CN109889579B - General upgrading system under cloud computing environment - Google Patents

Abstract

The invention discloses a universal upgrading system in a cloud computing environment, belongs to the field of cloud computing, and provides a universal upgrading solution for end-to-end in the cloud computing environment by combining self-acquired Pull type upgrading and actively pushed Push type upgrading. The method is combined with 'Push' upgrading, adopts steps of 'interactive operation, upgrading package pushing, custom installation instruction' and the like, can effectively solve the problem of upgrading failure, can realize differentiated upgrading of objects of different types, and more importantly, through the design of the 'Push' universal structure, can realize upgrading of any software, and can fully meet the special upgrading requirement of the cloud computing environment.

Description

General upgrading system under cloud computing environment

Technical Field

The invention relates to the field of cloud computing, in particular to a universal upgrading system in a cloud computing environment.

Background

As cloud computing has developed and become popular, the size of cloud computing environments has grown larger and larger. Taking the private cloud computing environment as an example, with the expansion of the scale of the local area network, the private local area network of a unit can be expanded from a city to a province, the scale of the unit region is enlarged, and the scale of the private cloud computing environment is correspondingly increased. The scale of public cloud is also getting larger and larger, and the quantity of service software of the cloud platform system is also getting larger and larger. Under the cloud computing environment, as a service user, the number of client computers is huge, and the stability and the reliability are considered in the upgrading process; similarly, in a cloud computing environment, the service systems are all converged to the server side and used as service provider carriers, and the number of physical servers and virtual machines in the cloud is huge. The upgrading and management of the cloud-side huge business system software are also extremely complex. Therefore, whether it is a cloud or a client, the cloud platform software upgrade is a problem that must be faced.

The software upgrading method is generally a set of independent upgrading systems of respective software, and comprises an upgrading client and an upgrading server, the upgrading client actively inquires whether an upgrading packet exists, the upgrading server responds to the request, feeds back and issues the upgrading packet, and finally, the upgrading client completes installation and upgrading. The upgrading mode is classified as 'Pull', namely, the client terminal actively initiates an upgrading request.

The software upgrading method disclosed as 101630263a in the prior art is patented and approved by the intellectual property office of the chinese country on the days 2009-08-19 and is disclosed as 2010-01-20. In the patent technology, a plurality of new version numbers and module numbers are maintained and controlled by a server side, and the similarity and the priority are judged by calculating the user distance by adopting a weighted Markov formula, so that the strict control of different versions and modules of the same software is realized.

In the upgrading scheme, when a new edition is just released, whether a user is suitable for upgrading is judged by verifying a user information base and an application condition, cooperative upgrading can be performed only after partial users are upgraded based on the condition, and whether the upgrading is met is judged according to the similarity calculated by a weighted Markov formula (namely the similarity between the user which is not upgraded and the user which is suitable for upgrading), and then the upgrading process is started. The method is based on the premise of a cooperation scheme, a condition must be provided, an upgrading solution scheme after part of clients fail to upgrade actively and are abnormal is not considered, and the problem of client differential upgrading of different operating systems cannot be solved.

An upgrade method and system for client software disclosed as 104702631B in the prior art was patented and approved by the intellectual property office of china on the day of 2013-12-04 and was disclosed as 2015-06-10. In the patent technology, by means of version number control, an upgrade module judges whether an upgrade package includes an application program of the latest version, if so, the upgrade is performed, and otherwise, the upgrade is stopped. The invention can upgrade the application program and upgrade the upgrading program.

The invention adopts a version number comparison mode to upgrade the program version. By means of program replacement in the upgrading process, the upgrading of the application program is realized, and the upgrading program can be upgraded. However, it is not a general-purpose upgrade program, and it is not possible to upgrade a third-party application other than the application and the upgrade program.

