into a color message.

The preset conditions include that the target downlink message fails to be sent and the target downlink message is allowed to be converted into a short message, and/or the preset conditions include that the target downlink message fails to be sent and the target downlink message is allowed to be converted into a multimedia message.

Specifically, the third party that issues the target downlink message may set whether the target downlink message allows conversion into a short message and/or a multimedia message.

Optionally, if the third party does not set the permission of the target downlink message to be converted into the short message and/or the multimedia message, under the condition that the target downlink message fails to be issued, the number detail of the user who fails to be sent can be determined through the received failure receipt returned by the issuing area to which the third party belongs, and the detail can be used for the merchant to process.

Therefore, the target downlink message can be converted into the short message and/or the multimedia message, so that the terminal which cannot accept the current format of the target downlink message can also obtain the information to be expressed by the target downlink message.

Optionally, the specific steps of an embodiment of the present application are described below in conjunction with a flowchart as shown in fig. 2, which includes the steps of:

in this embodiment, taking the 5G message subscription number platform as an example, the message issuing of the 5G message subscription number platform may include four modules, such as CSP, unified message processing platform (hereinafter referred to as access layer), MAAP, and 5 GMC. In the process of issuing the target downlink message in the 5G message system architecture, an application layer (official CSP or third party CSP, bearing self or external industry chatbot), a unified message processing platform (message issuing), MAAP (message auditing, message control, content storage, garbage message processing and the like), 5GMC (short message and basic multimedia message processing) and a terminal can be passed through.

Step one, the merchant chatbot descends the downlink message, and the CSP module judges the message sending scene of the downlink message.

The message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene.

Specifically, the message mass-sending scene may be a scene that a target downlink message issued by the chatbot to the user is a mass-sending message.

Specifically, the message interaction sending scene may be a scene that the target downlink message sent by the chatbot is a message interacted with the user, for example, the chatbot automatically replies to the message aiming at the uplink keyword of the user.

Specifically, the message trigger sending scenario may be a scenario in which a chatbot pushes a message to a user based on some predetermined instruction.

And step two, the CSP module shunts the downlink message to a message channel corresponding to the sending scene.

The message channels comprise group sending type message channels corresponding to message group sending scenes, interaction type message channels corresponding to message interaction sending scenes or trigger type message channels corresponding to message trigger sending scenes.

And step three, the mass-sending type message channel further shunts the downlink message to the subscription number, the direct number, the VIP direct number and the special standby 4 queues.

Specifically, as shown in fig. 3, for the group sending message channel, the CSP determines the account type of the account of the merchant chatbot of the downlink message, where the account type includes a subscription number type, a direct number type, a VIP direct number type, and a special standby type, and further, the CSP shunts the downlink message to a queue corresponding to the account type corresponding to the downlink message.

The queue corresponding to the subscription number type may be a subscription number queue; the queue corresponding to the direct number type may be a direct number queue; the queue corresponding to the VIP direct number type may be a VIP direct number queue; the queue corresponding to the special reserve type may be a special reserve queue.

Specifically, for the queue corresponding to each account type, the message sending rate of the downlink message sent to the queue may be set.

Specifically, the message sending rate may be determined according to the historical sending magnitude of the downlink message corresponding to the account type, and the upper limit of the total amount of the loadable messages in the sending area to which the MAAP and the target downlink message belong.

And step four, triggering a class message channel to further shunt the downlink message to two message sending queues with non-real-time performance and real-time performance.

Specifically, as shown in fig. 4, for the trigger message channel, the CSP determines whether the sending scene of the downlink message is a real-time notification scene, if the determination result is yes, the sending scene of the downlink message is mainly similar to the scene needing real-time notification such as a telephone bill, a credit card bill, and the like, at this time, the downlink message can be shunted to a real-time message sending queue, and an upper limit value is not set for the sending rate of the downlink message in the queue; if the judgment result is "no", the sending scenario of the downlink message is mainly a scenario where the downlink message does not need to be notified in real time, for example, a scenario where the downlink message is a sending preview, at this time, the downlink message may be sent to a non-real-time notification queue, and the sending rate of the downlink message sent to the non-real-time notification queue may be set to a certain set value.

And fifthly, the interactive message channel directly transmits the downlink message to the interactive queue.

Specifically, for the downlink message entering the interactive message channel, the interactive channel directly transmits the downlink message to the interactive queue, and the upper limit value is not set for the transmission rate of the downlink message in the interactive queue.

Step six, the class 3 channel messages of the CSP are respectively delivered to the class 3 channels corresponding to the access layer.

Specifically, for the message issued by the CSP type 3 channel message, the access layer queues and issues the downlink message according to the limit of the sending rate of the downlink message in the CSP type three channels.

