CN114928647B - Application program pushing system and method based on big data - Google Patents

Abstract

The invention discloses an application program pushing system and method based on big data, which comprises a pushing chain building module, a pushing chain pushing module and a pushing chain pushing module, wherein the pushing chain building module is used for building a pushing chain of an application program; the program storage module is used for selecting a push server in a push chain in the characteristic sequence to store the push program data; the push program disguising module is used for disguising the push program data and generating a disguising file; the push module is used for extracting push program data in the push server and pushing the user, complexity and variability of a push chain can be guaranteed by arranging the push server according to the characteristic sequence, the phenomenon that the push chain is too simple and broken to cause data loss or falsification is avoided, and similarly, a push chain model can be obtained by arranging the push chain according to the characteristic sequence, so that hardware can be conveniently realized.

Description

Application program pushing system and method based on big data

Technical Field

The invention relates to the technical field of application program pushing, in particular to an application program pushing system and method based on big data.

Background

With the development of the internet, users use more and more terminal devices to browse various types of information, with the development of the market and the development of technology, more and more terminal devices having the same functional attributes have different application programs, but the terminal devices having the same functional attributes have different application programs, and because of the difference in design, users have different usage feelings, and meanwhile, the terminal devices can actively search for messages and actively push messages to the users, for example, a plurality of target applications have a message pushing function (receiving messages pushed to the applications by a server), for example, weather applications can push weather information according to weather changes, news applications can regularly push news information, but in the prior art, the pushing of the application programs is often only stored in a specific server and triggered to push under a preset condition, but it cannot be guaranteed that the pushing cannot be hijacked, and the pushed content is modified.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. To this end, an object of the present invention is to provide a big data based application pushing system, including:

the push chain construction module is used for constructing a push chain of the application program;

the program storage module is used for selecting a push server in a push chain in the characteristic sequence to store the push program data;

the push program disguising module is used for disguising the push program data and generating a disguising file;

and the pushing module is used for extracting pushing program data in the pushing server and pushing the pushing program data to the user.

Further, the push chain building module for building the product push chain includes:

selecting a first node server and a second node server in a preset server, wherein the first node server and the second node server are both used for storing a first sending node and a first receiving node of push program data;

selecting a server between a first node server and a second node server as a push server, wherein the push server is used for storing push program data and a second receiving node and a second sending node of the push program data;

the time of the second receiving node is longer than that of the first sending node, and the time of the second sending node is longer than that of the first sending node;

the push servers are arranged according to the characteristic sequence, and are connected with the first node server and the second node server end to end respectively.

Further, the pushing server arranges according to the characteristic sequence, including:

acquiring a feature code of a push server, wherein the feature code comprises a service provider code, an IP code and an attribution code of the push server;

randomly connecting push servers with the same preset longitudinal options in the feature codes to form a longitudinal chain, wherein the push servers positioned at the head and the tail in the longitudinal chain are not connected with each other;

randomly connecting push servers with the same preset transverse options in the feature codes to form a transverse chain, wherein the push servers positioned at the head and the tail in the transverse chain are respectively connected with a first node server and a second node server;

the preset longitudinal option comprises one of a preset service provider code, a preset IP code and a preset home code, and the preset transverse option comprises one of the preset service provider code, the preset IP code and the preset home code.

Further, the program storage module is used for selecting a pushing server on a product pushing chain in the feature sequence to store the pushing program data, and the program storage module comprises:

when the first node server stores the push program data, acquiring a first sending node of the first node server;

sequentially sending the push program data on a push chain with a characteristic sequence;

when the push program data is transmitted to the second node server, a first receiving node of the second node server is obtained;

and selecting a push server corresponding to any second receiving node between the first sending node and the first receiving node as a target push server, and storing push program data.

Further, selecting a push server corresponding to any second receiving node between the first sending node and the first receiving node as a target push server, and storing push program data comprises:

acquiring a vertical chain to which a push server corresponding to the second receiving node belongs, and marking all push servers in the vertical chain as preset push servers;

and acquiring a pushing value of a preset pushing server, and selecting the preset pushing server with the largest pushing value as a target pushing server.

