CN113094121B - Data processing method, data processing equipment and computer readable storage medium - Google Patents

Abstract

The embodiment of the application discloses a data processing method, data processing equipment and a computer-readable storage medium, wherein the method can be used for processing a plurality of channel packages in batch, and comprises the following steps: acquiring an application data packet and M channel identifications associated with the application data packet; starting N channel packages to release tasks; packaging channel package plug-ins and publishing channel package plug-ins in the same channel package publishing task are in the same operating environment; running the N packaging channel package plug-ins in parallel to obtain channel packaging results respectively output by the N packaging channel package plug-ins; and determining the channel packaging result meeting the channel package issuing condition as a target channel packaging result, and issuing the target channel packaging result to the channel package management platform by operating the target issuing channel package plug-in until the N channel packaging results are all issued to the channel package management platform. By adopting the method and the device, the time cost can be saved, and the publishing efficiency of the channel package can be improved.

Description

Data processing method, data processing equipment and computer readable storage medium

Technical Field

The present application relates to the field of internet technologies, and in particular, to a data processing method, device, and computer-readable storage medium.

Background

An application package (which may also be understood as an application data package) refers to an installation package for an application. For example, an Android Application Package (APK) is a file format of an application Package used by an Android operating system. In order to facilitate operation statistics of a background corresponding to the application data packet, a channel identifier of a channel for downloading the application data packet by a user is added to the application data packet, and the channel packet of the channel can be obtained by adding a channel identifier to the application data packet.

When a game application is online or upgraded, thousands of channels in the android market can be provided, and accordingly, as many channels are published, as many channel packages need to be generated. In the existing channel package distribution technology, due to the reason that the number of channel packages is large, a large number of channel packages need to be compressed firstly, a compressed package is generated and then is filed, before the channel packages are distributed, the compressed package generated previously needs to be decompressed, a large number of channel packages can be obtained, obviously, the channel packages are compressed in a large number, the compressed packages comprising the channel packages in a large number need to be decompressed, a large amount of time needs to be spent, and the channel package distribution technology is low in efficiency.

Disclosure of Invention

The embodiment of the application provides a data processing method, data processing equipment and a computer readable storage medium, which can save time cost and further improve the publishing efficiency of a channel package.

An embodiment of the present application provides a data processing method, including:

acquiring an application data packet and M channel identifiers associated with the application data packet, wherein M is a positive integer greater than 1;

opening N channel package publishing tasks, wherein N is a positive integer greater than 1 and is less than or equal to M, packaging channel package plug-ins and publishing channel package plug-ins in the same channel package publishing task are in the same operating environment, each packaging channel package plug-in is respectively associated with different channel identifications, and the channel identifications associated with each packaging channel package plug-in all belong to M channel identifications;

the N packaging channel package plug-ins are operated in parallel to obtain channel packaging results respectively output by the N packaging channel package plug-ins, and each packaging channel package plug-in is used for packaging the associated channel identification and the application data package;

and when a channel packaging result meeting the channel package publishing condition exists in the N channel packaging results, determining the channel packaging result meeting the channel package publishing condition as a target channel packaging result, and publishing the target channel packaging result to a channel package management platform by operating a target publishing channel package plug-in until the N channel packaging results are all published to the channel package management platform, wherein the target publishing channel package plug-in is a publishing channel package plug-in a channel package publishing task to which the target channel packaging result belongs.

An embodiment of the present application provides a data processing apparatus, including:

the device comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring an application data packet and M channel identifiers associated with the application data packet, and M is a positive integer greater than 1;

the first opening module is used for opening N channel package publishing tasks, N is a positive integer larger than 1 and is smaller than or equal to M, and the packaging channel package plug-ins and the publishing channel package plug-ins in the same channel package publishing task are in the same operating environment, each packaging channel package plug-in is respectively associated with different channel identifiers, and the channel identifiers associated with each packaging channel package plug-in all belong to M channel identifiers;

the parallel operation module is used for operating the N packaging channel package plug-ins in parallel to obtain channel packaging results respectively output by the N packaging channel package plug-ins, and each packaging channel package plug-in is used for packaging the associated channel identification and the application data package;

and the publishing result module is used for determining the channel packaging result meeting the channel package publishing condition as a target channel packaging result when the channel packaging result meeting the channel package publishing condition exists in the N channel packaging results, and publishing the target channel packaging result to the channel package management platform by operating a target publishing channel package plugin until the N channel packaging results are all published to the channel package management platform, wherein the target publishing channel package plugin is a publishing channel package plugin in a channel package publishing task to which the target channel packaging result belongs.

Wherein the N packaging channel package plug-ins comprise a packaging channel package plug-in F _i I is a positive integer and i is less than or equal toEqual to N;

a parallel execution module comprising:

an encapsulation identification unit for packaging the plug-in F by operating an encapsulation channel _i Packaging channel package plug-in component F _i Packaging the associated channel identification into an application data packet, and determining the application data packet packaged with the channel identification as a packaging channel packet plug-in F _i Packaging the result of the corresponding channel;

a parallel operation unit for operating the package of the package channel F _i Simultaneously, running (N-1) packaging channel package plug-ins in parallel to obtain channel packaging results respectively output by the (N-1) packaging channel package plug-ins, wherein the (N-1) packaging channel package plug-ins mean that the N packaging channel package plug-ins except the packaging channel package plug-in F _i And (4) packaging channel package plug-ins.

Wherein, the packaging channel package plug-in component F _i The associated channel identification comprises W channel identifications, wherein W is a positive integer and is less than M;

a package identification unit comprising:

an encapsulation identifier subunit for packaging the plug-in F by running an encapsulation channel _i Respectively packaging the W channel identifiers into application data packets;

the first determining subunit is used for determining the application data packets encapsulated with the channel identifications as channel packets, and the channel identifications contained in each channel packet are different from each other;

a second determining subunit, configured to determine the packaged channel package as a packaged channel package plug-in component F _i Packaging the result of the corresponding channel;

a third determining subunit for packaging the channel package plug-in F _i Determining that the number of channel packages in the corresponding channel packaging result is less than W, and packaging a channel package plug-in F _i The corresponding channel packaging result does not meet the channel package release condition;

a third determining subunit, further configured to package the plug-in if the channel package F is packaged _i Determining that the number of channel packages in the corresponding channel packaging result is equal to W, and packaging a channel package plug-in F _i The corresponding channel packaging result meets the publishing condition of the channel package。

Wherein the N package channel plug-ins include package channel package plug-in F _c The N publishing channel package plug-ins include and encapsulate channel package plug-ins F _c Publishing channel package plug-in A in the same operating environment _c C is a positive integer, and c is less than or equal to N;

a data processing apparatus, further comprising:

a second acquisition module for acquiring channel package download link X returned by the channel package management platform _c Channel package download link X _c Plug-in component A for representing and publishing channel package _c The storage address of the issued channel packaging result in the channel package management platform, and the issuing channel package plug-in A _c The issued channel packaging result comprises W channel packages, channel identifications contained in each channel package are different from each other, and the W channel packages are packaged by a packaging channel package plug-in component F _c A package channel package plug-in F obtained by packaging the associated channel identification into an application data package _c The associated channel identification comprises W channel identifications;

a first generation module for downloading link X according to W channel identifiers and channel package _c Generating a publishing channel package plug-in A _c Corresponding catalog, publishing channel package plug-in component A _c Transmitting the corresponding catalog to an update channel link plug-in;

and the second generation module is used for generating a channel mapping table according to the updated channel link plug-in and the N directories, wherein the N directories comprise directories corresponding to the N published channel package plug-ins respectively, and the channel mapping table is used for indicating a platform associated with the M channel identifiers to perform channel link updating processing.

The N catalogs comprise first catalogs corresponding to the N publishing channel package plug-ins respectively;

a second generation module comprising:

the first starting unit is used for starting a channel package updating task when the channel link updating plug-in acquires the N first catalogs, wherein the channel package updating task comprises an updating channel link plug-in and a releasing channel link plug-in which are in the same operating environment;

the first generation unit is used for generating a first channel mapping table according to the updated channel link plug-in and the N first directories;

the first sending unit is used for sending a first channel mapping table to a first channel party management platform by operating a release channel link plug-in, the first channel mapping table is used for indicating the first channel party management platform and downloading a target channel package from a channel package management platform, channel identifications corresponding to the first channel party management platform belong to M channel identifications, and the target channel package comprises channel identifications corresponding to the first channel party management platform.

The N first catalogs comprise M channel identifications, channel package downloading links corresponding to the M channel identifications respectively, and target demand information corresponding to the M channel identifications respectively, wherein the M target demand information is determined according to the channel demand information;

a first generation unit comprising:

the first acquiring subunit is used for acquiring a first initial channel mapping table;

the first storage subunit is used for respectively storing the M channel identifications, the M channel packages download links and the M target demand information in a first initial channel mapping table by operating an update channel link plug-in;

and the fourth determining subunit is used for determining the first initial channel mapping table in which the M channel identifiers, the M channel package download links and the M target demand information are stored as the first channel mapping table, wherein the channel identifiers and the channel package download links in the first channel mapping table have a mapping relationship, and the channel identifiers and the target demand information in the first channel mapping table have a mapping relationship.

Wherein, the publishing channel package plug-in A _c The corresponding catalog includes a publishing channel package plug-in A _c A corresponding first directory;

a first generation module comprising:

a second generating unit for generating a download link X including a channel package according to the channel demand information _c And a first catalog Y of W channel identifications _c First directory Y _c Refers to a publishing channelRoad bag plug-in component A _c A corresponding first directory;

a first transmission unit for transmitting the first directory Y _c And transmitting to the update channel link plug-in.

The N directories comprise second directories corresponding to the N publishing channel package plug-ins respectively;

a second generation module comprising:

the second starting unit is used for starting a channel package updating task when the channel link plug-in is updated to obtain N second directories, and the channel package updating task comprises an updating channel link plug-in and a releasing channel link plug-in which are in the same operating environment;

the third generation unit is used for generating a second channel mapping table according to the updated channel link plug-in and the N second directories;

and the second sending unit is used for sending the second channel mapping table to the channel package management platform by operating the release channel link plug-in so that the channel package management platform updates the historical channel mapping table according to the second channel mapping table and provides a target channel package download link for the second channel party management platform according to the second channel mapping table, wherein channel identifications corresponding to the second channel party management platform belong to the M channel identifications, and the channel identifications corresponding to the second channel party management platform have a mapping relation with the target channel package download link.

Wherein the third generating unit includes:

the second acquiring subunit is used for acquiring a first channel mapping table to be merged, which is associated with a historical channel identifier set, from the historical channel mapping table, wherein channel identifiers in the historical channel identifier set are different from the M channel identifiers;

the third acquiring subunit is used for acquiring a second initial channel mapping table;

the second storage subunit is configured to store the data in the N second directories in second initial channel mapping tables respectively by operating the update channel linking plug-in, and determine the second initial channel mapping table in which the data in the N second directories are stored as a second channel mapping table to be merged;

and the merging processing subunit is used for merging the first channel mapping table to be merged with the second channel mapping table to be merged to obtain a second channel mapping table, wherein the identification number of the channel identifications in the second channel mapping table is equal to the identification number of the channel identifications in the historical channel identification set and the total number of the channel identifications in the historical channel identification set.

Wherein, the publishing channel package plug-in A _c The corresponding catalog includes a publishing channel package plug-in A _c A corresponding second directory;

a first generation module comprising:

a fourth generating unit for generating a download link X including a channel package according to the historical channel mapping table _c And a second catalog E of W channel identifications _c Second directory E _c Means to publish channel package plug-in A _c A corresponding second directory;

a second transmission unit for transmitting the second directory E _c To the update channel link plug-in.

Wherein, the publishing channel package plug-in A _c The corresponding catalog comprises a channel package downloading link to be verified;

a data processing apparatus, further comprising:

the verification result module is used for performing link verification processing on the download link of the channel package to be verified to obtain a verification result, and the verification result comprises a verification failure result and a verification success result;

the verification result module is also used for determining that the downloading link of the channel package to be verified is an error link if the verification result is a verification failure result;

and the verification result module is also used for executing the step of generating the channel mapping table according to the updated channel link plug-in and the N catalogs if the verification result is a verification success result.

Wherein, the channel mapping table comprises a channel identifier D to be verified _j And with a channel identification D to be verified _j Channel package downloading link L with mapping relation _j J is a positive integer and j is less than or equal to M;

a data processing apparatus, further comprising:

the second starting module is used for starting a channel package verification task, and the channel package verification task comprises a verification channel link plug-in;

the second starting module is also used for obtaining the download link of the channel package to be verified in the channel party management platform to be verified, the channel identification of the channel party management platform to be verified and the channel identification D to be verified by operating the verification channel link plug-in _j The same;

the second starting module is also used for downloading the channel package to be verified and the channel package downloading link L _j And comparing, and determining the updating state of the channel party management platform to be verified according to the comparison result.

Wherein, the channel package download link L _j Including channel package version information H _j ；

A second opening module comprising:

a first comparing unit for comparing the channel package version information H _j Comparing with the version information of the channel package in the download link of the channel package to be verified, and if the version information of the channel package is H _j If the version information of the channel package is different from the version information of the channel package in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is an updating waiting state;

a second comparison unit for comparing the channel package version information H _j If the version information of the channel package is the same as that in the download link of the channel package to be verified, identifying the channel to be verified by using the identifier D _j Comparing the channel side information with the channel side information in the download link of the channel package to be verified;

a first determining unit for determining the channel identifier D if the channel identifier D is to be verified _j If the channel side information is inconsistent with the channel side information in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is an updating error state;

a second determining unit for determining if the channel identifier D to be verified is _j And if the channel side information is consistent with the channel side information in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is the updating success state.

One aspect of the present application provides a computer device, comprising: a processor, a memory, a network interface;

the processor is connected to the memory and the network interface, wherein the network interface is used for providing a data communication function, the memory is used for storing a computer program, and the processor is used for calling the computer program to enable the computer device to execute the method in the embodiment of the application.

In one aspect, embodiments of the present application provide a computer-readable storage medium having a computer program stored therein, where the computer program is adapted to be loaded by a processor and to execute the method in the embodiments of the present application.

