CN106921717B - Message pushing method and system based on mobile terminal - Google Patents

Abstract

The invention discloses a message pushing system and a message pushing method based on a mobile terminal, which are used for solving the problems of complicated pushing program and low working efficiency caused by the fact that message pushing is completed through a pushing server in the prior art. The message pushing system based on the mobile terminal comprises the mobile sending terminal, an infrastructure platform and a user terminal, wherein the infrastructure platform and the user terminal are represented by a pushing server, the mobile sending terminal is a main body of message pushing, the message pushing is initiated and edited on the mobile terminal, and the infrastructure platform plays a role of a medium, so that the message pushing is carried out on the user terminal, the usability and the practicability of the pushing service are greatly improved, the development, the use and the maintenance processes of a pushing program are simplified, the message pushing can be completed without the pushing server, the operation and maintenance personnel are reduced, and the development and maintenance cost is saved.

Description

Message pushing method and system based on mobile terminal

Technical Field

The invention belongs to the technical field of network communication, and particularly relates to a message pushing method and system based on a mobile terminal.

Background

With the continuous development of communication technology and the continuous popularization of mobile terminal devices, the demand for various mobile internet applications and services has also sharply increased. The push service has been widely adopted as a service for actively sending a message of interest to a user to the user on a purposeful basis, on time or in time according to the user's needs.

In the prior art, most of the push services are based on servers. Based on the push service of the server, on one hand, the information management and the timely push of the server side enable the intelligent terminal not to need to poll the network, and the purpose of saving electricity is achieved; on the other hand, the push of the communication information flow enables the user to be informed in real time without missing information, and the trouble of manually opening the application to pull and refresh the content is also saved. Meanwhile, the push technology can realize the filtering and integration of the messages while automatically transmitting the messages to the users, and helps the users to efficiently discover valuable or important information.

However, the server-based push service has a disadvantage that the server-based push service cannot overcome the disadvantage. For example, when an outsider needs to push a new message to a large number of clients, the push can be implemented only by contacting the server maintainer. Therefore, the service process is inevitably increased, and the working efficiency is reduced.

Disclosure of Invention

The embodiment of the invention aims to provide a message pushing method and a message pushing system based on a mobile terminal.

According to an aspect of the present invention, there is provided a message push system based on a mobile terminal, the system including: a mobile transmitting terminal, an infrastructure platform; wherein,

the mobile transmitting terminal is connected with the basic structure platform, and the basic structure platform is connected with the user terminal;

the mobile sending terminal is used for initiating a push message, editing the push message and transmitting the initiating message and the edited push message main body to an infrastructure platform; the infrastructure platform is configured to receive the initiation information and a push message body, and to store, and/or delete, and/or convert, and/or send the push message.

In the above solution, the mobile sending terminal includes: the system comprises a project management module, a right management module, a message encryption module, a target client grouping module and a message sending and receiving module; wherein,

the project management module is used for creating projects by filling in project names and sending the filled project names to the infrastructure platform; and the mobile terminal is used for obtaining a creation authority and creating the item of the filled name under the condition that an infrastructure platform confirms that the item name is new, and generating the mobile terminal item ID and returning the mobile terminal item ID;

the authority management module has a dual mode based on equipment hardware and software encryption, and is used for binding the item and the hardware equipment after the item management module creates the item, and generating a unique software ID based on a software version, a hardware parameter and a time parameter;

the message encryption module is used for encrypting all transmission contents of the project management module and the authority management module;

the target client grouping module is used for selecting one or more of a broadcasting mode, a multicasting mode and a unicasting mode according to the characteristics of the push message and the type of the user and transmitting the selected mode command to the message sending and receiving module;

the message sending and receiving module is used for sending the push message and the selected push mode to the infrastructure platform based on a bidirectional full-duplex information interaction mode with the infrastructure platform; and for receiving feedback information for the infrastructure platform.