Further, acquiring the push value of the preset push server includes:

acquiring favorite options of the pushed program data, wherein the favorite options comprise a preset service provider code, a preset IP code and a preset attribution code;

acquiring the total number of stored bytes and the total number of available bytes of a preset push server, wherein if the ratio of the total number of the available bytes to the total number of the stored bytes is greater than 80%, the storage adjustment coefficient is 0.8;

if the ratio of the total number of the usable bytes to the total number of the stored bytes is more than 50% and less than 80%, the storage adjustment coefficient is 0.65;

if the ratio of the total number of the usable bytes to the total number of the stored bytes is less than 50% and more than 15%, the storage adjustment coefficient is 0.25;

if the ratio of the total number of the usable bytes to the total number of the stored bytes is less than 15%, the storage adjustment coefficient is 0;

and acquiring the total number of bytes of the push program data, and obtaining a push value by multiplying the product of the ratio of the total number of bytes of the push program data to the total number of available bytes of the preset push server and the storage regulation coefficient, wherein if the preference option of the push program data is the same as the longitudinal option of the preset push server, the push value is multiplied by 1.5.

Further, the pushing program disguising module is configured to disguise the pushing program data and generate a disguised file, and includes:

acquiring a push server which generates a second sending node and a second receiving node outside a target push server, and marking the push server as a puzzlement push server, wherein the puzzlement push server simultaneously stores the second sending node and the second receiving node;

acquiring push program data, selecting any byte section and injecting characteristic characters, wherein the push program data injected with the characteristic characters are marked as disguised files, and the disguised files are stored in a confusion push server to complete confusion processing.

Further, obfuscating data is associated with the push program data, and when the push program data is deleted, the obfuscating data is deleted as well;

the total number of bytes of the obfuscation data is the same as that of the pushed program data, and the signatures and attributes of the obfuscation data and the pushed program data are the same.

Further, the pushing module is configured to extract pushing program data in the pushing server to push the user, including:

and sending the longitudinal option and the push value of the target push server to a terminal of the user, accessing the target push server with the same longitudinal option and push value by the terminal of the user, and extracting push program data in the target push server.

On the other hand, another object of the present invention is to provide a method for pushing an application based on big data, including:

constructing a push chain of an application program;

selecting a push server in a push chain in the characteristic sequence to store push program data;

selecting a target push server in the push server according to the push value;

carrying out disguise processing on push program data in other push servers except the target push server in the push chain, and generating a disguise file;

and sending the longitudinal option and the push value of the target push server to a terminal of the user, accessing the target push server with the same longitudinal option and push value by the terminal of the user, and extracting push program data in the target push server.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will not be described in detail herein.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a block flow diagram according to an embodiment of the invention;

FIG. 2 is a schematic diagram of a method according to an embodiment of the invention;

FIG. 3 is a schematic diagram of a push server according to an embodiment of the present invention;

fig. 4 is a schematic view of a vertical chain according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

In the description of the invention, "a first feature" or "a second feature" may include one or more of the features, "a plurality" means two or more, the first feature may be "on" or "under" the second feature, including the first and second features being in direct contact, or may include the first and second features not being in direct contact but being in contact through another feature therebetween, and the first feature being "on", "above" and "above" the second feature may include the first feature being directly above and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature.

A big data based application pushing system and method according to an embodiment of the present invention will be described with reference to the accompanying drawings;

referring to fig. 1-4, embodiments according to the present invention may include:

the server comprises a push chain construction module, wherein the push chain construction module is used for constructing a push chain of an application program, and when the server is specifically implemented, a first node server and a second node server are selected from preset servers, wherein the servers can be big data servers or block chain servers, and the servers are not limited.

The first node server and the second node server are used for storing a first sending node and a first receiving node of the push program data, and the first node server and the second node server are only used as places for recording the data flow information of the push program data, so that the first node server and the destination tracing do not have a data storage function.

Selecting a first node server and a second node server in a preset server, wherein the first node server and the second node server are both used for storing a first sending node and a first receiving node of push program data; selecting a server between a first node server and a second node server as a push server, wherein the push server is used for storing push program data and a second receiving node and a second sending node of the push program data; the time of the second receiving node is longer than that of the first sending node, and the time of the second sending node is longer than that of the first sending node; the push servers are arranged according to the characteristic sequence, are connected with the first node server and the second node server end to end respectively, and can be regarded as a main body for storing push program data, wherein each push server is used for storing the push program data.

For example, the second receiving node is generated after the first sending node, for example, the first sending node generated by the first node server is 18 hours 14 minutes, the second receiving node may be 18 hours 15 minutes, the opposite second sending node is generated after the first sending node, and the second sending node is also satisfied when the second sending node is generated after the second receiving node, for example, the first sending node is 18 hours 14 minutes, the second receiving node is 18 hours 15 minutes, and the second sending node is 18 hours 18 minutes;

the first sending node, the second receiving node and the second sending node are checked to perform time tracing on the pushed program data, authenticity of pushed contents is guaranteed, tampering by people is avoided, 100% tracing of the pushed program data is guaranteed, pushing information management which cannot be achieved in the whole process is avoided, and authenticity of the pushed program data is improved.