Specifically, the access layer may further allocate, according to concurrency capability of each of the downstream areas of the MAAP and the downstream message, a proportion of flow control rates of the group sending, triggering and interaction message channels to each of the downstream areas, and allocate alarm thresholds of the flow control rates of the group sending, interaction and triggering message channels, respectively. The flow control rate here is the downstream message sending rate.

And step seven, the downlink information is shunted to different MAAP and 5GMC eight-area queues according to the downlink area to which the chatbot belongs, and finally the downlink information is transmitted to the terminal.

Specifically, for the message issued by the access layer 3 channel, the downlink message is further split into 8 large area queues of south China, north China, south China, north China, and the south China according to the downlink area to which the chatbot belongs, further, MAAP performs flow control according to the preset flow control rate and alarm threshold, and each large area of the 5GMC determines the flow control rate of 3 message channels of each large area and the alarm threshold value of the flow control rate according to the ratio of the flow control rates of 3 message channels distributed by the access layer and the alarm threshold value of the flow control rate, and then finally transmits the downlink message to the terminal.

And step eight, aiming at the downlink message which fails to be sent, the access layer calls a short message middle station interface to shunt the downlink message to a short message transferring and/or color transferring queue.

Specifically, for a downlink message with failed transmission, the number of the receiving user of the downlink message is determined.

Further, if the merchant does not set the downlink message to allow the downlink message to be converted into a short message and/or to be converted into a multimedia message, the access layer returns a failure number detail to the CSP for the merchant to process after receiving a failure receipt returned by the large area to which the chatbot belongs;

if the merchant sets that the downlink message is allowed to be converted into the short message and/or is converted into the multimedia message, after receiving a failure receipt returned by the large area described by the chatbot, the access layer calls a short message middle station interface to further shunt the downlink message to a short message conversion and/or multimedia message conversion queue, wherein the downlink message allowed to be converted into the short message is shunted to the short message conversion queue, and the downlink message allowed to be converted into the multimedia message is shunted to the multimedia message conversion queue.

The conversion to the multimedia message comprises larger rich media content and other content occupies higher bandwidth, so that the upper limit value of the sending rate of the downlink message in the multimedia message transferring queue can be set according to the concurrency capability of the multimedia message middle station; the short message is converted into text, link and other contents, so that the occupied bandwidth is low, the upper limit value of the sending rate of the downlink message can be not set, and the short message can be queued for issuing.

In this way, the embodiment makes the message sending efficiency and accuracy improved by shunting the downlink message to different message channels and queues at each level and controlling the sending rate of the downlink message in the channels and queues.

It should be noted that, in the method for issuing a message provided in the embodiment of the present application, the execution body may be a device for issuing a message, or a control module in the device for issuing a message, which is used for executing the method for issuing a message. In the embodiment of the application, a method for executing a message by a message issuing device is taken as an example, and the message issuing device provided by the embodiment of the application is described.

Fig. 5 is a schematic structural diagram of a message issuing apparatus according to an embodiment of the present application. As shown in fig. 5, a message issuing apparatus 500 includes: a first determining module 510, a second determining module 520, and a transmitting module 530.

A first determining module 510, configured to determine a message sending scenario corresponding to a target downlink message, where the message sending scenario includes a message group sending scenario, a message interaction sending scenario, or a message trigger sending scenario;

a second determining module 520, configured to determine a message channel corresponding to the message sending scenario;

And a sending module 530, configured to send the target downlink message to a terminal through the message channel, where the message channel includes a group sending type message channel corresponding to the message group sending scene, an interaction type message channel corresponding to the message interaction sending scene, or a trigger type message channel corresponding to the message trigger sending scene.

In one implementation, the message channel corresponds to at least one message transmission queue; the sending module 530 is specifically configured to: determining a target message sending queue corresponding to the target downlink message; determining a target sending rate corresponding to the target message sending queue; and sending the target downlink message to a terminal through the target message sending queue at the target sending rate.

In one implementation, the messaging scenario is the messaging scenario; the sending module 530 is specifically configured to: determining a first target message sending queue and a first target sending rate corresponding to the account type, wherein the first target message sending queue is one message sending queue under a group sending type message channel corresponding to the message group sending scene; and sending the target downlink message to a terminal through the first target message sending queue at the first target sending rate.

In one implementation, the message sending scene is a message triggering sending scene, and the message triggering sending scene comprises a real-time notification scene and a non-real-time notification scene; the sending module 530 is specifically configured to: under the condition that the message triggering and sending scene is the non-real-time notification scene, sending the target downlink message to a terminal through a non-real-time message sending queue corresponding to the non-real-time notification scene at a second target sending rate; transmitting the target downlink message to a terminal through a real-time message transmission queue corresponding to the real-time notification scene under the condition that the message trigger transmission scene is the real-time notification scene, wherein the real-time message transmission queue is not provided with a transmission rate upper limit value; the non-real-time message sending queue and the real-time message sending queue are both message sending queues under a trigger type message channel corresponding to the message trigger sending scene.