An aspect of an embodiment of the present application provides a computer program product or a computer program, where the computer program product or the computer program includes computer instructions, and the computer instructions are stored in a computer-readable storage medium; the processor of the computer device reads the computer instructions from the computer-readable storage medium, and executes the computer instructions, so that the computer device executes the method in the embodiment of the present application.

In the embodiment of the application, by arranging the packaging channel package plug-in (used for packaging the channel identifier and the application data package) in the same channel package publishing task and the publishing channel package plug-in the same operating environment, the channel packaging result output by the packaging channel package plug-in can be directly published to the channel package management platform by the publishing channel package plug-in, so that the channel packaging result output by the packaging channel package plug-in can be prevented from being acquired by the publishing channel package plug-in after being compressed into a compressed package, and further the channel packaging result output by the packaging channel plug-in can be prevented from being acquired by decompressing the compressed package by the publishing channel package plug-in; in addition, in the embodiment of the application, by starting the N channel package publishing tasks, N encapsulation channel package plug-ins and N publishing channel package plug-ins can be obtained, by running the N encapsulation channel package plug-ins in parallel, channel encapsulation results respectively output by the N encapsulation channel package plug-ins can be obtained, and by running the publishing channel package plug-ins corresponding to the encapsulation channel package plug-ins, channel encapsulation results meeting the publishing conditions of the channel package can be published to the channel package management platform. In addition, by running N packaging channel package plug-in components in parallel, N packaging tasks of the channel packages can be executed in a concurrent mode, so that N packaging results of the channels can be obtained quickly, and the publishing efficiency of the channel packages is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a system architecture diagram according to an embodiment of the present application;

fig. 2a is a schematic view of a data processing scenario provided in an embodiment of the present application;

fig. 2b is a schematic view of a data processing scenario provided in an embodiment of the present application;

fig. 3 is a schematic flowchart of a data processing method according to an embodiment of the present application;

fig. 4a is a schematic structural diagram of a type 4 channel package publishing path according to an embodiment of the present application;

fig. 4b is a schematic structural diagram of a channel package publishing path corresponding to an operation channel according to an embodiment of the present application;

fig. 5a is a schematic view of a data processing scenario provided in an embodiment of the present application;

fig. 5b is a schematic view of a data processing scenario provided in an embodiment of the present application;

fig. 6 is a schematic flowchart of a data processing method according to an embodiment of the present application;

fig. 7a is a schematic view of a data processing scenario provided in an embodiment of the present application;

fig. 7b is a schematic diagram of a data processing scenario provided in an embodiment of the present application;

fig. 7c is a schematic flowchart of a data processing method according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a data processing apparatus according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a computer device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present disclosure. As shown in fig. 1, the system architecture may include a target application server 10b, a packaging server cluster 10a, a channel server cluster, and a user terminal cluster. The target application server 10b is a background server corresponding to the application data packet, and the application data packet may be a newly developed application data packet of the target application server 10b, or an application data packet after the target application server 10b upgrades an existing application data packet, which is not limited herein. The application data package can be a social data package, a multimedia data package (e.g., a video data package), an entertainment data package (e.g., a game data package), an education data package, a live data package, and the like. The application data packet may be an independent data packet, or may be an embedded data packet integrated in a data packet (for example, a social data packet, an educational data packet, a multimedia data packet, and the like), which is not limited herein.

After the application data packet is generated or upgraded, in order to facilitate the target application server 10b to perform operation statistics, channel identifiers of each channel need to be added to the application data packet, and the channel identifiers are used to uniquely mark each channel (may be equal to a channel server cluster). The target application server 10b may send the application data packet and the channel identifier list to the packaging server cluster 10a, so that the packaging server cluster 10a packages the channel identifiers in the channel identifier list into the application data packet one by one, and channel packets corresponding to the channel identifiers respectively are obtained; after the channel package corresponding to each channel identifier is obtained, the packaging server cluster 10a may upload a large number of channel packages to the target application server 10b, and obtain channel package download links for each channel package returned by the target application server 10b after storing the large number of channel packages; the packaging server cluster 10a may generate a first channel mapping table including a channel identifier and a channel package download link according to the requirement information of each channel provider, and send the first channel mapping table to a channel server that needs to install an application data package, such as the channel servers 10e, …, and the channel server 10f illustrated in fig. 1. In addition, the packaging server cluster 10a may generate a second channel mapping table including a channel identifier and a channel package download link according to a table format of the historical channel mapping table in the target application server 10b, and send the second channel mapping table to the target application server 10b, so that the target application server 10b updates the historical channel mapping table (i.e., stores the latest channel mapping table) according to the second channel mapping table, and the target application server 10b may provide the channel package download link for the channel server capable of accessing itself according to the second channel mapping table. As shown in fig. 1, the packaging server cluster 10a may include a packaging server 101a, packaging servers 102a, …, and a packaging server 103a, and it is understood that the packaging server cluster 10a may include one or more packaging servers, and the number of packaging servers will not be limited herein.

The channel server cluster may include channel servers for installing application data packets, such as the channel servers 10e, … and the channel server 10f illustrated in fig. 1, which may download a channel packet including a channel identifier from the target application server 10b according to the first channel mapping table, and then push the latest application data packet to the user; the channel server cluster may include channel servers accessing the target application server 10b, such as the channel servers 10c, … and the channel server 10d illustrated in fig. 1, when the user downloads the application data package through these channel servers, for convenience of description, in the embodiment of the present application, the channel server 10c is taken as an example for description, the channel server 10c first accesses the second channel mapping table in the target application server 10b, obtains a channel package download link of the channel package including the channel identifier of its own according to the channel identifier of its own, and then pushes the channel package download link to the user. It will be appreciated that the channel server cluster may include one or more channel servers, and the number of channel servers will not be limited thereto.

Each user terminal in the user terminal cluster may install an application data packet, and when the application data packet runs in each user terminal, the application data packet may perform data interaction with the target application server 10 b. As shown in fig. 1, the user terminal cluster may include user terminals 101c, …, user terminals 102c, …, user terminals 101d, …, user terminals 102d, user terminals 101e, …, user terminals 102e, …, which install application data packets through the channel server 10e, and user terminals 101f, …, and user terminals 102f, which install application data packets through the channel server 10f, and it is understood that the user terminal cluster may include one or more user terminals, where the number of user terminals is not limited.

Communication connection may exist between the user terminal clusters, for example, communication connection exists between the user terminal 101c and the user terminal 102d, communication connection exists between the user terminal 102c and the user terminal 102f, and communication connection exists between the user terminal 101e and the user terminal 102 e. Any user terminal in the user terminal cluster may have a communication connection with any channel server in the channel server cluster, for example, a communication connection exists between the user terminal 101c and the channel server 10c, a communication connection exists between the user terminal 101d and the channel server 10f, and a communication connection exists between the user terminal 101e and the channel server 10f. Any user terminal in the user terminal cluster may have a communication connection with the target application server 10b, for example, a communication connection exists between the user terminal 101c and the target application server 10b, a communication connection exists between the user terminal 102c and the target application server 10b, and a communication connection exists between the user terminal 101e and the target application server 10 b.

Any channel server in the channel server cluster may have a communication connection with the target application server 10b, for example, a communication connection exists between the target application server 10b and the channel server 10c, and a communication connection exists between the target application server 10b and the channel server 10f. Any channel server in the channel server cluster may have a communication connection with any packaging server in the packaging server cluster 10a, for example, a communication connection between the packaging server 101a and the channel server 10c, and a communication connection between the packaging server 102a and the channel server 10f.

Any packaging server in the packaging server cluster may have a communication connection with the target application server 10b, for example, a communication connection exists between the target application server 10b and the packaging server 101a, and a communication connection exists between the target application server 10b and the packaging server 102 a.

It should be understood that the communication connection is not limited to the connection manner, and may be directly or indirectly connected through a wired communication manner, may be directly or indirectly connected through a wireless communication manner, and may also be connected through other connection manners, which is not limited herein.

It should be noted that the packaging server (such as the packaging server 101a, the packaging server 102a, and the packaging server 103a illustrated in fig. 1), the target application server 10b, the channel server (such as the channel server 10c, the channel server 10d, the channel server 10e, and the channel server 10f illustrated in fig. 1), the user terminal 101c, the user terminal 102c, ·, the user terminal 101d, the user terminal 102d, the user terminal 101e, the user terminal 102e, the user terminal 101f, and the user terminal 102f illustrated in fig. 1 in the packaging server cluster 10a may be a block link point in a block chain network, and data (such as a channel identifier and a channel package download link) described below may be stored in a manner that the block link point generates a block according to the data and adds the block to the block chain for storage.

The block chain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, a consensus mechanism and an encryption algorithm, and is mainly used for sorting data according to a time sequence and encrypting the data into an account book, so that the data cannot be falsified or forged, and meanwhile, the data can be verified, stored and updated. A blockchain is essentially a decentralized database in which each node stores an identical blockchain, and a blockchain network can divide the nodes into core nodes, data nodes, and light nodes. The core nodes, the data nodes and the light nodes jointly form a block chain node. The core node is responsible for the consensus of the whole block chain network, that is, the core node is a consensus node in the block chain network. The process of writing the transaction data in the block link network into the account book may be that the data node or the light node in the block link network acquires the transaction data, transmits the transaction data in the block link network (that is, the node transmits in a relay baton manner), until the consensus node receives the transaction data, the consensus node packs the transaction data into the block, performs consensus, and writes the transaction data into the account book after the consensus is completed. Taking at least two test objects in the nth wheel-based test and sampling index values respectively corresponding to the at least two test objects as example transaction data, after the block link point (for example, the packaging server 101 a) passes the consensus of the transaction data, generating a block according to the transaction data, and storing the block into a block link network; for reading the transaction data (channel identifier and channel package download link), the block containing the transaction data can be obtained in the block chain network by the block chain link point, and further, the transaction data is obtained in the block.

Among them, the packaging server (such as the packaging server 101a, the packaging server 102a, and the packaging server 103a illustrated in fig. 1), the target application server 10b, the channel server (such as the channel server 10c, the channel server 10d, the channel server 10e, and the channel server 10f illustrated in fig. 1), the user terminal 101c, the user terminal 102c, the say, the user terminal 101d, the user terminal 102d, the user terminal 101e, the user terminal 102e, the user terminal 101f, and the user terminal 102f illustrated in fig. 1 may include a mobile phone, a tablet computer, a notebook computer, a palm computer, a smart sound, a mobile internet device (MID, a mobile internet device), a POS (Point Of sale) machine, a wearable device (such as a smart watch, a smart bracelet, or the like), and the like.

It is understood that the data processing method provided by the embodiment of the present application can be executed by a computer device, including but not limited to a terminal or a server. The server may be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, or a cloud server providing basic cloud computing services such as cloud service, a cloud database, cloud computing, cloud functions, cloud storage, network service, cloud communication, middleware service, domain name service, security service, CDN, big data and artificial intelligence platforms. The terminal may be, but is not limited to, a smart phone, a tablet computer, a laptop computer, a desktop computer, a smart speaker, a smart watch, and the like. The terminal and the server may be directly or indirectly connected through wired or wireless communication, and the application is not limited herein.

Further, please refer to fig. 2a, and fig. 2a is a schematic view of a data processing scenario provided in an embodiment of the present application. In the embodiment of the present application, it is assumed that the channel identifier list 20b includes 1000 channel identifiers, and as shown in fig. 2a, in No. 12/2020, a display screen corresponding to the target application server 10b (which is equivalent to the target application server 10b in fig. 1) displays that "the target application b is updated to 6.6.1", where the target application b may be the name of an application, and 6.6.1 may be the version of the application. The target application server 10b sends the application data packet 20a of the target application b of the 6.6.1 version and the channel identifier list 20b to the packaging server (for example, the packaging server 101a in fig. 2 a) in the packaging server cluster 10a, and after the packaging server 101a obtains the application data packet 20a and the channel identifier list 20b, 10 channel packet distribution tasks may be started according to the number of channel identifiers in the channel identifier list 20b, where each channel packet distribution task may correspond to one machine, i.e., a terminal or a server, as illustrated in fig. 2a, the first channel packet distribution task may be executed by the packaging server 102a in fig. 1, …, and the tenth channel packet distribution task may be executed by the packaging server 103a in fig. 1, and at this time, the packaging server 102a may perform packaging processing on the first 100 channel identifiers (for example, channel identifier 1, channel identifier 2, …, channel identifier 100) in the channel identifier list 20b, and may perform packaging processing on the channel identifiers (for example, channel identifier 901, 3425) in the packaging server 20 b.

Each channel package packing task includes a packaging channel package plug-in and a publishing channel package plug-in, and the packaging channel package plug-in and the publishing channel package plug-in the same channel package packing task are in the same operating environment, as illustrated in fig. 2a, the packaging channel package plug-in 1 and the publishing channel package plug-in 1 are both in a compiling-free environment 1, and the packaging channel package plug-in 10 and the corresponding publishing channel package plug-in the packing server 103a are both in a compiling-free environment 10. Referring to fig. 2a again, 10 package channel package plug-ins are run in parallel, that is, 10 package servers or terminals perform package processing on the associated channel identifier and application data package 20a at the same time, for example, the package server 102a may perform package processing on the channel identifier 1 and the application data package 20a by running the package channel package plug-in 1, perform package processing on the channel identifier 2 and the application data package 20a, … perform package processing on the channel identifier 100 and the application data package 20a, and functions of the remaining package channel package plug-ins are consistent with those of the package channel package plug-ins 1, so that no further description is given here.

After 10 packaging channel package plug-ins are operated in parallel, each packaging channel package plug-in can be obtained to output a channel packaging result respectively, when a channel packaging result meeting a channel package distribution condition exists in the 10 channel packaging results, the channel packaging result meeting the channel package distribution condition is determined to be a target channel packaging result, as shown in fig. 2a, at 11 points 55 of 12, 1 and 2020, the channel packaging result output by the packaging channel package plug-in 1 comprises a channel package 1g, … and a channel package 100g, and can be understood as that a channel identifier 1, a channel identifier 2, … and a channel identifier 100 are packaged to an application data package 20a respectively; …; the channel encapsulation result output by the encapsulation channel package plugin 10 includes channel packages 901g, … and channel package 999g, it can be understood that the channel identifier 901, the channel identifiers 902, … and the channel identifier 999 are respectively encapsulated to the application data package 20a, but the channel identifier 1000 is not yet encapsulated with the application data package 20a, so at this time, the channel encapsulation result corresponding to the encapsulation channel package plugin 1 satisfies the channel package publishing condition, and the channel encapsulation result corresponding to the encapsulation channel package plugin 10 does not satisfy the channel package publishing condition, the channel packages 1g, … and the channel package 100g are respectively published to the target application server 10b (which is equivalent to a channel package management platform) by operating the publishing channel package plugin 1 in the first channel package publishing task, so that the target application server 10b respectively stores the channel packages 1g, … and channel package 100g, and returns the channel package corresponding to download each channel package.