The traditional upgrading method mainly solves the problem of upgrading self software, the upgrading requirement under the cloud computing environment is complex, the self software upgrading is involved, the software upgrading of a plurality of service systems under the cloud computing environment is also involved, the probability of problems occurring in the upgrading is high, and the problem that how to continue to finish the upgrading after the upgrading fails is faced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a universal upgrading system in a cloud computing environment, and the end-to-end software upgrading scheme provided by the invention provides a universal upgrading solution for end-to-end in the cloud computing environment, can effectively solve the problem of upgrading failure, can realize differential upgrading of different types of objects, and more importantly, can realize upgrading of any software, and can fully meet the special upgrading requirements of the cloud computing environment.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

General upgrading system under cloud computing environment, including the high in the clouds platform of carrying on the client, its characterized in that: the cloud platform comprises an upgrading server module, a communication network and an upgrading client module, the upgrading server module is connected with the upgrading client module through the communication network, the upgrading server module comprises an interactive operation server, an upgrading packet pushing server and a custom upgrading command server, and the upgrading client module comprises an interactive operation client, an upgrading packet pushing client and a custom upgrading command client.

Furthermore, the interactive operation server is connected with the interactive operation client through a communication network, the upgrade package push server is connected with the upgrade package push client through the communication network, and the custom upgrade order server is connected with the custom upgrade order client through the communication network.

Furthermore, the upgrading client and the upgrading cloud adopt two upgrading stages combining traditional 'Pull type' upgrading and 'Push type' upgrading at the same time.

Further, when the client is upgraded, two upgrading stages combining traditional "Pull type" upgrading and "Push type" upgrading comprise the following steps:

1) enabling traditional "Pull type" upgrades;

2) if successful, the upgrade is finished; if the selection fails and the upgrade is not performed any more, quitting; if the upgrade fails but the upgrade is selected to be continued, entering a Push type upgrade stage;

3) entering a Push type upgrading stage;

4) initiating interactive operations and performing diagnostics;

5) according to the diagnosis result, a targeted upgrade package is newly manufactured;

6) pushing the upgrade package to one or more specific upgrade clients;

7) executing upgrade package installation instructions at a particular one or more upgrade clients;

if the upgrade is successful, the upgrade is finished, and if the upgrade is failed, the step 2) is performed.

Further, when the cloud is upgraded, two upgrading stages combining traditional "Pull type" upgrading and "Push type" upgrading comprise the following steps:

case 1: the business system provides a corresponding upgrading program, and the upgrading step is the same as the step of upgrading the client;

case 2: the service system does not provide a corresponding upgrading program, for example, the service systems 2, 3 and N do not have a corresponding upgrading program, and at this time, a Push type upgrading mode is needed, and the steps are as follows:

1) entering a Push type upgrading stage;

2) initiating interactive operations and performing diagnostics;

3) according to the diagnosis result, a targeted upgrade package is newly manufactured;

4) pushing the upgrade package to one or more specific upgrade clients;

5) executing upgrade package installation instructions at a particular one or more upgrade clients;

6) if the upgrade is successful, the upgrade is finished, if the upgrade is failed, the Push stage can be continuously entered, and diagnosis is executed through interactive operation again;

7) any link in the "Push" upgrade stage can exit and end the upgrade.

Further, the upgrade package pushing may adopt any one of TCP, UDP or multicast mechanism.

Further, before the upgrade in step 8), an error self-check is performed on the client.

Further, the error self-checking is completed by a self-checking identification system, and the self-checking identification system comprises a client screenshot module, a page transmission module and a cloud processing center.

Further, the cloud processing center comprises an OCR picture character learning program and an error code matching library.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) the problem of upgrading failure capability is not solved in the upgrading scheme adopted in the prior art, and the problem of upgrading failure caused by upgrading package compatibility due to different multi-client operating systems is not considered. The upgrading scheme of the invention can carry out interactive diagnosis in a Push type upgrading mode under the condition that the upgrading of the user is abnormally failed, and accurately pushes the upgrading packet, thereby enhancing the processing means after the upgrading is failed. In addition, information such as IP (Internet protocol) and OS (operating system) types of the upgrading objects is recorded through diagnosis feedback, and specified push upgrading in a limited range can be carried out on part of clients (failed in upgrading or with special upgrading requirements) according to requirements.