Acquiring a feature code of a push server, wherein the feature code comprises a service provider code, an IP code and an attribution code of the push server; randomly connecting push servers with the same preset longitudinal options in the feature codes to form a longitudinal chain, wherein the push servers positioned at the head and the tail in the longitudinal chain are not connected with each other; randomly connecting push servers with the same preset transverse options in the feature codes to form a transverse chain, wherein the push servers positioned at the head and the tail in the transverse chain are respectively connected with a first node server and a second node server; the preset longitudinal option comprises one of a preset service provider code, a preset IP code and a preset home code, and the preset transverse option comprises one of the preset service provider code, the preset IP code and the preset home code.

The complexity and variability of the push chain can be guaranteed by arranging the push servers according to the characteristic sequence, the push chain is prevented from being broken due to oversimplification, data loss or tampering is avoided, and similarly, a push chain model can be obtained by arranging the characteristic sequence, so that the push chain model is convenient to implement on hardware.

The program storage module is used for selecting a push server in a push chain in the characteristic sequence to store push program data, and for example, when the push program data are stored in the first node server, a first sending node of the first node server is obtained; sequentially sending the push program data on a push chain with a characteristic sequence; when the push program data are transmitted to the second node server, a first receiving node of the second node server is obtained; selecting a push server corresponding to any second receiving node between the first sending node and the first receiving node as a target push server, and storing push program data, wherein a longitudinal chain to which the push server corresponding to the second receiving node belongs is obtained, and all push servers in the longitudinal chain are marked as preset push servers; acquiring a push value of a preset push server, and selecting the preset push server with the largest push value as a target push server; acquiring preference options of the pushed program data, wherein the preference options comprise a preset service provider code, a preset IP code and a preset home location code; acquiring the total number of storage bytes and the total number of available bytes of a preset push server, wherein if the ratio of the total number of the available bytes to the total number of the storage bytes is greater than 80%, the storage adjustment coefficient is 0.8; if the ratio of the total number of the usable bytes to the total number of the stored bytes is more than 50% and less than 80%, the storage adjustment coefficient is 0.65; if the ratio of the total number of the usable bytes to the total number of the stored bytes is less than 50% and more than 15%, the storage adjustment coefficient is 0.25; if the ratio of the total number of the usable bytes to the total number of the stored bytes is less than 15%, the storage adjustment coefficient is 0; and acquiring the total number of bytes of the push program data, and obtaining a push value by multiplying the product of the ratio of the total number of bytes of the push program data to the total number of available bytes of the preset push server and the storage regulation coefficient, wherein if the preference option of the push program data is the same as the longitudinal option of the preset push server, the push value is multiplied by 1.5.

The push program disguising module is used for disguising push program data and generating a disguised file, illustratively, acquiring a push server which generates a second sending node and a second receiving node outside a target push server and marking the push server as a confusing push server, wherein the confusing push server simultaneously stores the second sending node and the second receiving node; acquiring push program data, selecting any byte section and injecting characteristic characters, wherein the push program data injected with the characteristic characters are marked as disguised files, and the disguised files are stored in a confusion push server to finish confusion processing. Wherein the obfuscating data is associated with the push program data, the obfuscating data being deleted as the push program data is deleted; the total number of bytes of the obfuscation data and the push program data is the same, and the signatures and the attributes of the obfuscation data and the push program data are the same.

The system comprises a push module, a push module and a push module, wherein the push module is used for extracting push program data in a push server to push a user, illustratively, longitudinal options and push values of a target push server are sent to a terminal of the user, and the terminal of the user accesses the target push server with the same longitudinal options and push values and extracts the push program data in the target push server.

On the other hand, the invention also comprises an application program pushing method applied to the system, which comprises the following steps:

constructing a push chain of an application program;

selecting a push server in a push chain in the characteristic sequence to store push program data;

selecting a target push server in the push server according to the push value;

carrying out disguise processing on push program data in other push servers except the target push server in the push chain, and generating a disguise file;

and sending the longitudinal option and the push value of the target push server to a terminal of the user, accessing the target push server with the same longitudinal option and push value by the terminal of the user, and extracting push program data in the target push server.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two elements can be directly connected with each other or indirectly connected with each other through an intermediate medium, and the two elements can be communicated with each other. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

In the description herein, references to the description of the terms "embodiment," "specific embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Rather, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (7)