Referring back to fig. 2a, at 57 minutes 11 of 12/1/2020, 1000 channel packages are all distributed to the target application server 10b, and the packaging server 101a may open a channel package update task, it being understood that the channel package update task may be executed in the packaging server 104 a. By executing the channel package update task, at 12 o 'clock and 10 o' clock of 12, month and 1 day of 2020, a first channel mapping table 201d and a second channel mapping table 202d can be generated, wherein for the specific generation process of the first channel mapping table 201d and the second channel mapping table 202d, please refer to the description of step S205 in the embodiment corresponding to fig. 6, which will not be described herein for the moment. The first channel mapping table 201d includes requirement information of the channel provider, such as channel identifier, channel package download link, channel package version information, channel package generation information, etc., and the table format corresponding to the second channel mapping table 202d is consistent with the table format of the existing channel mapping table (i.e., the historical channel mapping table) in the target application server 10b, and may include channel identifier, channel package download link, channel package version information, channel package storage time, etc.

Referring back to fig. 2a, the packaging server 104a may send the second channel mapping table 202d to the target application server 10b, so that the historical channel mapping table in the target application server 10b is updated to the second channel mapping table 202d; the packaging server 104a may send the first channel mapping tables 201d to the channel servers 10e, … channel server 10f, respectively, it being understood that the packaging server 104a may send the first channel mapping tables 201d to the channel servers 10c, … channel server 10d, respectively, or may not send the first channel mapping tables 201d to the channel servers 10c, … channel server 10d, respectively, because the channel servers 10c, … channel server 10d may access the second channel mapping tables 202d in the target application server 10 b.

Optionally, if the channel package publishing task and the channel package updating task are locally stored in the target application server 10b, the application data package 20a and the channel identifier list 20b may be locally input, after performing a process and an automation process, the channel package download links corresponding to 1000 channel packages and 1000 channel packages are obtained, and then the subsequent processing is performed according to the 1000 channel package download links (for example, the first channel mapping table 201d is generated). Since the channel package publishing task and the channel package updating task relate to a large number of servers or terminals, the channel package publishing task and the channel package updating task local to the target application server 10b may invoke the packaging server in the packaging server cluster through an interface.

To sum up, the embodiment of the application sets the encapsulation channel package plug-in and the release channel package plug-in the same operation environment, so that the channel encapsulation result output by the encapsulation channel package plug-in can be realized, and is directly released to the channel package management platform by the release channel package plug-in, that is, the channel encapsulation result output by the encapsulation channel package plug-in can be obtained by the release channel package plug-in after being compressed into a compression package, and further the release channel package plug-in can be prevented from decompressing the compression package, so that the channel encapsulation result output by the encapsulation channel package plug-in can be obtained, therefore, the time for decompressing channel packages in the existing channel package technology can be saved, further, channel package packaging tasks can be concurrently executed by running N encapsulation channel package plug-ins in parallel, and the efficiency of channel package packaging and channel package release is further improved.

Please refer to fig. 2b together, and fig. 2b is a schematic view of a data processing scenario provided in the embodiment of the present application. As shown in fig. 2b, when the user searches for the target application b on the search application (e.g., channel c illustrated in fig. 2 b) through the user terminal 102c at point 11 and 35 of 12/1/2020, when the user clicks the search control displayed on the user terminal 102c, the user terminal 102c may send a data acquisition request to a background (e.g., channel server 10c illustrated in fig. 2 b) corresponding to the channel c, where the data acquisition request may include application information of the target application b. After the channel server 10c obtains the data obtaining request sent by the user terminal 102c, a channel package download link (such as the target application/6.6.0/channel c illustrated in fig. 2 b) for the target application b may be returned to the user terminal 102c according to the application information of the target application b, and it can be understood that, if the channel server 10c can access the target application server 10b illustrated in fig. 2a, the channel package download link returned by the channel server 10c may be a channel package download link for a channel package of the channel c stored by the target application server 10b; if the channel server 10c cannot access the target application server 10b illustrated in fig. 2a, the channel package download link returned by the channel server 10c may be a channel package download link for locally storing a channel package, and the channel type of the channel server 10c is not limited herein, so the channel package download link is not limited herein.

Referring back to fig. 2b, if the user terminal 102c obtains the channel package download link returned by the channel server 10c, a "target application b 6.6.0" may be displayed on the corresponding display screen, where 6.6.0 may represent the application version information of the target application b. Referring to fig. 2a, it can be seen that the target application b is upgraded at 11 o' clock 35 of 12/1/2020 but has not yet released a new version, i.e. 6.6.1 version, so that the channel server 10c provides the user with a previous version, i.e. 6.6.0 version.

As shown in fig. 2b, the user searches the channel c again for the target application b through the user terminal 102c at 12 o 'clock 11 o' clock 12/1/2020, and when the user clicks the search control displayed on the user terminal 102c, the user terminal 102c again transmits a data acquisition request to the channel server 10c. After acquiring the data acquisition request sent by the user terminal 102c, the channel server 10c may return a channel package download link (such as the target application/6.6.1/channel c illustrated in fig. 2 b) for the target application b to the user terminal 102c according to the application information of the target application b, obviously, the channel package download link returned for the second time is different from the channel package download link returned for the first time, and the difference is that the version information of the channel packages is inconsistent, that is, the creation and release of the channel package of the target application b are completed in a period from 11: 35 to 12: 11. The user terminal 102c obtains the channel package download link returned by the channel server 10c, and then "target application b 6.6.1" can be displayed on the corresponding display screen, at this time, the user can download the target application b of the latest version (i.e. 6.6.1 version).

The channel package download link described in the full text may include version information of the application and channel information (the channel information may include a channel name and a channel identifier).

Further, please refer to fig. 3, where fig. 3 is a schematic flow chart of a data processing method according to an embodiment of the present application. The data processing method may be performed by a computer device, as shown in fig. 3, and the data processing process may include the following steps.

Step S101, obtaining an application data packet and M channel identifications associated with the application data packet, wherein M is a positive integer greater than 1.

Specifically, the computer device may include the packaging server cluster 10a shown in fig. 1, the packaging server cluster 10a may include at least two packaging servers, and a setting management platform (which may also be understood as a common server, and its function is mainly to call the at least two packaging servers, or serve the at least two packaging servers), a developer of an application data package may preset data in the data processing process by setting the management platform, for example, paging M channel identifiers, and use the channel identifiers in each page as inputs in a channel package issuing task to be opened, and the setting management platform may also monitor the working state of the packaging servers in each stage in real time, and when a task in the current stage is completed, may send an instruction to the packaging server in the next stage, so that the packaging server performs work in real time.

The application data package refers to an application program that needs to be published to at least one channel side management platform, for example, a target application b illustrated in fig. 2b, and the application data package is not limited in the embodiment of the present application, for example, the application data package may be an application program newly developed by a technician, or an application program after the technician performs a function update on an existing application program.

The channel side management platform refers to a platform that can manage the application data package, such as the channel server 10c illustrated in fig. 2b, that is, the user can download the application data package by using a channel package download link for the application data package in the channel side management platform. The channel identifier is used for uniquely marking the channel side management platform, and the channel identifier is not limited in the embodiment of the application, for example, the channel identifier may be a name of the channel side management platform, may be a digital code of the channel side management platform, and the like.

For example, the official application platform of the application a and the web page platform of the application B belong to different channel types, and the channel types of different channel identifiers are different, and correspondingly, the generation paths for generating channel packages according to the channel identifiers of different channel types are also different, please refer to fig. 4a and fig. 4B together, where fig. 4a is a schematic structural diagram of a distribution path of a 4-type channel package provided in an embodiment of the present application, and fig. 4B is a schematic structural diagram of a distribution path of a channel package corresponding to an operation channel provided in an embodiment of the present application. As shown in fig. 4a, the embodiment of the present application illustrates 4 types of channel package distribution paths, which respectively include a channel package distribution path corresponding to grayscale distribution, a channel package distribution path corresponding to a specified channel, a channel package distribution path corresponding to an operation channel, and a channel package distribution path corresponding to an application market. The latest execution time is equal to the latest execution time of the channel package distribution path; the total number of plug-ins refers to the total number of plug-ins included in the distribution path of the channel package, for example, as the distribution path of the channel package corresponding to the operation channel in fig. 4b, there are 1 plug-ins manually triggered in stage 1, two plug-ins, a pull plug-in and a filing member plug-in, in stage 2, there are 10 distribution tasks of the channel package in stage 3, each distribution task of the channel package has 1 package plug-in for packaging the channel package and 1 distribution channel package plug-in, then there are 20 plug-ins in stage 3 in total, and there are two plug-ins for updating the link plug-in of the channel and the link plug-in of the distribution channel in stage 4, so that the distribution path of the channel package corresponding to the operation channel can have 25 plug-ins, and when the task of the subsequent addition stage is added, the total number of the corresponding plug-ins is added to the number of plug-ins in the task of the addition stage; the executed times are equal to the times that the distribution path of the channel package is triggered, for example, when a technician clicks the trigger control 40a in fig. 4a, fig. 4b may be displayed on the display screen corresponding to the packaging server, and at this time, the distribution path of the channel package corresponding to the operation channel starts to be executed, the executed times corresponding to the operation channel is increased by 1, and the executed times are equal to or greater than the latest construction number; the latest construction number in each channel package distribution path represents how many times this path is completely executed, for example, the latest construction number in the operation channel is 87, which indicates that this path has been completely executed 87 times, which is also equivalent to that 87 versions of this path are obtained, and 87 application versions are packaged and distributed completely, as shown in fig. 4b, when the task in each stage is completed, the latest construction number is added by 1. It is understood that the numbers in fig. 4a are only schematic, and in practical application, the numbers can be adjusted according to the scene.

It should be noted that, in the embodiment of the present application, the channel type of the channel side management platform is not limited, that is, the type of the distribution path of the channel package is not limited, as long as the corresponding channel package can be distributed to the channel package management platform (which may be equal to the target application server 10b illustrated in fig. 2 a), the following describes the process of creating the channel package, distributing the channel package, and verifying the channel package by taking the operation channel as an example, and the distribution path of other types of channel packages may refer to the following description, and in addition, the structure of different distribution paths of the channel package may be set according to the actual application scenario.

The M channel identifiers may include channel identifiers in a channel identifier list corresponding to the operating channels.

Step S102, N channel package publishing tasks are started, N is a positive integer larger than 1 and is smaller than or equal to M, packaging channel package plug-ins and publishing channel package plug-ins in the same channel package publishing task are in the same operating environment, each packaging channel package plug-in is respectively associated with different channel identifications, and the channel identifications associated with each packaging channel package plug-in all belong to M channel identifications.

Specifically, in combination with step S101, the channel package distribution path includes a channel package distribution task. After any one packaging server (for example, the packaging server 101a illustrated in fig. 2 a) in the packaging server cluster acquires the application data packet and M channel identifiers associated with the application data packet, a technician corresponding to the packaging server may set the number of channel packet distribution tasks according to the number M of the channel identifiers, assuming that the number of channel packet distribution tasks to be started is 10, if the number M of the channel identifiers is small, for example, M <10, the technician may set in advance the input of one or the same number of channel packet distribution tasks as M (which may include the storage address of the application data packet and the storage address of the channel identifier associated with each channel packet distribution task), and then, the channel packet distribution path may automatically start the set channel packet distribution task; if the number M of the channel identifiers is small, for example, M <100, a technician may set one channel package publishing task in advance, or may set 10 channel package publishing tasks in advance; if the number M of channel identifiers is large, for example, M >1000, in order to save the packaging time, a technician may set 10 channel package distribution tasks in advance. It can be understood that the opened channel package publishing task is a channel package publishing task which is set in advance, and in addition, the quantity relationship between M and N can be set according to an actual application scenario, which is not limited herein.

In the embodiment of the application, only the operation channel is taken as an example to illustrate the channel package issuing path, each stage in the channel package issuing path corresponding to the operation channel can be executed by different packaging servers in the packaging server cluster, and the plug-in unit in the same operation environment can be operated by the same packaging server in the packaging server cluster. As shown in fig. 4b, after the manual trigger plug-in stage 1 is executed, that is, after the technician clicks the trigger control 40a in fig. 4a, the packaging server in stage 2 executes the pull plug-in to pull the application data package under the code directory, and then executes the filing component plug-in to file the application data package to the public server in the packaging server cluster, wherein the public server is dedicated to storing the data acquired or generated by the sub-server in the packaging server cluster.

After archiving the application data package, the packaging server in stage 3 starts a channel package publishing task that has been set in advance, as shown in fig. 4b, N =10, which is equivalent to the 10 channel package publishing tasks illustrated in fig. 2 a. As shown in fig. 4b, the package channel package plugin and the publishing channel package plugin in the same channel package publishing task are in the same operating environment, such as the compiling-free environment shown in fig. 4 b; it can be understood that each package channel package plug-in is respectively associated with different channel identifiers, and the channel identifier associated with each package channel package plug-in belongs to the M channel identifiers, for example, M =1000, n =10, there are 1000 channel identifiers for an operation channel, and 10 channel package publishing tasks are started, so that the input of the package channel package plug-in the 1 st channel package publishing task may include an application data package, a channel identifier 1, a channel identifier 2, …, and a channel identifier 100; the input of the package channel package plug-in the 2 nd channel package publishing task may include an application data package, a channel identifier 101, a channel identifier 102, …, and a channel identifier 200; by analogy, it can be known that the input of the package channel package plug-in the 9 th channel package publishing task may include an application data package, a channel identifier 801, channel identifiers 802, …, and a channel identifier 900; the input of the package channel package plug-in the 10 th channel package publishing task may include an application data package, a channel identification 901, a channel identification 902, …, a channel identification 1000.