(2) Compared with the prior art, the upgrading method can only upgrade the specific program and upgrade the 'upgrading program', and cannot upgrade any other third-party program. According to the upgrading scheme, the software package can be pushed and the interactive instruction is sent to install the software package in a Push type upgrading mode, so that universal upgrading is realized, and client upgrading, upgrading of the upgrading program and upgrading of any other third-party application programs can be realized.

Drawings

FIG. 1 is a system architecture diagram of the present invention;

FIG. 2 is a schematic diagram of a client upgrade of the present invention;

fig. 3 is a schematic diagram of cloud upgrade according to the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

the invention provides a universal upgrading system in a cloud computing environment.

Referring to fig. 1, the universal upgrade system in the cloud computing environment includes a cloud platform mounted on a client, the cloud platform includes an upgrade server module, a communication network and an upgrade client module, the upgrade server module is connected with the upgrade client module through the communication network, the upgrade server module includes an interactive operation server, an upgrade package push server and a custom upgrade command server, and the upgrade client module includes an interactive operation client, an upgrade package push client and a custom upgrade command client.

The interactive operation server is connected with the interactive operation client through a communication network, the upgrade package push server is connected with the upgrade package push client through the communication network, and the custom upgrade order server is connected with the custom upgrade order client through the communication network.

The upgrading client and the upgrading cloud adopt two upgrading stages combining traditional Pull-type upgrading and Push-type upgrading at the same time.

Fig. 2 is a schematic diagram of client upgrade provided by the present invention, and as shown in fig. 2, the schematic diagram illustrates a client upgrade method, where two upgrade stages, namely, a traditional "Pull-type" upgrade and a "Push-type" upgrade, include the following steps:

1) enabling traditional "Pull type" upgrades;

2) if successful, the upgrade is finished; if the selection fails and the upgrade is not performed any more, quitting; if the upgrade fails but the upgrade is selected to be continued, entering a Push type upgrade stage;

3) entering a Push type upgrading stage;

4) initiating interactive operations and performing diagnostics;

5) according to the diagnosis result, a targeted upgrade package is newly manufactured;

6) pushing the upgrade package to one or more specific upgrade clients;

7) executing upgrade package installation instructions at a particular one or more upgrade clients;

8) if the upgrade is successful, the upgrade is finished, and if the upgrade is failed, the step 2) is performed.

Fig. 3 is a schematic diagram of cloud upgrade provided in the present invention, as shown in fig. 3, which illustrates a cloud upgrade method, where two upgrade stages of traditional "Pull" upgrade and "Push" upgrade in upgrading a cloud include the following steps:

case 1: the business system provides a corresponding upgrading program, and the upgrading step is the same as the step of upgrading the client;

case 2: the service system does not provide a corresponding upgrading program, for example, the service systems 2, 3 and N do not have a corresponding upgrading program, and at this time, a Push type upgrading mode is needed, and the steps are as follows:

1) entering a Push type upgrading stage;

2) initiating interactive operations and performing diagnostics;

3) according to the diagnosis result, a targeted upgrade package is newly manufactured;

4) pushing the upgrade package to one or more specific upgrade clients;

5) executing upgrade package installation instructions at a particular one or more upgrade clients;

6) if the upgrade is successful, the upgrade is finished, if the upgrade is failed, the Push stage can be continuously entered, and diagnosis is executed through interactive operation again;

7) any link of the 'Push' upgrading stage can quit and finish upgrading, and the upgrading packet pushing can adopt any one of TCP, UDP or multicast mechanisms.