In the above solution, the infrastructure platform includes: the system comprises a platform authority management module, a message management module, a sending management module, a task planning module and a result counting module; wherein,

the platform authority management module is used for storing equipment information when the mobile sending terminal creates a project, verifying the equipment information when a push message is sent, and checking whether the message sending authority and the receiving object authority of the mobile sending terminal are matched;

the message management module is used for setting off-line message storage time, deleting expired messages and converting messages in different formats into messages in standard formats;

the sending management module is used for setting the sending module according to the sending mode and sending the push message with the standard format to all the user terminals according to the setting mode; the device is used for receiving subscription information sent by a user terminal;

the task planning module is used for setting the time, the appointed sending time and the sending frequency of the message pushing system by taking one of second, minute, hour, day and week as a unit, executing the customization steps required by the service logic in different applications in a system background, and then sending out the pushing message;

the result counting module is used for counting and recording the total number of the push messages and the receiving state of the user terminal, and regularly returning the counting information to the mobile sending terminal sending the corresponding push messages.

In the above scheme, the message encryption module encrypts the transmission content based on the advanced encryption standard, and the transmission contents of different items are encrypted by using different passwords.

In the above scheme, the result statistics module is further configured to perform basic statistics and push statistics on the push message; wherein,

the base statistics include: counting the accumulated terminal number of the clients which activate the push server until a certain time; counting the number of newly added terminals which interact with the push server for the first time and generate the number of the clients of the channel ID and the user ID; counting the number of online terminals which are in long connection with the push server and have the number of clients;

the push statistics include: counting the pushing quantity of the combined pushing message quantity of the broadcasting mode, the multicasting mode and the unicasting mode; and counting the receiving rate of the number of the push messages received by the client.

According to another aspect of the present invention, there is also provided a message pushing method based on a mobile terminal, the method including the steps of:

step S1, initiating a push message project at the mobile sending terminal, and sending the initiated push message project to the infrastructure platform;

step S2, the basic structure platform checks and confirms the initiated push message item, when the push message item is unique, the mobile sending terminal is authorized to create the item; when the push message item is not unique, returning unqualified item information to the mobile sending terminal;

step S3, when obtaining the creating project authorization of the basic structure platform, creating a project according to the initiated push message project and generating a project ID, editing the push message, and sending the push message to the basic structure platform;

step S4, the infrastructure platform receives the push message of the mobile sending terminal, and stores, and/or deletes, and/or converts, and/or sends the push message.

In the foregoing scheme, the step S1 further includes: initiating a push message project by inputting a project name at a mobile sending terminal, and sending the project name to the infrastructure platform by adopting an HTTP (hyper text transport protocol);

the step S3 further includes:

step S301, acquiring a Unique Device Identifier (UDID) of the mobile sending terminal, and calculating the software ID of the mobile sending terminal according to the mobile platform, the software version and the system timestamp;

step S302, an HTTP transmission protocol is adopted, and the software ID, the equipment UDID and the item ID are sent to an infrastructure platform to serve as the basis of authority management;

step S303, editing the push message, wherein the push message cannot exceed the maximum length of a single push message and is compatible with text and binary message formats;

step S304, adopting an AES 256 encryption algorithm, and encrypting the push message by using the item name or the item ID as an encryption password;

step S305, selecting one of broadcast transmission, multicast transmission and unicast transmission as the push mode of the current message;

step S306, an HTTP transmission protocol is adopted, and the project ID, the software ID and the equipment UDID are sent to an infrastructure platform;

and step S307, establishing a connection to the infrastructure platform by adopting a Websocket protocol mode, and sending a push message and a push mode to the infrastructure platform.

In the foregoing scheme, the step S4 further includes:

step S401, after step S302 and before step S303, the infrastructure platform performs permission verification on the received software ID, device UDID and item ID, and after the permission verification is successful, the mobile transmitting terminal is allowed to execute step S303 and subsequent operations; if the verification fails, the equipment is locked and marked, and the illegal equipment is prevented from accessing the system;

step S402, after step S307, the infrastructure platform saves the push message;

step S403, converting the messages with different formats into messages with standard formats;

step S404, setting the time, the appointed sending time and the sending frequency of the message pushing system by taking one of second, minute, hour, day and week as a unit, and executing the customization steps required by the service logic in different applications in the system background;

step S405, sending out push messages according to the set time and the set mode.

In the foregoing solution, the step S4 further includes:

step S406, deleting the expired message according to the set offline message storage time;

step S407, counting and recording the push message and the receiving state of the user terminal, and periodically returning the counting information to the mobile sending terminal sending the corresponding push message.