Step S103, running N packaging channel package plug-ins in parallel to obtain channel packaging results output by the N packaging channel package plug-ins respectively, wherein each packaging channel package plug-in is used for packaging the associated channel identification and the application data package.

Specifically, the N packaging channel package plug-ins comprise a packaging channel package plug-in F _i I is a positive integer and i is less than or equal to N; pack of packages by running the packaging channel F _i Packaging channel package plug-in component F _i Packaging the associated channel identification into an application data packet, and determining the application data packet packaged with the channel identification as a packaging channel packet plug-in F _i Packaging the result of the corresponding channel; on-the-fly package channel plug-in F _i Simultaneously, running (N-1) packaging channel package plug-ins in parallel to obtain channel packaging results respectively output by the (N-1) packaging channel package plug-ins, wherein the (N-1) packaging channel package plug-ins mean that the N packaging channel package plug-ins except the packaging channel package plug-in F _i And (4) packaging channel package plug-ins.

Wherein, the packaging channel package plug-in component F _i The associated channel identification comprises W channel identifications, wherein W is a positive integer and is less than M; determining packaging channel package plug-in component F _i The specific process of the corresponding channel encapsulation result may include: pack of packages by running the packaging channel F _i Respectively packaging the W channel identifications to the application data packets; determining the application data packet packaged with the channel identification as a channel packet, wherein the channel identification contained in each channel packet is different; determining the packaged channel package as a packaged channel package plug-in component F _i Packaging the corresponding channel; if the package channel package plug-in component F _i Determining that the number of channel packages in the corresponding channel packaging result is less than W, and packaging a channel package plug-in F _i The corresponding channel packaging result does not meet the channel package release condition; if packaging channel package plug-in component F _i Determining that the number of channel packages in the corresponding channel packaging result is equal to W, and packaging a channel package plug-in F _i And the corresponding channel packaging result meets the publishing condition of the channel package.

Please refer to fig. 5a and fig. 4b together, wherein fig. 5a is a schematic view of a data processing scenario according to an embodiment of the present application. As can be seen from the combination of step S102 and fig. 4b, N =10, that is, the number of channel package packaging tasks is 10, 10 packaging channel package plug-ins are run in parallel in the packaging server cluster, so as to obtain channel packaging results output by the 10 packaging channel package plug-ins respectively; as shown in fig. 5a, the input of the package channel package plug-in 1 in the 1 st channel package publishing task may include an application data package 50a and a channel identifier list 501b, and the channel identifier list 501b may include a channel identifier 1, a channel identifier 2, …, and a channel identifier 100; the input of the package channel package plug-in 2 in the 2 nd channel package publishing task may include an application data package 50a and a channel identifier list 502b, where the channel identifier list 502b may include a channel identifier 101, a channel identifier 102, …, and a channel identifier 200; by analogy, it can be known that the input of the package channel package plug-in 9 in the 9 th channel package publishing task may include the application data package 50a and the channel identifier list 509b, and the channel identifier list 509b may include a channel identifier 801, a channel identifier 802, a …, and a channel identifier 900; the input of the package channel package plug-in 10 in the 10 th channel package publishing task may include an application data package 50a and a channel identification list 510b, and the channel identification list 510b may include a channel identification 901, a channel identification 902, …, and a channel identification 1000.

Referring to fig. 5a again, when the time for operating 10 package plug-ins reaches 7 minutes and 25 seconds, the channel package result 1 output by the package channel package plug-in 1 may include a channel package 1g, … and a channel package 98g, where the channel package 1g may include a channel identifier 1, … and the channel package 98g may include a channel identifier 98, and obviously, at this time, the package channel package plug-in 1 does not output a channel package for the channel identifier 99 and a channel package for the channel identifier 100, so the channel package result 1 does not satisfy the channel package publishing condition; the channel packaging result 2 output by the packaging channel package plugin 2 can comprise a channel package 101g, … and a channel package 199g, wherein the channel package 101g can comprise a channel identifier 101, …, and the channel package 199g can comprise a channel identifier 199, obviously, at this time, the packaging channel package plugin 2 does not output a channel package aiming at the channel identifier 200, so the channel packaging result 2 does not meet the channel package issuing condition; referring to fig. 5a again, the channel encapsulation result 9 output by the encapsulation channel package plug-in 9 may include a channel package 801g, …, and a channel package 893g, where the channel package 801g may include channel identifiers 801 and …, and the channel package 893g may include a channel identifier 893, obviously, at this time, the encapsulation channel package plug-in 9 does not output channel packages respectively corresponding to the channel identifiers 894-900, so the channel encapsulation result 9 does not satisfy the channel package publishing condition; the channel encapsulation result 10 output by the encapsulation channel package plug-in 10 may include a channel package 901g, …, and a channel package 998g, where the channel package 901g may include a channel identifier 901, …, and the channel package 998g may include a channel identifier 998, and obviously, at this time, the encapsulation channel package plug-in 10 does not output a channel package for the channel identifier 999 and a channel package for the channel identifier 1000, so the channel encapsulation result 10 does not satisfy the channel package publishing condition.

It is understood that fig. 5a only describes the package channel package plug-in 1, the package channel package plug-in 2, the package channel package plug-in 9 and the package channel package plug-in 10 as examples, and other package channel package plug-ins can refer to the above description.

And step S104, when the channel packaging result meeting the channel package publishing condition exists in the N channel packaging results, determining the channel packaging result meeting the channel package publishing condition as a target channel packaging result, and publishing the target channel packaging result to a channel package management platform by operating a target publishing channel package plug-in until the N channel packaging results are all published to the channel package management platform, wherein the target publishing channel package plug-in is a publishing channel package plug-in a channel package publishing task to which the target channel packaging result belongs.

Specifically, please refer to fig. 5b together, and fig. 5b is a schematic view of a data processing scenario provided in the embodiment of the present application. With reference to fig. 5a and 5b, when the time for the packaging server cluster to run 10 packaged channel package plug-ins reaches 7 minutes and 34 seconds, a channel package 99g is added to the channel packaging result 1, where the channel package 99g may include a channel identifier 99, and obviously, at this time, the packaged channel package plug-in 1 does not output a channel package for the channel identifier 100, so the channel packaging result 1 still does not satisfy the channel package publishing condition; a channel package 200g is added to the channel package result 2, wherein the channel package 200g may include a channel identifier 200, and obviously, the package channel package plug-in 2 has output channel packages corresponding to all channel identifiers input by the package channel package plug-in 2, so the channel package result 2 meets the channel package publishing condition, in this case, the channel package result 2 may be published to a channel package management platform 50d, that is, the target application server 10b in fig. 2a, by running the publishing channel package plug-in 2 in the channel package publishing task; it can be understood that a certain time is required for publishing the channel package result 2, and when the time for operating the packaging server cluster reaches 7 minutes and 34 seconds, it can indicate that the publishing channel package plug-in 2 is publishing the channel package result 2, and cannot indicate that the publishing channel package result 2 is completed.

Referring to fig. 5b again, when the operating time of the packaging server cluster reaches 7 minutes and 34 seconds, the channel package result 9 is added to the channel package 896g, wherein the channel package 896g may include a channel identifier 896, obviously, at this time, the packaging channel package plug-in 9 does not output the channel packages respectively corresponding to the channel identifier 897-the channel identifier 900, so the channel package result 9 does not satisfy the channel package publishing condition; similarly, a channel package 999g is added to the channel packaging result 10, wherein the channel package 999g may include a channel identifier 999, and obviously, at this time, the packaging channel package plug-in 10 does not output a channel package for the channel identifier 1000, so the channel packaging result 10 does not satisfy the channel package publishing condition.

Referring to fig. 4b again, when the time for the packaging server cluster to start 10 channel package distribution tasks reaches 7 minutes and 35 seconds, the channel encapsulation result 2 is transmitted to the channel package management platform by running the distribution channel package plug-in 2; the channel encapsulation result 10 output by the encapsulation channel package plugin 10 can comprise a channel package 901-a channel package 1000, so that the channel encapsulation result 10 meets the channel package publishing condition, and subsequently, the channel encapsulation result 10 can be published to the channel package management platform by operating the publishing channel package plugin 10 which is in the same operating environment as the encapsulation channel package plugin 10; when the time for starting 10 channel package distribution tasks by the packaging server cluster reaches 7 minutes and 36 seconds, transmitting the channel packaging result 2 to the channel package management platform by operating the distribution channel package plug-in 2, and transmitting the channel packaging result 10 to the channel package management platform by operating the distribution channel package plug-in 10; in addition, the channel encapsulation result 1 output by the encapsulation channel package plugin 1 can comprise a channel package 1-a channel package 100, so that the channel encapsulation result 1 meets the channel package publishing condition, and subsequently, the channel encapsulation result 1 can be published to the channel package management platform by operating the publishing channel package plugin 1 which is in the same operating environment as the encapsulation channel package plugin 1; the distribution of the other channel encapsulation results is also the distribution process described above, and therefore is not described in detail.

Referring to fig. 4b again, when the time for the packaging server cluster to start 10 channel package distribution tasks reaches 7 minutes and 50 seconds, 10 channel package results all satisfy the channel package distribution condition, and when the time for the packaging server cluster to start 10 channel package distribution tasks reaches 18 minutes and 41 seconds, the 2 nd channel package distribution task is completed, that is, by running the distribution channel package plugin 2, the channel package result 2 is transmitted to the channel package management platform; when the time for starting 10 channel packet distribution tasks by the packaging server cluster reaches 19 minutes and 00 seconds, all the 10 channel packet distribution tasks are executed.

In the embodiment of the application, by arranging the packaging channel package plug-in (used for packaging the channel identifier and the application data package) in the same channel package publishing task and the publishing channel package plug-in the same operating environment, the channel packaging result output by the packaging channel package plug-in can be directly published to the channel package management platform by the publishing channel package plug-in, so that the channel packaging result output by the packaging channel package plug-in can be prevented from being acquired by the publishing channel package plug-in after being compressed into a compressed package, and further the channel packaging result output by the packaging channel plug-in can be prevented from being acquired by decompressing the compressed package by the publishing channel package plug-in; in addition, in the embodiment of the application, by starting the N channel package publishing tasks, N encapsulation channel package plug-ins and N publishing channel package plug-ins can be obtained, by running the N encapsulation channel package plug-ins in parallel, channel encapsulation results respectively output by the N encapsulation channel package plug-ins can be obtained, and by running the publishing channel package plug-ins corresponding to the encapsulation channel package plug-ins, channel encapsulation results meeting the publishing conditions of the channel package can be published to the channel package management platform. In addition, by running N packaging channel package plug-in components in parallel, N packaging tasks of the channel packages can be executed in a concurrent mode, so that N packaging results of the channels can be obtained quickly, and the publishing efficiency of the channel packages can be further improved.

Further, please refer to fig. 6, where fig. 6 is a schematic flowchart of a data processing method according to an embodiment of the present application. The data processing method can be executed by a computer device, as shown in fig. 6, and the data processing process includes the following steps:

step S201, an application data packet and M channel identifiers associated with the application data packet are obtained, where M is a positive integer greater than 1.

Step S202, N channel package publishing tasks are started, N is a positive integer larger than 1 and is smaller than or equal to M, packaging channel package plug-ins and publishing channel package plug-ins in the same channel package publishing task are in the same operating environment, each packaging channel package plug-in is respectively associated with different channel identifications, and the channel identifications associated with each packaging channel package plug-in all belong to M channel identifications.

Step S203, running N packaging channel package plug-ins in parallel to obtain channel packaging results output by the N packaging channel package plug-ins respectively, wherein each packaging channel package plug-in is used for packaging the associated channel identification and the application data package.

Step S204, when the channel packaging result meeting the channel package publishing condition exists in the N channel packaging results, determining the channel packaging result meeting the channel package publishing condition as a target channel packaging result, and publishing the target channel packaging result to a channel package management platform by operating a target publishing channel package plug-in until the N channel packaging results are all published to the channel package management platform, wherein the target publishing channel package plug-in is a publishing channel package plug-in a channel package publishing task to which the target channel packaging result belongs.

The specific processes of step S201 to step S204 may refer to the descriptions of step S101 to step S104 in the embodiment corresponding to fig. 3, and are not described herein again.

The computer device may include a packaging server cluster 10a shown in fig. 1, where the packaging server cluster 10a may include at least two packaging servers, and a setting management platform (which may also be understood as a common server, and its function is mainly to call the at least two packaging servers, or serve the at least two packaging servers), a developer of an application data package may preset data in the data processing process by setting the management platform, for example, paging M channel identifiers, and take the channel identifiers in each page as inputs in a channel package issuing task to be started, and the setting management platform may also monitor the working state of the packaging servers in each phase in real time, and when a task in the current phase is completed, may send an instruction to the packaging server in the next phase, so that the packaging server in the next phase performs work in real time.

Step S205, obtaining channel package download link X returned by channel package management platform _c Channel package download link X _c Plug-in component A for representing and publishing channel package _c The storage address of the issued channel packaging result in the channel package management platform, and the issuing channel package plug-in A _c The published channel packaging result comprises W channel packages, channel identifiers contained in each channel package are different from each other, and the W channel packages are packaged by a packaging channel package plug-in component F _c A package channel package plugin F obtained by packaging the associated channel identification into an application data package _c The associated channel identifications include W channel identifications.

Specifically, the N package channel plug-ins include a package channel package plug-in F _c The N publishing channel package plug-ins include and encapsulate channel package plug-ins F _c Publishing channel package plug-in A in the same operating environment _c C is a positive integer, and c is less than or equal to N.

Referring to fig. 2a and fig. 4b again, in the embodiment of the present application, if M =1000, n =10, that is, 10 channel package publishing tasks are started in stage 3, W may be equal to 100, and it is assumed that the input of the package channel package plug-in the 1 st channel package publishing task includes a channel identifier 1, a channel identifier 2, …, and a channel identifier 100; the input of the package channel package plug-in the 2 nd channel package publishing task comprises a channel identifier 101, channel identifiers 102, … and a channel identifier 200; by analogy, the input of the package channel package plug-in the 10 th channel package publishing task includes a channel identifier 901, a channel identifier 902, …, and a channel identifier 1000. Each channel packet publishing task may be performed by 10 respective packaging servers in the cluster of packaging servers, assuming that the 1 st channel packet publishing task is performed by packaging server 102a, … and the 10 th channel packet publishing task is performed by packaging server 103 a.