In one implementation, the messaging scene is the messaging interaction scene; the sending module 530 is specifically configured to: the target downlink message is sent to a terminal through an interaction queue, wherein the interaction queue is not provided with a sending rate upper limit value; the interaction queue is a message sending queue under an interaction type message channel corresponding to the message interaction sending scene.

In one implementation, the sending module 530 is specifically configured to: determining the proportion of the flow control rates of the mass sending type message channel, the interaction type message channel and the triggering type message channel in the issuing area corresponding to the target downlink message, and respectively determining the alarm threshold values of the flow control rates of the mass sending type message channel, the interaction type message channel and the triggering type message channel in the issuing area; and sending the target downlink message to a terminal through the message channel corresponding to the issuing area based on the proportion of the flow control rate and the alarm threshold of the flow control rate, wherein the flow control rate is the sending rate of the target downlink message sent to the terminal through the message channel.

In one implementation, the sending module 530 is further configured to: retransmitting the target downlink message to the terminal through a short transfer queue and/or a color transfer queue under the condition that the target downlink message meets a preset condition, wherein the transmission rate of the target downlink message to the color transfer queue is set with an upper limit value, the transmission rate of the target downlink message to the short transfer queue is not set with an upper limit value, the short transfer queue is used for converting the target downlink message into a short message, and the color transfer queue is used for converting the target downlink message into a color message; the preset conditions include that the target downlink message fails to be sent and the target downlink message is allowed to be converted into a short message, and/or the preset conditions include that the target downlink message fails to be sent and the target downlink message is allowed to be converted into a multimedia message.

The device for issuing the message in the embodiment of the application can be a device, a component in a terminal, an integrated circuit or a chip. The device may be a mobile electronic device or a non-mobile electronic device. By way of example, the mobile electronic device may be a cell phone, tablet computer, notebook computer, palm computer, vehicle mounted electronic device, wearable device, ultra-mobile personal computer (ultra-mobile personal computer, UMPC), netbook or personal digital assistant (personal digital assistant, PDA), etc., and the non-mobile electronic device may be a server, network attached storage (Network Attached Storage, NAS), personal computer (personal computer, PC), television (TV), teller machine or self-service machine, etc., and embodiments of the present application are not limited in particular.

The device for issuing the message in the embodiment of the application can be a device with an operating system. The operating system may be an Android operating system, an ios operating system, or other possible operating systems, and the embodiment of the present application is not limited specifically.

The message issuing device provided by the embodiment of the present application can implement each process implemented in the method embodiments of fig. 1 to fig. 4, and in order to avoid repetition, a description is omitted here.

Optionally, as shown in fig. 6, an embodiment of the present application further provides an electronic device 600, including a processor 601, a memory 602, and a program or an instruction stored in the memory 602 and capable of running on the processor 601, where the program or the instruction implements each process of the above embodiment of the method when executed by the processor 601, and the process can achieve the same technical effect, so that repetition is avoided, and no further description is given here.

The electronic device in the embodiment of the application includes the mobile electronic device and the non-mobile electronic device.

The embodiment of the application also provides a readable storage medium, on which a program or an instruction is stored, which when executed by a processor, implements each process of the above-mentioned message issuing method embodiment, and can achieve the same technical effect, so that repetition is avoided, and no further description is provided herein.

Wherein the processor is a processor in the electronic device described in the above embodiment. The readable storage medium includes a computer readable storage medium such as a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk or an optical disk, and the like.

The embodiment of the application further provides a chip, the chip comprises a processor and a communication interface, the communication interface is coupled with the processor, the processor is used for running a program or instructions, the processes of the embodiment of the method for issuing the message can be realized, the same technical effect can be achieved, and the repetition is avoided, and the description is omitted here.

It should be understood that the chips referred to in the embodiments of the present application may also be referred to as system-on-chip chips, chip systems, or system-on-chip chips, etc.

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. Furthermore, it should be noted that the scope of the methods and apparatus in the embodiments of the present application is not limited to performing the functions in the order shown or discussed, but may also include performing the functions in a substantially simultaneous manner or in an opposite order depending on the functions involved, e.g., the described methods may be performed in an order different from that described, and various steps may be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.

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 application 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 application.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application 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 application and the scope of the claims, which are to be protected by the present application.