In the above scheme, the statistical information includes basic statistical information and push statistical information; wherein,

the basic statistical information includes: the accumulated terminal number of the clients which activate the push server at a certain time; interacting with a push server for the first time and generating the number of newly added terminals of the number of clients of channel ID and user ID; the number of the online terminals which are long-connected with the push server is the number of the clients;

the pushing statistical information comprises: the broadcast mode, the multicast mode and the unicast mode are combined with the push quantity of the push message quantity; the receiving rate of the number of the push messages received by the client. It can be seen from the above embodiments that the message pushing system based on the mobile terminal of the embodiment of the present invention includes the mobile sending terminal, the infrastructure platform represented by the pushing server, and the user terminal, where the mobile sending terminal is a main body of message pushing, and initiates and edits the pushing message on the mobile terminal, and the infrastructure platform plays a role of a medium, so as to push the message to the user terminal, greatly improve the usability and practicability of the pushing service, simplify the development, use, and maintenance processes of the pushing program, and complete the message pushing without the pushing server, thereby reducing the operation and maintenance personnel, and saving the development and maintenance costs.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a mobile terminal-based message push system according to a first embodiment of the present invention;

fig. 2 is a schematic internal structure diagram of an infrastructure platform of a message push system according to a first embodiment of the present invention;

fig. 3 is a flowchart of a message push method based on a mobile terminal according to a second embodiment of the present invention;

fig. 4 is a flowchart of a message pushing method based on a mobile terminal according to a second embodiment of the present invention.

Detailed Description

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or coupled. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The embodiments of the present invention will be described in detail below to facilitate understanding of the embodiments of the present invention, and the embodiments described by referring to the drawings are exemplary only for the purpose of explaining the present invention and are not to be construed as limiting the present invention.

Fig. 1 is a schematic structural diagram of a message push system based on a mobile terminal according to a first embodiment of the present invention.

As shown in fig. 1, the message push system based on a mobile terminal according to the present embodiment includes: a mobile transmitting terminal 1, an infrastructure platform 2; wherein, the mobile transmitting terminal 1 is connected with the basic structure platform 2.

Preferably, the push system may further include a user terminal 3, and the infrastructure platform 2 is connected to the user terminal 3.

The mobile sending terminal 1 is used for initiating a push message, editing the push message, and transmitting the initiation information and the edited push message body to the infrastructure platform 2; namely, the message pushing system is used as the main body of the whole message pushing system, and the structure taking the pushing server as the main body in the prior art is replaced, so that the message pushing is not limited by the pushing server.

It should be noted that the mobile sending terminal herein may further have other functions of optimizing the message pushing process, such as obtaining the project creation authority by a verification method, encrypting the pushed message, and the like.

The infrastructure platform 2 may use a push server, or may use other servers in communication to accomplish this function. The infrastructure platform 2 here is arranged for receiving the initiation information and the push message body and for saving, and/or deleting, and/or converting, and/or sending the push message.

Corresponding to the mobile sending terminal, the infrastructure platform herein may also have optimization functions of verifying the project, assigning the project creation authority, managing push messages, and the like, so as to better implement message push.

The user terminal 3 is configured to receive the push message. The user terminal 3 may also select or customize the message push according to its own needs.

This embodiment will be described in detail with reference to fig. 2 in the first embodiment.

The message pushing system based on the mobile terminal of the embodiment comprises: the system comprises a mobile sending terminal and a push server.

The mobile transmission terminal includes: the system comprises a project management module, a right management module, a message encryption module, a target client grouping module and a message sending and receiving module; wherein,

the project management module is used for creating projects by filling in project names and sending the filled project names to the infrastructure platform; and the mobile terminal is used for obtaining the creation authority and creating the item filling the name under the condition that the infrastructure platform confirms that the item name is new, and simultaneously generating the mobile terminal item ID and returning the mobile terminal item ID.

The right management module has a double strict mode based on equipment hardware and software encryption, and is used for binding the item and the hardware equipment after the item management module creates the item, and generating a unique software ID based on a software version, a hardware parameter and a time parameter, so that an unauthorized terminal cannot send illegal messages.