Referring to fig. 7a, fig. 7a is a schematic view of a data processing scenario according to an embodiment of the present disclosure. As shown in fig. 7a, when a channel encapsulation result 1 in a 1 st channel package publishing task includes a channel package 1g, a channel package 2g, …, and a channel package 100g, it may be determined that the channel encapsulation result 1 satisfies a channel package publishing condition, where the channel package 1g includes a channel identifier 1, the channel package 2g includes a channel identifier 2, …, and the channel package 100g includes the channel identifier 100; the packaging server 102a operates and releases the channel package plug-in 1 to transmit the channel package 1g, the channel packages 2g, … and the channel package 100g to the channel package management platform 50d respectively, the channel package management platform 50d stores the channel package 1g, the channel package 2g, … and the channel package 100g respectively, and when the storage is finished, the channel package is downloaded and linked with the link X ₁ Returning to the packaging server 102a, the channel package download link X ₁ May include a channel package download link for channel package 1g, a channel package download link for channel package 2g, …, a channel package download link for channel package 100 g; when the channel package management platform 50d acquires the channel package 901g, the channel package 902g, the channel package … and the channel package 1000g transmitted by the operation and release channel package plugin 10, the channel package 901g, the channel package 902g, the channel package … and the channel package 1000g are respectively stored, and when the storage is finished, the channel package is downloaded to be linked with the X link ₁₀ Returning to the packaging server 103a, the channel package download link X ₁₀ May include a point-to-ditchChannel package download link for channel package 901g, channel package download link for channel package 902g, …, channel package download link for channel package 1000 g. Obtaining the download links X of other channel packages _c The processes in (2) are the same as the above processes, and thus are not described in detail.

Step S06, downloading link X according to W channel identifications and channel packages _c Generating a publishing channel package plug-in A _c Corresponding catalog, publishing channel package plug-in component A _c The corresponding catalog is transmitted to the update channel link plug-in.

Specifically, a publishing channel package plug-in A _c The corresponding catalog includes a publishing channel package plug-in A _c A corresponding first directory; according to the channel demand information, a download link X including a channel package is generated _c And a first catalog Y of W channel identifications _c First directory Y _c Means that the publishing channel package is inserted into A _c A corresponding first directory; a first directory Y _c And transmitting to the update channel link plug-in.

Referring to FIG. 7a, the embodiment of the present application only issues the channel package plug-in A ₁ (equivalent to the distribution channel package plug-in 1 in FIG. 7 a) corresponding to the first directory 701a is described as an example, and the other distribution channel package plug-ins A _c The description of the corresponding first directory may refer to the description below. The channel pack management platform 50d collects the requirements of the management platforms of each channel party in advance, generates channel requirement information and sends the channel requirement information to the packaging server cluster; the packaging server 102a acquires the channel package download link X returned by the channel package management platform 50d ₁ Then, generating a first catalog Y according to the channel demand information ₁ That is, the first directory 701a in fig. 7a, the first directory 701a may include a channel identifier 1, a channel identifier 2, …, and a channel identifier 100 associated with the package channel package plug-in 1, may further include a channel package download link 1 for a channel package 1g, includes a channel package download link 2, … for a channel package 2g, includes a channel package download link 100 for a channel package 100g, and may further include target demand information 1 for the channel package 1g, target demand information 2 for the channel package 2g, and target demand information 100 for the channel package 100 g. WhereinThe target demand information can be the generation time of the channel package, the version information of the channel package and the like.

The packaging server 102a transmits the first catalog 701a to the update channel link plug-in stage 4.

Specifically, a publishing channel package plug-in A _c The corresponding catalog includes a publishing channel package plug-in A _c A corresponding second directory; generating a download link X including a channel package according to a historical channel mapping table _c And a second catalog E of W channel identifications _c Second directory E _c Means that the publishing channel package is inserted into A _c A corresponding second directory; second directory E _c To the update channel link plug-in.

Referring to FIG. 7a, in the embodiment of the present application, only the channel package plug-in A is published ₁₀ (equivalent to the distribution channel package plug-in 10 in FIG. 7 a) corresponding to the second directory 710b is described as an example, and the rest of the distribution channel package plug-ins A _c The description of the corresponding second directory may refer to the description below. The packaging server 103a acquires the channel package download link X returned by the channel package management platform 50d ₁ Then, a historical channel mapping table is obtained, where the historical channel mapping table is a second channel mapping table for a version of an application data packet on a target application b (an application name of the application data packet), and a manner of obtaining the historical channel mapping table is not limited in this embodiment of the application, and the historical channel mapping table may be obtained locally by the packaging server 103a, or may be an online channel mapping table (i.e., a historical channel mapping table) returned by the channel packet management platform 50 d.

Generating a second directory E according to the table format of the historical channel mapping table ₁₀ That is, the second directory 710b in fig. 7a, the second directory 710b may include a channel identifier 901, a channel identifier 902, …, and a channel identifier 1000 associated with the package channel package plug-in 10, may further include a channel package download link 901 for a channel package 901g, may include a channel package download link 902, … for a channel package 902g, may include a channel package download link 1000 for a channel package 1000g, and may further includeThe channel mapping requirement information comprises channel mapping requirement information 901 aiming at a channel package 901g, channel mapping requirement information 902 aiming at a channel package 902g and channel mapping requirement information 1000 aiming at a channel package 1000 g. The channel mapping demand information can be the generation time of the channel package, the version information of the channel package and the like.

The packaging server 103a transmits the second catalog 710b to the update channel link plug-in stage 4.

The first directory Y _c Corresponding directory format and a second directory E _c The corresponding directory formats can be the same, and the directory formats are not limited in the application, so that the function of being read is achieved. It will be appreciated that the first directory Y _c And a second directory E _c The data respectively included may be inconsistent, such as inconsistent target demand information and channel mapping demand information, first catalog Y _c And a second directory E _c The data included in each case may be identical, that is, the data are the same. Therefore, optionally, a channel package download link X is generated according to the channel demand information and the historical channel mapping table _c And a catalog V of W channel identifications _c (ii) a Catalog V _c Means that the publishing channel package is inserted into A _c A corresponding directory; directory V _c And transmitting to the update channel link plug-in. Catalog V _c May include a first directory Y _c Included data, and a second directory E _c The included data.

Step S207, generating a channel mapping table according to the update channel link plug-in and the N directories, wherein the N directories comprise directories corresponding to the N release channel package plug-ins respectively, the channel mapping table is used for indicating, and the platform associated with the M channel identifiers performs channel link update processing.

Specifically, the N directories comprise first directories corresponding to the N publishing channel package plug-ins respectively; when the updating channel link plug-in obtains the N first catalogs, starting a channel package updating task, wherein the channel package updating task comprises an updating channel link plug-in and a releasing channel link plug-in which are in the same operating environment; generating a first channel mapping table according to the updated channel link plug-in and the N first directories; and sending a first channel mapping table to a first channel party management platform by operating a release channel link plug-in, wherein the first channel mapping table is used for indicating the first channel party management platform and downloading a target channel package from the channel package management platform, channel identifications corresponding to the first channel party management platform belong to M channel identifications, and the target channel package comprises channel identifications corresponding to the first channel party management platform.

The N first catalogs comprise M channel identifications, channel package downloading links corresponding to the M channel identifications respectively, and target demand information corresponding to the M channel identifications respectively, wherein the M target demand information is determined according to the channel demand information; the specific process of generating the first channel mapping table may include: acquiring a first initial channel mapping table; respectively storing the M channel identifications, the M channel package download links and the M target demand information in a first initial channel mapping table by operating an update channel link plug-in; determining a first initial channel mapping table in which M channel identifications, M channel package downloading links and M target demand information are stored as a first channel mapping table, wherein the channel identifications and the channel package downloading links in the first channel mapping table have a mapping relation, and the channel identifications and the target demand information in the first channel mapping table have a mapping relation.

Please refer to fig. 4b and fig. 7b together, and fig. 7b is a schematic diagram of a data processing scenario according to an embodiment of the present application. The channel package update task may be executed by the packaging server 70f in the packaging server cluster, and the update channel linking plug-in and the publishing channel linking plug-in are run by the packaging server 70f, when the update channel linking plug-in stage 4 acquires 10 first directories, that is, 10 first directories are used as inputs of the update channel linking plug-in, at this time, the packaging server 70f may start the channel package update task, and the 10 first directories may include the first directory 701a, the second directory 702a, the …, and the tenth directory 710a illustrated in fig. 7b, where the first directory 701a is identical to the first directory 701a described in step S206.

The embodiment of the application assumes that the target demand information is the version information of the channel package, and the version information is assumed to be 6.6.1. The packaging server 70f obtains a first initial channel mapping table 70c, as shown in fig. 7b, the first initial channel mapping table 70c is an empty table, i.e. does not include data; the packaging server 70f may read data from the 10 first directories by running the update channel link plug-in, and correspondingly store the read data into the first initial channel mapping table 70c, and when the reading is completed, generate a first channel mapping table 70d. The packaging server 70f may publish the first channel mapping table 70d to the first channelizer management platform 70e by running a publishing channel link plug-in, where the first channelizer management platform 70e may include the channel server 10e and the channel server 10f in fig. 1, i.e., the first channelizer management platform 70e is a channelizer management platform that cannot access the second channel mapping table in the channel package management platform; the channel server cluster in fig. 1 may also be included, that is, the first channel mapping table is sent to all the channelizer management platforms corresponding to the channel package management platform, and the scope of the first channelizer management platform 70e is limited in the present application.

The table format of the first channel mapping table is not limited in the embodiment of the application, and the first channel mapping table can be any format with a data structure.

Specifically, the N directories comprise second directories corresponding to the N publishing channel package plug-ins respectively; when the updating channel link plug-in obtains the N second catalogs, starting a channel package task, a channel package updating task, wherein the updating channel link plug-in and the releasing channel link plug-in which are included in the channel package updating task are in the same operating environment; generating a second channel mapping table according to the updated channel link plug-in and the N second directories; and sending the second channel mapping table to a channel package management platform by operating a release channel link plug-in, so that the channel package management platform updates a historical channel mapping table according to the second channel mapping table, and provides a target channel package download link for the second channel party management platform according to the second channel mapping table, wherein channel identifications corresponding to the second channel party management platform belong to the M channel identifications, and the channel identifications corresponding to the second channel party management platform have a mapping relation with the target channel package download link.

The N second catalogs comprise M channel identifications, channel package downloading links corresponding to the M channel identifications respectively, and channel mapping demand information corresponding to the M channel identifications respectively; m pieces of channel mapping demand information are determined according to a historical channel mapping table; the specific process of generating the second channel mapping table may include: acquiring a first channel mapping table to be merged associated with a historical channel identification set from a historical channel mapping table, wherein channel identifications in the historical channel identification set are different from M channel identifications; acquiring a second initial channel mapping table; respectively storing the M channel identifications, the M channel package download links and the M channel mapping demand information into a second initial channel mapping table by operating an update channel link plug-in, and determining the second initial channel mapping table in which the M channel identifications, the M channel package download links and the M channel mapping demand information are stored as a second channel mapping table to be merged; and combining the first channel mapping table to be combined with the second channel mapping table to be combined to obtain a second channel mapping table, wherein the identification number of the channel identifications in the second channel mapping table is equal to the identification number of the channel identifications in the historical channel identification set and the total number of the channel identifications in the historical channel identification set.

The generation process of the second channel mapping table is substantially the same as the generation process of the first channel mapping table, the packaging server 70f first obtains the historical channel mapping table, compares the M channel identifiers with the channel identifiers in the historical channel mapping table, and according to the comparison result, can determine the historical channel identifier set in the historical channel mapping table, where the channel identifiers in the historical channel identifier set are different from the M channel identifiers, and with reference to fig. 7a and 7b, the M channel identifiers can include a channel identifier 1, a channel identifier 2, …, and a channel identifier 1000, and assuming that the historical channel mapping table includes a channel identifier 1, a channel identifier 2, …, a channel identifier 1000, a channel identifier 1001, and a channel identifier 1002, the historical channel identifier set can include a channel identifier 1001 and a channel identifier 1002, that is, the channel identifiers in the historical channel identifier set are different from the M channel identifiers. The packaging server 70f obtains a first to-be-merged channel mapping table associated with the historical channel identifier set from the historical channel mapping table, the first to-be-merged channel mapping table may include data associated with the channel identifier 1001 and data associated with the channel identifier 1002, the data associated with the channel identifier 1001 may include a channel package download link associated with the channel identifier 1001 and channel mapping requirement information associated with the channel identifier 1001, and it is understood that the channel package including the channel identifier 1001 is a channel package of a previous application version (for example, 6.6.0 version) instead of 6.6.1 version.

The packaging server 70f obtains a second initial channel mapping table, which is an empty table and temporarily does not include data; the method comprises the steps of operating an updating channel link plug-in, respectively storing M channel identifications, M channel package download links and M channel mapping demand information in a second initial channel mapping table, determining the second initial channel mapping table in which the M channel identifications, the M channel package download links and the M channel mapping demand information are stored as a second channel mapping table to be merged, wherein the process is consistent with the process of determining a first channel mapping table, so that description is not expanded; and finally, the packaging server 70f combines the first channel mapping table to be combined with the second channel mapping table to be combined to obtain a second channel mapping table.