1. A big data based application push system, comprising:

the push chain construction module is used for constructing a push chain of the application program;

the program storage module is used for selecting a push server in a push chain in the characteristic sequence to store the push program data;

the pushing program disguising module is used for disguising the pushing program data and generating a disguised file;

the pushing module is used for extracting pushing program data in the pushing server and pushing the pushing program data to the user;

the push chain building module is used for building a product push chain and comprises the following components:

selecting a first node server and a second node server in a preset server, wherein the first node server and the second node server are both used for storing a first sending node and a first receiving node of push program data;

selecting a server between a first node server and a second node server as a push server, wherein the push server is used for storing push program data and a second receiving node and a second sending node of the push program data;

the time of the second receiving node is longer than that of the first sending node, and the time of the second sending node is longer than that of the first sending node;

the push servers are arranged according to the characteristic sequence, and are connected with the first node server and the second node server from head to tail respectively;

the pushing program disguising module is used for disguising the pushing program data and generating a disguised file, and comprises:

acquiring a push server which generates a second sending node and a second receiving node outside a target push server, and marking the push server as a puzzlement push server, wherein the puzzlement push server simultaneously stores the second sending node and the second receiving node;

acquiring push program data, selecting any byte section and injecting characteristic characters, wherein the push program data injected with the characteristic characters are marked as disguised files, and the disguised files are stored in a confusion push server to finish confusion processing.

2. The big-data based application pushing system according to claim 1, wherein the pushing server arranges in the order of characteristics including:

acquiring a feature code of a push server, wherein the feature code comprises a service provider code, an IP code and an attribution code of the push server;

randomly connecting push servers with the same preset longitudinal options in the feature codes to form a longitudinal chain, wherein the push servers positioned at the head and the tail in the longitudinal chain are not connected with each other;

randomly connecting push servers with the same preset transverse options in the feature codes to form a transverse chain, wherein the push servers positioned at the head and the tail in the transverse chain are respectively connected with a first node server and a second node server;

the preset longitudinal option comprises one of a preset service provider code, a preset IP code and a preset home code, and the preset transverse option comprises one of the preset service provider code, the preset IP code and the preset home code.

3. The big-data-based application program pushing system according to claim 2, wherein the program storage module is configured to select a push server on a product push chain in the feature sequence for storing the pushed program data, and includes:

when the first node server stores the push program data, acquiring a first sending node of the first node server;

sequentially sending the push program data on a push chain with a characteristic sequence;

when the push program data is transmitted to the second node server, a first receiving node of the second node server is obtained;

and selecting a push server corresponding to any second receiving node between the first sending node and the first receiving node as a target push server, and storing push program data.

4. The big-data-based application program pushing system according to claim 3, wherein selecting a push server corresponding to any second receiving node between the first sending node and the first receiving node as a target push server, and storing push program data comprises:

acquiring a vertical chain to which a push server corresponding to the second receiving node belongs, and marking all push servers in the vertical chain as preset push servers;

and acquiring a pushing value of a preset pushing server, and selecting the preset pushing server with the largest pushing value as a target pushing server.

5. The big-data-based application pushing system according to claim 4, wherein the obtaining of the push value of the preset push server comprises:

acquiring preference options of the pushed program data, wherein the preference options comprise a preset service provider code, a preset IP code and a preset home location code;

acquiring the total number of storage bytes and the total number of available bytes of a preset push server, wherein if the ratio of the total number of the available bytes to the total number of the storage bytes is greater than 80%, the storage adjustment coefficient is 0.8;

if the ratio of the total number of the usable bytes to the total number of the stored bytes is more than 50% and less than 80%, the storage adjustment coefficient is 0.65;

if the ratio of the total number of the usable bytes to the total number of the stored bytes is less than 50% and more than 15%, the storage adjustment coefficient is 0.25;

if the ratio of the total number of the usable bytes to the total number of the stored bytes is less than 15%, the storage adjustment coefficient is 0;

and acquiring the total number of bytes of the push program data, and obtaining a push value by multiplying the product of the ratio of the total number of bytes of the push program data to the total number of available bytes of the preset push server and the storage regulation coefficient, wherein if the preference option of the push program data is the same as the longitudinal option of the preset push server, the push value is multiplied by 1.5.

6. The big-data based application pushing system of claim 5, wherein obfuscating data is associated with the pushed program data, and when the pushed program data is deleted, the obfuscating data is also deleted;

the total number of bytes of the obfuscated data is the same as the total number of bytes of the push program data, and the signatures and the attributes of the obfuscated data and the push program data are the same.

7. The big-data-based application pushing system according to claim 6, wherein the pushing module is configured to extract the pushing program data in the pushing server to push the user, and includes:

and sending the longitudinal option and the push value of the target push server to a terminal of the user, accessing the target push server with the same longitudinal option and push value by the terminal of the user, and extracting push program data in the target push server.

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