The message encryption module is used for encrypting all transmission contents of the project management module and the authority management module; based on the Advanced Encryption Standard (AES), different items use different passwords to encrypt and decrypt the transmitted message. Preferably, the message encryption module encrypts the transmission content based on a high-level encryption standard, and the transmission content of different items is encrypted by using different passwords.

The target client grouping module is used for selecting one or more of a broadcasting mode, a multicasting mode and a unicasting mode according to the characteristics of the push message and the type of the user and transmitting the selected mode command to the message sending and receiving module. The three transmission methods may be referred to as total transmission (broadcast), packet transmission (multicast), and single transmission (unicast) in this order. The broadcasting mode is suitable for pushing messages to all terminal users with the same application ID; the multicast mode is suitable for a plurality of grouped user sets meeting specific conditions, and different message contents are respectively pushed to different groups; the unicast approach is suitable for pushing specific message content to a certain user of a certain application.

The message sending and receiving module is used for sending the push message and the selected push mode to the infrastructure platform based on a bidirectional full-duplex information interaction mode with the infrastructure platform; and for receiving feedback information for the infrastructure platform. Due to the complexity of the network in the process of pushing the message to the client, the inevitable delay and failure possibility exist, so that the server can actively send the pushing result to the mobile terminal without the need of the terminal to initiate frequent queries.

Accordingly, the infrastructure platform comprises: the system comprises a platform authority management module, a message management module, a sending management module, a task planning module and a result counting module. Fig. 2 is a schematic internal structure diagram of an infrastructure platform of a message push system according to a first embodiment of the present invention.

As shown in fig. 2, the platform right management module is used for storing device information when the mobile sending terminal creates an item, verifying the device information when a push message is sent, and checking whether the sending information right and the receiving object right of the mobile sending terminal are matched. Specifically, the platform authority management module comprehensively verifies whether the equipment allows to send the push message according to the created project and a plurality of ID information sent by the mobile terminal; multiple authorities, such as multicast authorities, can be created according to business requirements, and push messages can be sent only aiming at the client of a specific member; in addition, when the client is bound with the push server for the first time to establish a binding relationship, a channel ID and a user ID are established for the client, wherein the channel ID is used for distinguishing a client hardware device, such as an iPhone mobile phone; the user ID is used for distinguishing users, one application can belong to the same user by a plurality of terminals, and the user ID can be matched to uniquely designate a specific client of the application.

The message management module is used for storing push message content, setting off-line message storage time, deleting expired messages and converting messages with different formats into messages with standard formats, so that the format conversion of the push messages is completed, and the mobile terminal can send the messages to a plurality of mainstream mobile platform devices by using a uniform format.

The sending management module is used for setting the sending module according to the sending mode and sending the push message with the standard format to all the user terminals according to the setting mode; and is used for receiving the subscription information sent by the user terminal. Specifically, the server maintains a long connection established by the client and the server, and when a message needing to be pushed exists, the pushing server actively sends the pushing message to the client without polling of the client, so that a large amount of bandwidth is saved and the efficiency is improved; meanwhile, the push server provides three push modes: broadcast, multicast, unicast, according to the transmission mode appointed by the mobile terminal, adopt real-time or timing transmission mode.

The task planning module executes the designated background operation in a timing or polling mode, and can access a third-party service, such as page grabbing, Webservice interface data acquisition and the like. Specifically, the task planning module sets the time, the designated sending time and the sending frequency of the message pushing system in units of one of seconds, minutes, hours, days and weeks, and is used for executing customization steps required by business logic in different applications in a system background and then sending out the pushing message.

The result counting module is used for counting and recording the total number of the push messages and the receiving state of the user terminal, and regularly returning the counting information to the mobile sending terminal sending the corresponding push messages, so that the mobile sending terminal can timely and accurately know the push results. Specifically, the result counting module performs basic counting and pushing counting on the pushing message; wherein,

the base statistics include:

accumulating the number of terminals: the number of clients activating the push server by a certain time;

the number of the newly added terminals is the number of the clients which interact with the push server for the first time and generate channel IDs and user IDs;

the number of online terminals: the number of clients in long connection with the push server;

the push statistics include:

the pushing quantity is as follows: the method refers to the quantity of the merged push messages of three push modes (broadcast, multicast and unicast);

the receiving rate is as follows: the client receives the number of push messages.