In summary, the biggest difference between the first channel mapping table and the second channel mapping table is that the first channel mapping table only includes data associated with the M channel identifiers packaged this time, and the second channel mapping table includes not only the data associated with the M channel identifiers, but also associated data of channel identifiers packaged previously, where the channel identifiers packaged previously may include other channel identifiers besides the M channel identifiers packaged this time, and refer to table 1 specifically, where table 1 is a channel construction scenario table provided in the embodiment of the present application;

TABLE 1

As shown in table 1, when the scene is the existing ABCD four channels and the new channel E is built this time, it can be understood that the application data packet is updated, that is, the application version is changed, for example, the application version is upgraded from 6.6.0 to 6.6.1; when the application version is 6.6.0, namely the last version, the server cluster is packed to generate A, B, C, D channel packages corresponding to the four channel parties respectively, so that the historical channel mapping table comprises relevant data corresponding to A, B, C, D channel parties respectively; when the application version is 6.6.1, that is, the current version, the packaging server cluster generates A, B, C, D, E channel packages corresponding to the five channel parties respectively, and it is to be noted that the channel package for the channel party a constructed this time is different from the channel package for the channel party a constructed last time, and the difference is mainly that the application version included in the channel package for the channel party a constructed last time is 6.6.0, and the application version included in the channel package for the channel party a constructed this time is 6.6.1, b, and C, D, which are also the same, and thus description is not repeated here one by one. In summary, although the historical channel mapping table and the second channel mapping table both include the relevant data corresponding to A, B, C, D for the four channel parties, the data included in the two tables are not completely the same, and for A, B, C, D for the four channel parties, the channel identifiers in the two tables are the same, but the channel package download links included in the two tables are different. In addition, the second channel mapping table adds the related data of the channel side E. It is understood that the related data may include channel identification, channel package download link, and channel mapping requirement information.

When the scene is four existing ABCD channels and the channel constructed this time is ABC, it can also be understood that the application data packet is updated, that is, the application version is changed, for example, the application version is upgraded from 6.6.0 to 6.6.1; compared with the first scenario, the difference is that there is no new channel party in the current scenario, and it can be seen from the above that the historical channel mapping table and the second channel mapping table in the current scenario are completely the same for the relevant data of the channel party D, but for the A, B, C three channel parties, but the data included in the two tables are not completely the same, where the channel identifiers in the two tables are the same, but the channel package download links included in the two tables are different.

When the scene is four channels of the existing ABCD, the channel constructed this time is the ABCD, and the channel E is constructed and temporarily added, it can be understood that although the application data packet is updated, for example, the application version is upgraded from 6.6.0 to 6.6.1, the channel package constructed for the first time is completed, and only the channel party is added currently; in summary, the historical channel mapping table and the second channel mapping table in the current scenario are completely the same for the relevant data of the A, B, C, D of the four channel parties, but the second channel mapping table adds the relevant data of the channel party E.

Since the file with the same name has the effect of replacing the overlay, after the packaging server 70f transmits the second channel mapping table to the channel package management platform by running the publishing channel link plug-in, the currently generated channel mapping table stored in the channel package management platform, that is, the second channel mapping table. The table format of the second channel mapping table is not limited in the embodiment of the application, and may be any format with a data structure, for example, a JavaScript Object Notification (JSON) format, where JSON is an ultra-lightweight data interaction format.

With reference to step S201 to step S207, please refer to fig. 7c, and fig. 7c is a schematic flowchart of a data processing method according to an embodiment of the present application. As shown in fig. 7c, step 1, the packaging server cluster first obtains an application data packet; step 2, the packaging server cluster starts a plurality of channel package issuing tasks, and each channel package issuing task comprises a packaging channel package plug-in and an issuing channel package plug-in; step 3, packaging the server cluster to start a channel package updating task, and generating a first channel mapping table and a second channel mapping table in parallel; and step 4, sending the first channel mapping table to a first channel party management platform, and sending the second channel mapping table to a channel package management platform.

The method can also specifically comprise publishing channel package plug-in component A _c The corresponding catalog comprises a channel package downloading link to be verified; performing link verification processing on the download link of the channel package to be verified to obtain a verification result, wherein the verification result comprises a verification failure result and a verification success result; if the checking result isIf the verification fails, determining that the download link of the channel package to be verified is an error link; and if the verification result is a successful verification result, executing the step of generating a channel mapping table according to the updated channel link plug-in and the N directories.

Before the channel link update plug-in is operated, the packaging server 70f first checks the acquired channel package download link to determine that the channel package management platform successfully stores the channel package, that is, the channel package management platform returns the behavior of the channel package download link under the condition that whether the channel package is not successfully stored is determined. The method for checking whether the download link of the channel package is normal is not limited in the embodiment of the application, for example, whether the download link is normally accessed can be checked by calling a preset function in a preset program language. In addition, the channel package to be verified downloads links from the publishing channel package plug-in A randomly _c And downloading links of the channel packages extracted from the corresponding catalogs.

Step S208, a channel package verification task is started, wherein the channel package verification task comprises a verification channel link plug-in.

Specifically, the channel mapping table includes a channel identifier D to be verified _j And with a channel identification D to be verified _j Channel package downloading link L with mapping relation _j J is a positive integer and j is less than or equal to M.

Step S209, through running the verification channel link plug-in, obtaining the download link of the channel packet to be verified in the channel party management platform to be verified, the channel identification of the channel party management platform to be verified and the channel identification D to be verified _j The same is true.

Step S210, download link L of channel package to be verified and download link L of channel package _j And comparing, and determining the updating state of the channel party management platform to be verified according to the comparison result.

Specifically, the channel package download link L _j Including channel package version information H _j (ii) a Channel package version information H _j Comparing with the version information of the channel package in the download link of the channel package to be verified, and if the version information of the channel package is H _j Version of channel package in download link with channel package to be verifiedIf the information is different, determining that the updating state of the management platform of the channel party to be verified is an updating waiting state; if the channel package version information H _j If the version information of the channel package is the same as that in the download link of the channel package to be verified, identifying the channel to be verified by using the identifier D _j Comparing the channel side information with the channel side information in the download link of the channel package to be verified; if channel identification D to be verified _j If the channel side information is inconsistent with the channel side information in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is an updating error state; if the channel identification D to be verified _j And if the channel side information is consistent with the channel side information in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is the updating success state.

Through step S207, the channel package management platform may update an existing channel mapping table (i.e., a historical channel mapping table) on the line according to the second channel mapping table, and provide the second channel party management platform with the latest channel package download link, so that a user accessing the second channel party management platform may obtain the latest channel package download link, and may download the application of the latest version. In addition, the first channel side management platform can acquire a channel package download link (including a channel identifier) associated with the first channel side management platform from the first channel mapping table according to the channel identifier of the first channel side management platform (belonging to the M channel identifiers), and then can access the channel package management platform according to the channel package download link associated with the first channel side management platform, and further can download the channel package associated with the first channel side management platform, so that the upgraded application data package can be acquired after the application is updated.

In order to prevent the error in the above process, the packaging server cluster may simulate the identity of the user to verify whether the channel package of the corresponding version can be normally distributed or whether the user can obtain the correct channel package download link. The packaging server cluster firstly obtains page addresses of all channel identifications, and it can be understood that all page addresses can be preset in advance and used as input of a verification channel link plug-in, and the verification is performed on all page addresses one by operating the verification channel link plug-in, a currently verified page address can be regarded as a page address to be verified, in the application, a page address 1 (assumed to be a page address corresponding to a channel identification 1) is taken as an example for description, and the verification of page addresses corresponding to other channel identifications can refer to the following description. The page address 1 is a page address corresponding to the channel side management platform 1.

Assuming that the page address 1 is a page address to be verified, the channel identifier 1 is a channel identifier to be verified, and in the channel mapping table, the packaging server cluster acquires a channel identifier D to be verified ₁ (i.e. channel identification 1) channel package download link L with mapping relation ₁ (i.e., channel package download link 1); automatically opening a webpage to be verified of a page address 1 by operating a verification channel link plug-in, acquiring a network address (Hypertext Reference, href) link corresponding to a download button in the webpage to be verified based on a crawler technology, wherein the link is equal to a channel package download link to be verified, and firstly downloading channel package version information H in the channel package download link 1 ₁ Comparing with the version information of the channel package in the download link of the channel package to be verified, and if the version information of the channel package is H ₁ Different from the version information of the channel package in the download link of the channel package to be verified, e.g., the version information H of the channel package ₁ If the version information of the channel package in the channel package download link to be verified is 6.6.1 and the version information of the channel package in the channel package download link to be verified is 6.6.0, determining that the update state of the channel party management platform to be verified (namely the channel party management platform 1) is an update waiting state, namely the channel package download link in the channel party management platform 1 is still the channel package download link of the channel package corresponding to the previous version; if the channel package version information H ₁ 6.6.1, and the version information of the channel package in the download link of the channel package to be verified is also 6.6.1, it can be determined that the download link of the channel package in the channel side management platform 1 is updated, but it needs to be confirmed whether the download link of the channel package to be verified is the download link of the channel package corresponding to the channel side management platform 1, and further, the packaging server cluster compares the channel identifier 1 with the channel side information in the download link of the channel package to be verified; if channel identification D to be verified ₁ (i.e. channel ID 1) inconsistent with channel side information in the download link of the channel package to be verified, e.g. in the download link of the channel package to be verifiedThe channel side information corresponds to the channel side management platform 2, the updating state of the channel side management platform 1 is determined to be an updating error state, namely although the channel side management platform 1 updates the channel package downloading link, the updated channel package downloading link is specific to the channel side management platform 2, so that the updating error is realized; and if the channel identifier 1 is consistent with the channel party information in the download link of the channel package to be verified, determining that the updating state of the management platform of the channel party to be verified is a successful updating state.

In the embodiment of the application, by arranging the packaging channel package plug-in (used for packaging the channel identifier and the application data package) in the same channel package publishing task and the publishing channel package plug-in the same operating environment, the channel packaging result output by the packaging channel package plug-in can be directly published to the channel package management platform by the publishing channel package plug-in, so that the channel packaging result output by the packaging channel package plug-in can be prevented from being acquired by the publishing channel package plug-in after being compressed into a compressed package, and further the channel packaging result output by the packaging channel plug-in can be prevented from being acquired by decompressing the compressed package by the publishing channel package plug-in; in addition, in the embodiment of the application, by starting the N channel package publishing tasks, N encapsulation channel package plug-ins and N publishing channel package plug-ins can be obtained, by running the N encapsulation channel package plug-ins in parallel, channel encapsulation results respectively output by the N encapsulation channel package plug-ins can be obtained, and by running the publishing channel package plug-ins corresponding to the encapsulation channel package plug-ins, channel encapsulation results meeting the publishing conditions of the channel package can be published to the channel package management platform. Furthermore, a first channel mapping table is automatically generated according to the corresponding rule (namely channel demand information) by operating the update channel linking plug-in, and the first channel mapping table is published to the first channel side management platform by operating the publishing channel linking plug-in. Therefore, by adopting the method and the device, the time for compressing the channel packaging result can be saved, the time for decompressing the compression packet (the compression packet generated by the compression channel packaging result) can be saved, the distribution efficiency of the channel packet can be improved, the investment of personnel and resources can be reduced, and the updating efficiency of the channel packet downloading link can be greatly improved.

Further, please refer to fig. 8, where fig. 8 is a schematic structural diagram of a data processing apparatus according to an embodiment of the present application. The data processing means may be a computer program (including program code) running on a computer device, for example, an application software; the apparatus may be used to perform the corresponding steps in the methods provided by the embodiments of the present application. As shown in fig. 8, the data processing apparatus 1 may include: the device comprises a first acquisition module 11, a first starting module 12, a parallel operation module 13 and a result issuing module 14.

A first obtaining module 11, configured to obtain an application data packet and M channel identifiers associated with the application data packet, where M is a positive integer greater than 1;

the first starting module 12 is used for starting N channel package publishing tasks, wherein N is a positive integer greater than 1 and is less than or equal to M, and the packaging channel package plug-ins and the publishing channel package plug-ins in the same channel package publishing task are in the same operating environment, each packaging channel package plug-in is respectively associated with different channel identifiers, and the channel identifiers associated with each packaging channel package plug-in all belong to M channel identifiers;

the parallel operation module 13 is configured to operate the N encapsulation channel package plug-ins in parallel to obtain channel encapsulation results output by the N encapsulation channel package plug-ins, and each encapsulation channel package plug-in is configured to encapsulate the associated channel identifier and the application data package;

and the publishing result module 14 is configured to determine, when a channel packaging result meeting the channel package publishing condition exists in the N channel packaging results, the channel packaging result meeting the channel package publishing condition as a target channel packaging result, and publish the target channel packaging result to the channel package management platform by operating a target publishing channel package plugin until the N channel packaging results are all published to the channel package management platform, where the target publishing channel package plugin is a publishing channel package plugin in a channel package publishing task to which the target channel packaging result belongs.

For specific functional implementation manners of the first obtaining module 11, the first starting module 12, the parallel running module 13, and the result issuing module 14, reference may be made to steps S101 to S104 in the embodiment corresponding to fig. 3, which is not described herein again.

Please refer to FIG. 8,N package plug-ins including package channel package plug-in F _i I is a positive integer and i is less than or equal to N;

the parallel execution module 13 may include: a package identification unit 131 and a parallel execution unit 132.

An encapsulation identification unit 131 for packaging the plug-in F by operating the encapsulation channel _i Packaging channel package plug-in component F _i Packaging the associated channel identification into an application data packet, and determining the application data packet packaged with the channel identification as a packaging channel packet plug-in F _i Packaging the result of the corresponding channel;

a parallel operation unit 132 for operating the package channel plug-in unit F _i Simultaneously, running (N-1) packaging channel package plug-ins in parallel to obtain channel packaging results respectively output by the (N-1) packaging channel package plug-ins, wherein the (N-1) packaging channel package plug-ins mean that the N packaging channel package plug-ins except the packaging channel package plug-in F _i And (4) packaging channel package plug-ins.

For specific functional implementation manners of the package identification unit 131 and the parallel operation unit 132, reference may be made to step S103 in the embodiment corresponding to fig. 3, which is not described herein again.

Referring again to FIG. 8, package channel package insert F _i The associated channel identification comprises W channel identifications, wherein W is a positive integer and is less than M;

the package identification unit 131 may include: an encapsulation identification subunit 1311, a first determination subunit 1312, a second determination subunit 1313, and a third determination subunit 1314.