Claims (9)

1. A method for issuing a message, comprising:

determining a message sending scene corresponding to a target downlink message, wherein the message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene;

determining a message channel corresponding to the message sending scene;

the target downlink message is sent to a terminal through the message channel, wherein the message channel comprises a group sending type message channel corresponding to the message group sending scene, an interaction type message channel corresponding to the message interaction sending scene or a triggering type message channel corresponding to the message triggering sending scene;

the message sending scene is the message group sending scene;

the sending the target downlink message to the terminal through the message channel comprises the following steps:

determining the account type of a target account for issuing the target downlink message;

determining a first target message sending queue and a first target sending rate corresponding to the account type, wherein the first target message sending queue is one message sending queue under a group sending type message channel corresponding to the message group sending scene;

And sending the target downlink message to a terminal through the first target message sending queue at the first target sending rate.

2. The method for issuing a message according to claim 1, wherein the message channel corresponds to at least one message transmission queue; the sending the target downlink message to the terminal through the message channel comprises the following steps:

determining a target message sending queue corresponding to the target downlink message;

determining a target sending rate corresponding to the target message sending queue;

and sending the target downlink message to a terminal through the target message sending queue at the target sending rate.

3. The method for issuing a message according to claim 1 or 2, wherein the message transmission scene is a message trigger transmission scene, and the message trigger transmission scene includes a real-time notification scene and a non-real-time notification scene;

the sending the target downlink message to the terminal through the message channel comprises the following steps:

under the condition that the message triggering and sending scene is the non-real-time notification scene, sending the target downlink message to a terminal through a non-real-time message sending queue corresponding to the non-real-time notification scene at a second target sending rate;

Transmitting the target downlink message to a terminal through a real-time message transmission queue corresponding to the real-time notification scene under the condition that the message trigger transmission scene is the real-time notification scene, wherein the real-time message transmission queue is not provided with a transmission rate upper limit value;

the non-real-time message sending queue and the real-time message sending queue are both message sending queues under a trigger type message channel corresponding to the message trigger sending scene.

4. The method for issuing a message according to claim 1 or 2, wherein the message transmission scene is the message interaction transmission scene;

the sending the target downlink message to the terminal through the message channel comprises the following steps:

the target downlink message is sent to a terminal through an interaction queue, wherein the interaction queue is not provided with a sending rate upper limit value;

the interaction queue is a message sending queue under an interaction type message channel corresponding to the message interaction sending scene.

5. The method for sending the message according to claim 1, wherein the sending the target downlink message to the terminal through the message channel includes:

Determining the proportion of the flow control rates of the mass sending type message channel, the interaction type message channel and the triggering type message channel in the issuing area corresponding to the target downlink message, and respectively determining the alarm threshold values of the flow control rates of the mass sending type message channel, the interaction type message channel and the triggering type message channel in the issuing area;

and sending the target downlink message to a terminal through the message channel corresponding to the issuing area based on the proportion of the flow control rate and the alarm threshold of the flow control rate, wherein the flow control rate is the sending rate of the target downlink message sent to the terminal through the message channel.

6. The method for sending a message according to claim 1, further comprising, after said sending the target downlink message to the terminal through the message channel:

retransmitting the target downlink message to the terminal through a short transfer queue and/or a color transfer queue under the condition that the target downlink message meets a preset condition, wherein the transmission rate of the target downlink message to the color transfer queue is set with an upper limit value, the transmission rate of the target downlink message to the short transfer queue is not set with an upper limit value, the short transfer queue is used for converting the target downlink message into a short message, and the color transfer queue is used for converting the target downlink message into a color message;

The preset conditions include that the target downlink message fails to be sent and the target downlink message is allowed to be converted into a short message, and/or the preset conditions include that the target downlink message fails to be sent and the target downlink message is allowed to be converted into a multimedia message.

7. A message issuing apparatus, comprising:

the first determining module is used for determining a message sending scene corresponding to the target downlink message, wherein the message sending scene comprises a message group sending scene, a message interaction sending scene or a message triggering sending scene;

the second determining module is used for determining a message channel corresponding to the message sending scene;

the sending module is used for sending the target downlink message to the terminal through the message channel, wherein the message channel comprises a group sending type message channel corresponding to the message group sending scene, an interaction type message channel corresponding to the message interaction sending scene or a triggering type message channel corresponding to the message triggering sending scene;

the message sending scene is the message group sending scene;

the sending module is specifically configured to determine an account type of a target account for issuing the target downlink message;

Determining a first target message sending queue and a first target sending rate corresponding to the account type, wherein the first target message sending queue is one message sending queue under a group sending type message channel corresponding to the message group sending scene;

and sending the target downlink message to a terminal through the first target message sending queue at the first target sending rate.

8. An electronic device comprising a processor, a memory and a program or instruction stored on the memory and executable on the processor, which when executed by the processor, implements the steps of the message issuing method according to any of claims 1-6.

9. A readable storage medium, characterized in that the readable storage medium has stored thereon a program or instructions which, when executed by a processor, implement the steps of the message issuing method according to any of claims 1-6.