The message pushing system based on the mobile terminal comprises the mobile sending terminal, an infrastructure platform and a user terminal, wherein the infrastructure platform and the user terminal are represented by a pushing server, the mobile sending terminal is a main body of message pushing, the pushing message is initiated and edited on the mobile terminal, the infrastructure platform plays a role of a medium, and therefore the message pushing is carried out on the user terminal, the usability and the practicability of the pushing service are greatly improved, the development and the use and maintenance processes of a pushing program are simplified, the message pushing can be completed without the pushing server, operation and maintenance personnel are reduced, and the development and maintenance cost is saved.

Fig. 3 is a flowchart of a message pushing method based on a mobile terminal according to a second embodiment of the present invention.

As shown in fig. 3, the message pushing method based on the mobile terminal according to the embodiment includes the following steps:

step S1, initiating a push message project at the mobile sending terminal, and sending the initiated push message project to the infrastructure platform;

step S2, the basic structure platform checks and confirms the initiated push message item, when the push message item is unique, the mobile sending terminal is authorized to create the item; when the push message item is not unique, returning unqualified item information to the mobile sending terminal;

step S3, when obtaining the creating project authorization of the basic structure platform, creating a project according to the initiated push message project and generating a project ID, editing the push message, and sending the push message to the basic structure platform;

step S4, the basic structure platform receives the push message of the mobile sending terminal, and stores, deletes, converts and/or sends the push message;

and step S5, the user terminal receives the push message.

This embodiment will be described in detail below with reference to a second example.

Fig. 4 is a flowchart of a message pushing method based on a mobile terminal according to a second embodiment of the present invention.

As shown in fig. 4, the message pushing method based on the mobile terminal according to the embodiment includes the following specific processes:

in step S201, the user inputs the project name into the mobile terminal and creates a new project. Preferably, the project names can only use English letters and numbers, a point naming method is adopted, generally, the project names are developer types, developers and application names, and the package name repetition can be effectively avoided.

Step S202, an HTTP transmission protocol is adopted, the project name is sent to the push server to check whether the project name is unique, if the project name is unique, the project ID created by the server is returned, otherwise, failure information is returned, the step S201 is carried out, and the user is prompted to input the project again.

Step S203, acquiring an item ID;

step S204, acquiring a Unique Device Identifier (UDID) of the mobile sending terminal;

step S205, calculating the software ID of the mobile terminal according to the mobile platform, the software version and the system time stamp;

step S206, an HTTP transmission protocol is adopted, and the software ID, the equipment UDID and the item ID are sent to a push server to serve as the basis of authority management; here, the software ID, the device UDID, and the item ID are sent to the infrastructure platform, which is a handshake between the mobile sending terminal and the infrastructure platform or the message push server, for verifying whether the mobile sending terminal is legitimate;

step S207, editing the push content; preferably, the push content cannot exceed the maximum length of a single push message, and is compatible with text and binary message formats;

step S208, adopting an AES 256 encryption algorithm, and encrypting the push content by using the item name or the item ID as an encryption password;

step S209, selecting one of the three push modes of all transmission (broadcast), grouping transmission (multicast) and single transmission (unicast) as the push mode of the current message; the broadcast mode sends the same push message for all clients of the same application; before the multicast mode is sent, a client subscribes a channel message to a push server or the push server appoints to subscribe the channel message; a unicast mode pushes a message to a specific terminal;

step S210, an HTTP transmission protocol is adopted, and the item ID, the software ID and the equipment UDID are sent to a push server; this step is the same as the operation of step S206, except that the sending of the item ID, the software ID and the device UDID at this time is for the purpose of finally sending a push message to the user terminal, which is different from the step S302;

step S211, the push server checks the authority of the message transmitted in the previous step, and after the check is successful, the push terminal is allowed to execute step S213; if the verification fails, go to step S212;

step S212, locking and marking the equipment, and avoiding illegal equipment from accessing the system;

step S213, returning the information of successful verification and starting S214;

step S214, establishing connection to a push server by adopting a Websocket protocol mode;

step S215, sending the push message and the push mode to the server, wherein the server stores the push message and sends the push message according to the set time, and meanwhile, counting the push result. Because the full duplex communication is realized between the mobile terminal and the server, the periodic polling is not needed, a large amount of network flow and bandwidth are saved,

step S216, waiting for the push server to return the push statistical result, actively sending the push result to the mobile terminal, knowing the push effect at the first time, executing step S217, and simultaneously turning to step S207;

step S217, mark the end of the one-time pushing process.