An encapsulation identifier subunit 1311 for packaging the plug-in F by running an encapsulation channel _i Respectively packaging the W channel identifications to the application data packets;

a first determining subunit 1312, configured to determine the application data packets encapsulated with the channel identifiers as channel packets, where channel identifiers included in each channel packet are different from each other;

a second determining subunit 1313, configured to determine the packaged channel package as a packaged channel package plug-in F _i Packaging the result of the corresponding channel;

a third determining subunit 1314 for determining if the channel package plug-in F is packaged _i Determining that the number of channel packages in the corresponding channel packaging result is less than W, and packaging a channel package plug-in F _i The corresponding channel packaging result does not meet the channel package release condition;

a third determining subunit 1314, configured to determine if the channel package plug-in F is packaged _i Determining that the number of channel packages in the corresponding channel packaging result is equal to W, and packaging a channel package plug-in F _i And the corresponding channel packaging result meets the publishing condition of the channel package.

For specific functional implementation manners of the package identifier subunit 1311, the first determining subunit 1312, the second determining subunit 1313, and the third determining subunit 1314, reference may be made to step S103 in the embodiment corresponding to fig. 3, which is not described herein again.

Please refer to fig. 8,N package plug-ins including package plug-in F _c The N publishing channel package plug-ins include and encapsulate channel package plug-ins F _c Publishing channel package plug-in A in the same operating environment _c C is a positive integer, and c is less than or equal to N;

the data processing apparatus 1 may further include: a second acquisition module 15, a first generation module 16 and a second generation module 17.

A second obtaining module 15, configured to obtain a channel package download link X returned by the channel package management platform _c Channel package download link X _c Plug-in component A for representing and publishing channel package _c The storage address of the issued channel packaging result in the channel package management platform, and the issuing channel package plug-in A _c The published channel packaging result comprises W channel packages, channel identifications contained in each channel package are different from each other, and W channelsThe channel package is formed by packaging channel package plug-in components F _c A package channel package plugin F obtained by packaging the associated channel identification into an application data package _c The associated channel identification comprises W channel identifications;

a first generating module 16 for downloading link X according to W channel identifications and channel package _c Generating a publishing channel package plug-in A _c Corresponding catalog, publishing channel package plug-in component A _c Transmitting the corresponding catalog to an updating channel link plug-in;

and a second generating module 17, configured to generate a channel mapping table according to the update channel link plugin and the N directories, where the N directories include directories corresponding to the N publishing channel package plugins, and the channel mapping table is used to indicate that a platform associated with the M channel identifiers performs channel link update processing.

For specific functional implementation manners of the second obtaining module 15, the first generating module 16, and the second generating module 17, reference may be made to steps S205 to S207 in the embodiment corresponding to fig. 6, which is not described herein again.

Please refer to fig. 8,N directories including first directories corresponding to N publishing channel package plug-ins respectively;

the second generating module 17 may include: a first opening unit 171, a first generating unit 172, and a first transmitting unit 173.

A first starting unit 171, configured to start a channel package updating task when the channel link plug-in obtains the N first directories, where an updating channel link plug-in and a publishing channel link plug-in included in the channel package updating task are in the same operating environment;

a first generating unit 172, configured to generate a first channel mapping table according to the update channel link plug-in and the N first directories;

the first sending unit 173 is configured to send the first channel mapping table to the first channel management platform by running the publishing channel link plug-in, where the first channel mapping table is used to indicate the first channel management platform, and download the target channel package from the channel package management platform, where channel identifiers corresponding to the first channel management platform belong to M channel identifiers, and the target channel package includes a channel identifier corresponding to the first channel management platform.

For specific functional implementation manners of the first opening unit 171, the first generating unit 172 and the first sending unit 173, reference may be made to step S207 in the embodiment corresponding to fig. 6, which is not described herein again.

Referring to fig. 5363, each of the 8,N first directories includes M channel identifiers, channel package download links corresponding to the M channel identifiers, and target demand information corresponding to the M channel identifiers, where the M target demand information is determined according to the channel demand information;

the first generation unit 172 may include: a first obtaining sub-unit 1721, a first storing sub-unit 1722 and a fourth determining sub-unit 1723.

A first obtaining subunit 1721, configured to obtain a first initial channel mapping table;

a first storage subunit 1722, configured to store the M channel identifiers, the M channel package download links, and the M target requirement information in a first initial channel mapping table, respectively, by running an update channel link plug-in;

a fourth determining subunit 1723, configured to determine the first initial channel mapping table in which the M channel identifiers, the M channel package download links, and the M target requirement information are stored as the first channel mapping table, where the channel identifiers and the channel package download links in the first channel mapping table have a mapping relationship, and the channel identifiers and the target requirement information in the first channel mapping table have a mapping relationship.

For specific functional implementation manners of the first obtaining subunit 1721, the first storing subunit 1722, and the fourth determining subunit 1723, refer to step S207 in the embodiment corresponding to fig. 6, which is not described herein again.

Referring again to FIG. 8, the channel package plug-in A is published _c The corresponding catalog includes a publishing channel package plug-in A _c A corresponding first directory;

the first generating module 16 may include: a second generation unit 161 and a first transmission unit 162.

Second oneA generating unit 161, configured to generate a download link X including a channel package according to the channel demand information _c And a first catalog Y of W channel identifications _c First directory Y _c Means that the publishing channel package is inserted into A _c A corresponding first directory;

a first transmission unit 162 for transmitting the first directory Y _c And transmitting to the update channel link plug-in.

For specific functional implementation of the second generating unit 161 and the first transmitting unit 162, refer to step S206 in the embodiment corresponding to fig. 6, which is not described herein again.

Please refer to fig. 8,N directories including second directories corresponding to N publishing channel package plug-ins respectively;

the second generating module 17 may include: a second enabling unit 174, a third generating unit 175, and a second transmitting unit 176.

A second opening unit 174, configured to open the channel package task, the channel package update task, and the update channel link plugin and the release channel link plugin included in the channel package update task when the update channel link plugin acquires the N second directories, and are in the same operating environment;

a third generating unit 175 for generating a second channel mapping table according to the updated channel link plug-in and the N second directories;

a second sending unit 176, configured to send the second channel mapping table to the channel package management platform by running the publishing channel link plugin, so that the channel package management platform updates the historical channel mapping table according to the second channel mapping table, and provides a target channel package download link for the second channelizer management platform according to the second channel mapping table, where channel identifiers corresponding to the second channelizer management platform belong to the M channel identifiers, and a mapping relationship exists between the channel identifiers corresponding to the second channelizer management platform and the target channel package download link.

For specific functional implementation of the second enabling unit 174, the third generating unit 175, and the second sending unit 176, reference may be made to step S207 in the embodiment corresponding to fig. 6, which is not described herein again.

Referring again to fig. 8, the third generating unit 175 may include: a second acquisition sub-unit 1751, a third acquisition sub-unit 1752, a second storage sub-unit 1753, and a merging processing sub-unit 1754.

A second obtaining subunit 1751, configured to obtain, from the historical channel mapping table, a first channel to be merged mapping table associated with a historical channel identifier set, where channel identifiers in the historical channel identifier set are different from the M channel identifiers;

a third obtaining subunit 1752, configured to obtain a second initial channel mapping table;

a second storage subunit 1753, configured to store the data in the N second directories in second initial channel mapping tables respectively by running the update channel link plugin, and determine the second initial channel mapping table in which the data in the N second directories are stored as a second channel mapping table to be merged;

and a merging processing subunit 1754, configured to merge the first channel mapping table to be merged with the second channel mapping table to be merged, so as to obtain a second channel mapping table, where the number of identifiers of the channel identifiers in the second channel mapping table is equal to the number of identifiers of the channel identifiers in the historical channel identifier set and the total number of M.

For specific functional implementation manners of the second obtaining subunit 1751, the third obtaining subunit 1752, the second storing subunit 1753, and the merging processing subunit 1754, reference may be made to step S207 in the embodiment corresponding to fig. 6, which is not described herein again.

Referring again to FIG. 8, the channel package plug-in A is published _c The corresponding catalog includes a publishing channel package plug-in A _c A corresponding second directory;

the first generating module 16 may include: a fourth generation unit 163, and a second transmission unit 164.

A fourth generating unit 163 for generating a download link X including a channel package according to the historical channel mapping table _c And a second catalog E of W channel identifications _c Second directory E _c Means that the publishing channel package is inserted into A _c A corresponding second directory;

a second transmission unit 164 for transmitting the second directory E _c And transmitting to the update channel link plug-in.

For specific functional implementation of the fourth generating unit 163 and the second transmitting unit 164, refer to step S206 in the embodiment corresponding to fig. 6, which is not described herein again.

Referring again to FIG. 8, the channel package plug-in A is published _c The corresponding catalog comprises a channel package downloading link to be verified;

the data processing apparatus 1 may further include: and a verification result module 18.

The verification result module 18 is used for performing link verification processing on the download link of the channel package to be verified to obtain a verification result, wherein the verification result comprises a verification failure result and a verification success result;

the verification result module 18 is further configured to determine that the download link of the channel package to be verified is an error link if the verification result is a verification failure result;

the verification result module 18 is further configured to, if the verification result is a successful verification result, perform a step of generating a channel mapping table according to the updated channel link plug-in and the N directories.

The specific function implementation manner of the verification result module 18 may refer to step S207 in the embodiment corresponding to fig. 6, which is not described herein again.

Referring to fig. 8 again, the channel mapping table includes the channel identifier D to be verified _j And with a channel identification D to be verified _j Channel package downloading link L with mapping relation _j J is a positive integer and j is less than or equal to M;

the data processing apparatus 1 may further include: a second opening module 19.

A second starting module 19, configured to start a channel package verification task, where the channel package verification task includes a verification channel link plug-in;

the second starting module 19 is further configured to obtain the download link of the channel package to be verified, the channel identifier of the channel party management platform to be verified, and the channel identifier D of the channel party to be verified in the channel party management platform to be verified by running the verification channel link plug-in _j Are identical to each other；

A second starting module 19, further configured to download the channel package to be verified and the channel package download link L _j And comparing, and determining the updating state of the channel party management platform to be verified according to the comparison result.

The specific functional implementation manner of the second starting module 19 may refer to steps S208 to S210 in the embodiment corresponding to fig. 6, which is not described herein again.

Referring again to FIG. 8, the channel package download link L _j Including channel package version information H _j ；

The second opening module 19 may include: a first comparing unit 191, a second comparing unit 192, a first determining unit 193, and a second determining unit 194.

A first comparing unit 191 for comparing the channel packet version information H _j Comparing with the version information of the channel package in the download link of the channel package to be verified, and if the version information of the channel package is H _j If the version information of the channel package is different from the version information of the channel package in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is an updating waiting state;

a second comparing unit 192 for comparing the channel package version information H _j If the version information of the channel package is the same as that in the download link of the channel package to be verified, identifying the channel to be verified by using the identifier D _j Comparing the channel side information with the channel side information in the download link of the channel package to be verified;

a first determining unit 193 for determining if the channel ID D is to be verified _j If the channel side information is inconsistent with the channel side information in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is an updating error state;

a second determining unit 194, configured to determine the channel identifier D if the channel identifier D is to be verified _j And if the channel side information is consistent with the channel side information in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is the updating success state.

For specific functional implementation manners of the first comparing unit 191, the second comparing unit 192, the first determining unit 193, and the second determining unit 194, reference may be made to step S210 in the embodiment corresponding to fig. 6, which is not described herein again.

In the embodiment of the application, by arranging the packaging channel package plug-in (used for packaging the channel identifier and the application data package) in the same channel package publishing task and the publishing channel package plug-in the same operating environment, the channel packaging result output by the packaging channel package plug-in can be realized, and the channel packaging result can be directly published to the channel package management platform by the publishing channel package plug-in, so that the channel packaging result output by the packaging channel package plug-in can be prevented from being obtained by the publishing channel package plug-in after being compressed into a compressed package, and further the channel packaging result output by the packaging channel plug-in can be prevented from being obtained by decompressing the compressed package by the publishing channel package plug-in; in addition, in the embodiment of the application, by starting the N channel package publishing tasks, N encapsulation channel package plug-ins and N publishing channel package plug-ins can be obtained, by running the N encapsulation channel package plug-ins in parallel, channel encapsulation results respectively output by the N encapsulation channel package plug-ins can be obtained, and by running the publishing channel package plug-ins corresponding to the encapsulation channel package plug-ins, channel encapsulation results meeting the publishing conditions of the channel package can be published to the channel package management platform. Furthermore, a first channel mapping table is automatically generated according to a corresponding rule (namely channel demand information) by operating the updating channel link plug-in, and the first channel mapping table is published to the first channel side management platform by operating the publishing channel link plug-in. Therefore, by adopting the method and the device, the time for compressing the channel packaging result and the time for decompressing the compression packet (the compression packet generated by the compression channel packaging result) can be saved, the distribution efficiency of the channel packet can be improved, the investment of personnel and resources in multiple parties can be reduced, and the updating efficiency of the channel packet downloading link can be greatly improved.

Further, please refer to fig. 9, where fig. 9 is a schematic structural diagram of a computer device according to an embodiment of the present application. As shown in fig. 9, the computer device 1000 may be the packaging server cluster in the embodiment corresponding to fig. 3, and the computer device 1000 may include: at least one processor 1001, such as a CPU, at least one network interface 1004, a user interface 1003, memory 1005, at least one communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display (Display) and a Keyboard (Keyboard), and the network interface 1004 may optionally include a standard wired interface and a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (non-volatile memory), such as at least one disk memory. The memory 1005 may optionally also be at least one storage device located remotely from the aforementioned processor 1001. As shown in fig. 9, the memory 1005, which is one type of computer storage medium, may include an operating system, a network communication module, a user interface module, and a device control application program.

In the computer device 1000 shown in fig. 9, the network interface 1004 may provide a network communication function; the user interface 1003 is an interface for providing input to a user; and the processor 1001 may be used to invoke a device control application stored in the memory 1005 to implement:

acquiring an application data packet and M channel identifiers associated with the application data packet, wherein M is a positive integer greater than 1;

opening N channel package publishing tasks, wherein N is a positive integer greater than 1 and is less than or equal to M, packaging channel package plug-ins and publishing channel package plug-ins in the same channel package publishing task are in the same operating environment, each packaging channel package plug-in is respectively associated with different channel identifications, and the channel identifications associated with each packaging channel package plug-in all belong to M channel identifications;

the N packaging channel package plug-ins are operated in parallel to obtain channel packaging results respectively output by the N packaging channel package plug-ins, and each packaging channel package plug-in is used for packaging the associated channel identification and the application data package;

and when a channel packaging result meeting the channel package publishing condition exists in the N channel packaging results, determining the channel packaging result meeting the channel package publishing condition as a target channel packaging result, and publishing the target channel packaging result to a channel package management platform by operating a target publishing channel package plug-in until the N channel packaging results are all published to the channel package management platform, wherein the target publishing channel package plug-in is a publishing channel package plug-in a channel package publishing task to which the target channel packaging result belongs.