In the message pushing method based on the mobile terminal of the embodiment, a message pushing project is initiated at a mobile sending terminal, and the initiated message pushing project is sent to an infrastructure platform; then the basic structure platform examines and confirms the initiated push message project, authorizes the mobile sending terminal to create the project, creates the project, edits the push message and sends the push message to the basic structure platform; the infrastructure platform receives the push message of the mobile sending terminal, and the push message is stored, and/or deleted, and/or converted, and/or sent, counted and the like, on the basis, the user terminal receives the push message, so that the message is pushed to the user terminal, the usability and the practicability of the push service are greatly improved, the development, use and maintenance processes of a push program are simplified, the message push can be completed without a push server, operation and maintenance personnel are reduced, and the development and maintenance cost is saved.

From the above description of the embodiments, it is clear to those skilled in the art that the present invention can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which may be stored in a storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments or some parts of the embodiments.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for apparatus or system embodiments, since they are substantially similar to method embodiments, they are described in relative terms, as long as they are described in partial descriptions of method embodiments. The above-described embodiments of the apparatus and system are merely illustrative, and the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A message push system based on a mobile terminal, the system comprising: a mobile transmitting terminal, an infrastructure platform; wherein,

the mobile transmitting terminal is connected with the basic structure platform, and the basic structure platform is connected with the user terminal;

the mobile sending terminal is used for initiating a push message, editing the push message and transmitting the initiating message and the edited push message main body to an infrastructure platform; the infrastructure platform is used for receiving the initiation information and the push message body, and storing, and/or deleting, and/or converting, and/or sending the push message;

the mobile transmission terminal includes: the system comprises a project management module, a right management module, a message encryption module, a target client grouping module and a message sending and receiving module; wherein,

the project management module is used for creating projects by filling in project names and sending the filled project names to the infrastructure platform; and the mobile terminal is used for obtaining a creation authority and creating the item of the filled name under the condition that an infrastructure platform confirms that the item name is new, and generating the mobile terminal item ID and returning the mobile terminal item ID;

the authority management module has a dual mode based on equipment hardware and software encryption, and is used for binding the item and the hardware equipment after the item management module creates the item, and generating a unique software ID based on a software version, a hardware parameter and a time parameter;

the message encryption module is used for encrypting all transmission contents of the project management module and the authority management module;

the target client grouping module is used for selecting one or more of a broadcasting mode, a multicasting mode and a unicasting mode according to the characteristics of the push message and the type of the user and transmitting the selected mode command to the message sending and receiving module;

the message sending and receiving module is used for sending the push message and the selected push mode to the infrastructure platform based on a bidirectional full-duplex information interaction mode with the infrastructure platform; and for receiving feedback information for the infrastructure platform.

2. The message push system of claim 1, wherein the infrastructure platform comprises: the system comprises a platform authority management module, a message management module, a sending management module, a task planning module and a result counting module; wherein,

the platform authority management module is used for storing equipment information when the mobile sending terminal creates a project, verifying the equipment information when a push message is sent, and checking whether the message sending authority and the receiving object authority of the mobile sending terminal are matched;

the message management module is used for setting off-line message storage time, deleting expired messages and converting messages in different formats into messages in standard formats;

the sending management module is used for setting the sending module according to the sending mode and sending the push message with the standard format to all the user terminals according to the setting mode; the device is used for receiving subscription information sent by a user terminal;

the task planning module is used for setting the time, the appointed sending time and the sending frequency of the message pushing system by taking one of second, minute, hour, day and week as a unit, executing the customization steps required by the service logic in different applications in a system background, and then sending out the pushing message;

the result counting module is used for counting and recording the total number of the push messages and the receiving state of the user terminal, and regularly returning the counting information to the mobile sending terminal sending the corresponding push messages.

3. The message pushing system of claim 2, wherein the message encryption module encrypts the transmission content based on a high-level encryption standard, and wherein different items of transmission content are encrypted with different passwords.

4. The message pushing system according to claim 2 or 3, wherein the result statistics module is further configured to perform basic statistics and pushing statistics on the pushed message; wherein,

the base statistics include: counting the accumulated terminal number of the clients which activate the push server until a certain time; counting the number of newly added terminals which interact with the push server for the first time and generate the number of the clients of the channel ID and the user ID; counting the number of online terminals which are in long connection with the push server and have the number of clients;

the push statistics include: counting the pushing quantity of the combined pushing message quantity of the broadcasting mode, the multicasting mode and the unicasting mode; and counting the receiving rate of the number of the push messages received by the client.

5. A message pushing method based on a mobile terminal is characterized by comprising the following steps:

step S1, initiating a push message project at the mobile sending terminal, and sending the initiated push message project to the infrastructure platform;

step S2, the basic structure platform checks and confirms the initiated push message item, when the push message item is unique, the mobile sending terminal is authorized to create the item; when the push message item is not unique, returning unqualified item information to the mobile sending terminal;

step S3, when obtaining the creating project authorization of the basic structure platform, creating a project according to the initiated push message project and generating a project ID, editing the push message, and sending the push message to the basic structure platform;

step S4, the basic structure platform receives the push message of the mobile sending terminal, and stores, deletes, converts and/or sends the push message;

the step S1 further includes: initiating a push message project by inputting a project name at a mobile sending terminal, and sending the project name to the infrastructure platform by adopting an HTTP (hyper text transport protocol);

the step S3 further includes:

step S301, acquiring a device UDID of the mobile transmitting terminal, and calculating the software ID of the mobile transmitting terminal according to the mobile platform, the software version and the system timestamp;

step S302, an HTTP transmission protocol is adopted, and the software ID, the equipment UDID and the item ID are sent to an infrastructure platform to serve as the basis of authority management;

step S303, editing the push message, wherein the push message cannot exceed the maximum length of a single push message and is compatible with text and binary message formats;

step S304, adopting an AES 256 encryption algorithm, and encrypting the push message by using the item name or the item ID as an encryption password;

step S305, selecting one of broadcast transmission, multicast transmission and unicast transmission as the push mode of the current message;

step S306, an HTTP transmission protocol is adopted, and the project ID, the software ID and the equipment UDID are sent to an infrastructure platform;

and step S307, establishing a connection to the infrastructure platform by adopting a Websocket protocol mode, and sending a push message and a push mode to the infrastructure platform.

6. The message pushing method of claim 5,

the step S4 further includes:

step S401, after step S302 and before step S303, the infrastructure platform performs permission verification on the received software ID, device UDID and item ID, and after the permission verification is successful, the mobile transmitting terminal is allowed to execute step S303 and subsequent operations; if the verification fails, the equipment is locked and marked, and the illegal equipment is prevented from accessing the system;

step S402, after step S307, the infrastructure platform saves the push message;

step S403, converting the messages with different formats into messages with standard formats;

step S404, setting the time, the appointed sending time and the sending frequency of the message pushing system by taking one of second, minute, hour, day and week as a unit, and executing the customization steps required by the service logic in different applications in the system background;

step S405, sending out push messages according to the set time and the set mode.

7. The message pushing method according to claim 6, wherein the step S4 further comprises:

step S406, deleting the expired message according to the set offline message storage time;

step S407, counting and recording the push message and the receiving state of the user terminal, and periodically returning the counting information to the mobile sending terminal sending the corresponding push message.

8. The message pushing method according to claim 7, wherein the statistical information comprises basic statistical information and pushing statistical information; wherein,

the basic statistical information includes: the accumulated terminal number of the clients which activate the push server at a certain time; interacting with a push server for the first time and generating the number of newly added terminals of the number of clients of channel ID and user ID; the number of the online terminals which are long-connected with the push server is the number of the clients;

the pushing statistical information comprises: the broadcast mode, the multicast mode and the unicast mode are combined with the push quantity of the push message quantity; the receiving rate of the number of the push messages received by the client.

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