It should be understood that the computer device 1000 described in this embodiment of the present application may perform the description of the data processing method in the embodiment corresponding to fig. 3, fig. 6, and fig. 7c, and may also perform the description of the data processing apparatus 1 in the embodiment corresponding to fig. 8, which is not described herein again. In addition, the beneficial effects of the same method are not described in detail.

An embodiment of the present application further provides a computer-readable storage medium, where a computer program is stored in the computer-readable storage medium, where the computer program includes program instructions, and when the program instructions are executed by a processor, the data processing method provided in each step in fig. 3, fig. 6, and fig. 7c is implemented, which may specifically refer to the implementation manner provided in each step in fig. 3, fig. 6, and fig. 7c, and is not described herein again. In addition, the beneficial effects of the same method are not described in detail.

The computer readable storage medium may be the data processing apparatus provided in any of the foregoing embodiments or an internal storage unit of the computer device, such as a hard disk or a memory of the computer device. The computer readable storage medium may also be an external storage device of the computer device, such as a plug-in hard disk, a Smart Memory Card (SMC), a Secure Digital (SD) card, a flash card (flash card), and the like, provided on the computer device. Further, the computer-readable storage medium may also include both an internal storage unit and an external storage device of the computer device. The computer-readable storage medium is used for storing the computer program and other programs and data required by the computer device. The computer readable storage medium may also be used to temporarily store data that has been output or is to be output.

Embodiments of the present application also provide a computer program product or computer program comprising computer instructions stored in a computer-readable storage medium. The processor of the computer device reads the computer instruction from the computer-readable storage medium, and executes the computer instruction, so that the computer device can perform the description of the data processing method in the embodiments corresponding to fig. 3, fig. 6, and fig. 7c, which is not described herein again. In addition, the beneficial effects of the same method are not described in detail.

The terms "first," "second," and the like in the description and claims of embodiments of the present application and in the drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "comprises" and any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, apparatus, product, or apparatus that comprises a list of steps or elements is not limited to the listed steps or modules, but may alternatively include other steps or modules not listed or inherent to such process, method, apparatus, product, or apparatus.

Those of ordinary skill in the art will appreciate that the elements and algorithm steps of the examples described in connection with the embodiments disclosed herein may be embodied in electronic hardware, computer software, or combinations of both, and that the components and steps of the examples have been described in a functional general in the foregoing description for the purpose of illustrating clearly the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The method and the related apparatus provided by the embodiments of the present application are described with reference to the flowchart and/or the structural diagram of the method provided by the embodiments of the present application, and each flow and/or block of the flowchart and/or the structural diagram of the method, and the combination of the flow and/or block in the flowchart and/or the block diagram can be specifically implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block or blocks of the block diagram. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block or blocks of the block diagram. These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block or blocks.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present application and should not be taken as limiting the scope of the present application, so that the present application will be covered by the appended claims.

Claims (14)

1. A data processing method, comprising:

acquiring an application data packet and M channel identifiers associated with the application data packet, wherein M is a positive integer greater than 1;

opening N channel package publishing tasks, wherein N is a positive integer greater than 1 and is less than or equal to M, packaging channel package plug-ins and publishing channel package plug-ins in the same channel package publishing task are in the same operating environment, each packaging channel package plug-in is respectively associated with different channel identifications, and the channel identifications associated with each packaging channel package plug-in all belong to the M channel identifications;

running N packaging channel package plug-ins in parallel, wherein the N packaging channel package plug-ins comprise a packaging channel package plug-in F _i I is a positive integer and i is less than or equal to N, and the packaging channel package plug-in component F _i The associated channel identification comprises W channel identifications, wherein W is a positive integer and is less than M;

by operating the packaging channel pack plug-in component F _i Respectively packaging the W channel identifications to the application data packet to obtain a packaging channel packet plug-in component F _i Packaging the result of the corresponding channel;

if the packaging channel package plug-in component F _i If the corresponding channel packaging result is packaged with the W channel identifications, determining that the packaging channel package plug-in F is available _i The corresponding channel packaging result meets the channel package publishing condition;

when a channel packaging result meeting a channel package publishing condition exists in the N channel packaging results, determining the channel packaging result meeting the channel package publishing condition as a target channel packaging result, and publishing the target channel packaging result to a channel package management platform by operating a target publishing channel package plug-in until the N channel packaging results are all published to the channel package management platform, wherein the target publishing channel package plug-in is a publishing channel package plug-in a channel package publishing task to which the target channel packaging result belongs.

2. The method of claim 1, wherein the package through run package plug-in F _i And respectively packaging the W channel identifications to the application data packet to obtain a channel packaging result corresponding to the packaging channel packet plug-in Fi, wherein the channel packaging result comprises the following steps:

by operating the packaging channel pack plug-in component F _i Respectively packaging the W channel identifications to the application data packet;

determining the application data packet packaged with the channel identification as a channel packet, wherein the channel identification contained in each channel packet is different;

determining the packaged channel package as the packaged channel package plug-in component F _i Packaging the result of the corresponding channel;

said if said packaging channel package plug-in F _i If the corresponding channel packaging result is packaged with the W channel identifications, determining that the packaging channel package plug-in F is available _i The corresponding channel packaging result meets the channel package publishing condition and comprises the following steps:

if the packaging channel package plug-in component F _i Determining that the number of channel packages in the corresponding channel packaging result is less than W, and determining that the channel package plug-in is F _i The corresponding channel packaging result does not meet the channel package release condition;

if the packaging channel package plug-in component F _i If the number of the channel packages in the corresponding channel packaging result is equal to W, determining that the packaging channel package plug-in component F _i And the corresponding channel packaging result meets the publishing condition of the channel package.

3. The method of claim 1, wherein the N package channel plug-ins comprise package channel package plug-in F _c The N publishing channel package plug-ins include the packaging channel package plug-in F _c Publishing channel package plug-in component A in same operating environment _c C is a positive integer, and c is less than or equal to N;

the method further comprises the following steps:

acquiring a channel package download link X returned by the channel package management platform _c Said channel package download link X _c For characterization, the publishing channel package plug-in A _c The storage address of the issued channel packaging result in the channel package management platform, and the issuing channel package plug-in A _c The issued channel packaging result comprises W channel packages, channel identifications contained in each channel package are different from each other, and the W channel packages are formed by packaging channel package plug-in components F _c Packaging the associated channel identification to the application data package, wherein the packaging channel package plug-in component F _c The associated channel identification comprises W channel identifications;

downloading link X according to the W channel identifications and the channel package _c Generating the publishing channel package plug-in A _c Corresponding catalog, plug-in component A of the distribution channel package _c Transmitting the corresponding catalog to an updating channel link plug-in;

and generating a channel mapping table according to the update channel link plug-in and the N directories, wherein the N directories comprise directories corresponding to the N publishing channel package plug-ins respectively, and the channel mapping table is used for indicating that a platform associated with the M channel identifiers performs channel link update processing.

4. The method of claim 3, wherein the N directories comprise first directories corresponding to the N publishing channel package plug-ins, respectively;

generating a channel mapping table according to the update channel link plug-in and the N directories comprises:

when the updating channel link plug-in obtains N first catalogs, starting a channel package updating task, wherein the updating channel link plug-in and a release channel link plug-in which are included in the channel package updating task are in the same operating environment;

generating a first channel mapping table according to the updating channel link plug-in and the N first directories;

through the operation release channel link plug-in will first channel mapping table sends to first channel side management platform, first channel mapping table is used for instructing first channel side management platform follows target channel package is downloaded to channel package management platform, the channel sign that first channel side management platform corresponds belongs to M channel sign, target channel package contains the channel sign that first channel side management platform corresponds.

5. The method of claim 4, wherein the N first directories comprise the M channel identifiers, channel package download links corresponding to the M channel identifiers, respectively, and target demand information corresponding to the M channel identifiers, respectively, and the M target demand information is determined according to the channel demand information;

generating a first channel mapping table according to the update channel link plug-in and the N first directories, including:

acquiring a first initial channel mapping table;

respectively storing the M channel identifications, the M channel package download links and the M target demand information in the first initial channel mapping table by operating the update channel link plug-in;

determining a first initial channel mapping table in which the M channel identifications, the M channel package download links and the M target demand information are stored as a first channel mapping table, wherein the channel identifications and the channel package download links in the first channel mapping table have a mapping relation, and the channel identifications and the target demand information in the first channel mapping table have a mapping relation.

6. The method of claim 5, wherein the publishing channel package plug-in A _c The corresponding catalog comprises the publishing channel package plug-in A _c A corresponding first directory;

according to the W channel identifications and the channel package download link X _c Generating the publishing channel package plug-in A _c Corresponding catalog, package plug-in A of the publishing channel _c Transmitting the corresponding catalog to an update channel link plug-in, comprising:

generating a download link X including the channel package according to the channel demand information _c And a first catalog Y of the W channel identifications _c Said first directory Y _c Means that the publishing channel package plug-in A _c A corresponding first directory;

the first directory Y _c Transmitting to the update channel link plug-in.

7. The method of claim 3, wherein the N directories comprise second directories corresponding to the N publishing channel package plug-ins, respectively;

generating a channel mapping table according to the update channel link plug-in and the N directories comprises:

when the updating channel link plug-in acquires the N second directories, starting a channel package updating task, wherein the updating channel link plug-in and the releasing channel link plug-in which are included in the channel package updating task are in the same operating environment;

generating a second channel mapping table according to the updating channel link plug-in and the N second directories;

through the operation release channel link plug-in will second channel mapping table send to channel package management platform, so that channel package management platform basis second channel mapping table update history channel mapping table, and basis second channel mapping table provides target channel package download link for second channel side management platform, the channel sign that second channel side management platform corresponds belongs to M channel sign, the channel sign that second channel side management platform corresponds, with target channel package download link exists the mapping relation.

8. The method of claim 7, wherein said generating a second channel mapping table based on said updated channel linking plug-in and said N second directories comprises:

acquiring a first channel mapping table to be merged, which is associated with a historical channel identification set from the historical channel mapping table, wherein channel identifications in the historical channel identification set are different from the M channel identifications;

acquiring a second initial channel mapping table;

respectively storing the data in the N second directories in the second initial channel mapping tables by operating the update channel link plug-in, and determining the second initial channel mapping tables in which the data in the N second directories are stored as second channel mapping tables to be merged;

and combining the first channel mapping table to be combined with the second channel mapping table to be combined to obtain the second channel mapping table, wherein the identification number of the channel identifications in the second channel mapping table is equal to the identification number of the channel identifications in the historical channel identification set and the total number of the channel identifications in the historical channel identification set.

9. The method of claim 8, wherein the publishing channel package plug-in A _c The corresponding catalog comprises the publishing channel package plug-in A _c A corresponding second directory;

according to the W channel identifications and the channel package download link X _c Generating the publishing channel package plug-in A _c Corresponding catalog, package plug-in A of the publishing channel _c Transmitting the corresponding catalog to an update channel link plug-in, comprising:

generating a download link X including the channel package according to the historical channel mapping table _c And a second directory E of said W channel identifications _c Said second directory E _c Means that the publishing channel package plug-in A _c A corresponding second directory;

the second directory E _c Transmitting to the update channel link plug-in.

10. The method of claim 3, wherein the publishing channel package plug-in A _c The corresponding catalog comprises a channel package downloading link to be verified;

the method further comprises the following steps:

performing link verification processing on the channel package download link to be verified to obtain a verification result, wherein the verification result comprises a verification failure result and a verification success result;

if the verification result is the verification failure result, determining that the channel package download link to be verified is an error link;

and if the verification result is the successful verification result, executing the step of generating a channel mapping table according to the updated channel link plug-in and the N directories.

11. The method of claim 3 wherein the channel map comprises a channel identification D to be verified _j And with the channel identification D to be verified _j Channel package downloading link L with mapping relation _j J is a positive integer and j is less than or equal to M;

the method further comprises the following steps:

starting a channel package verification task, wherein the channel package verification task comprises a verification channel link plug-in;

acquiring a channel package download link to be verified in a channel party management platform to be verified by operating the verification channel link plug-in, wherein the channel identifier of the channel party management platform to be verified and the channel identifier D to be verified _j The same;

the channel package download link to be verified and the channel package download link L _j And comparing, and determining the updating state of the channel party management platform to be verified according to the comparison result.

12. The method of claim 11 wherein the channel package download link L _j Including channel package version information H _j ；

The channel package download link to be verified and the channel package download link L _j Comparing, and determining the updating state of the channel party management platform to be verified according to the comparison result, wherein the updating state comprises the following steps:

the channel package version information H _j Comparing the version information with the version information of the channel package in the download link of the channel package to be verified, and if the version information of the channel package is H _j If the version information of the channel package is different from the version information of the channel package in the download link of the channel package to be verified, determining that the updating state of the channel party management platform to be verified is an updating waiting state;

if the channel package version information H _j If the version information of the channel package is the same as that in the download link of the channel package to be verified, identifying the channel to be verified by using the identifier D _j And the channel to be verifiedComparing channel side information in the package downloading link;

if the channel identification D to be verified _j If the channel side information is inconsistent with the channel side information in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is an updating error state;

if the channel identification D to be verified _j And if the channel side information is consistent with the channel side information in the download link of the channel package to be verified, determining that the updating state of the channel side management platform to be verified is an updating success state.

13. A computer device, comprising: a processor, a memory, and a network interface;

the processor is connected to the memory and the network interface, wherein the network interface is configured to provide data communication functions, the memory is configured to store a computer program, and the processor is configured to call the computer program to cause the computer device to perform the method of any one of claims 1 to 12.

14. A computer-readable storage medium, in which a computer program is stored which is adapted to be loaded and executed by a processor to cause a computer device having said processor to carry out the method of any one of claims 1 to 12.

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