And step 8) carrying out error self-checking on the client before upgrading again, wherein the error self-checking is completed by a self-checking identification system, the self-checking identification system comprises a client screenshot module, a page transmission module and a cloud processing center, and the cloud processing center comprises an OCR picture word recognition program and an error code matching library. The method comprises the steps that a plurality of remanufactured targeted upgrade packages cannot be used after being installed, due to the driving or setting reason, when upgrading cannot be normally carried out, when an access client fails to start, firstly, a prompt page is arranged, a screenshot module is started to upload a screenshot of the prompt page to a cloud processing center, the cloud processing center identifies error codes in the screenshot through an OCR picture character recognition program, then, the upgrade packages or the installation packages are directly pushed through Push or an adjustment indication graphic is set, secondly, no prompt page exists, firstly, all files of a packaged client root directory are subjected to cloud matching, if the client root directory file is correct through cloud matching, a customer service center is established, a local customer service center is fed back, and technicians conduct home-based diagnosis.

The problem that the upgrading failure capability is not processed by the upgrading scheme adopted by the related scheme I and the problem that upgrading fails due to upgrading package compatibility caused by different multi-client operating systems are not considered. The upgrading scheme of the invention can carry out interactive diagnosis in a Push type upgrading mode under the condition that the upgrading of the user is abnormally failed, and accurately pushes the upgrading packet, thereby enhancing the processing means after the upgrading is failed. In addition, information such as IP (Internet protocol) and OS (operating system) types of the upgrading objects is recorded through diagnosis feedback, and specified push upgrading in a limited range can be carried out on part of clients (failed in upgrading or with special upgrading requirements) according to requirements.

The problem that the upgrading scheme adopted by the second related scheme can only upgrade a specific program and upgrade the 'upgrading program' per se, but cannot upgrade any other third-party program is solved. According to the upgrading scheme, the software package can be pushed and the interactive instruction is sent to install the software package in a Push type upgrading mode, so that universal upgrading is realized, and client upgrading, upgrading of the upgrading program and upgrading of any other third-party application programs can be realized.

The scheme of the invention provides a Push type upgrading scheme which adopts the steps of interactive operation, upgrading packet pushing, custom installation instruction and the like on the basis of the traditional Push type upgrading. Through the Push type upgrading scheme, the diagnosis of upgrading failure can be realized, different upgrading packages can be provided for different upgrading objects to realize differential upgrading, and the agent upgrading of any third-party software can be realized. By adopting the Push-type upgrading provided by the scheme of the invention and combining the traditional Push-type upgrading mode, the special requirements of the cloud computing environment can be fully met, and a general solution is provided for upgrading in the cloud computing environment.

For the client, due to the characteristics of the cloud computing environment, most of original client software is migrated to the cloud, and the client only has the client software accessed to the cloud service platform, so that the upgrading is mainly performed in a Pull mode and combined with a Push mode. Aiming at the cloud, the existence of a large number of physical machine and virtual machine resources is considered, and in addition, a plurality of third-party service systems of different manufacturers or enterprises are provided, and the upgrading adopts a Push type as a main mode and combines the Push type.

And the interactive operation module realizes remote interface and mouse control, can perform batch remote control on a specified upgrading client from a remote upgrading server side, and achieves interactive control. The interactive operation module can provide upgrading diagnosis and remote interactive operation.

And the upgrade package pushing module is used for pushing the upgrade package, and can adopt a TCP (transmission control protocol), UDP (user datagram protocol) or multicast mechanism to push the upgrade package to the upgrade client. In order to achieve universality, the upgrade package can be a non-execution file, can also be a complete installation program, and can also be a common compressed package.

And the custom installation instruction module can pack the installation instructions corresponding to the upgrade package through the module, and sends the installation instruction set to the upgrade client to realize the execution of the installation package so as to complete the upgrade installation process.

The invention provides a universal upgrading system suitable for a cloud computing environment, and provides a software upgrading solution for both a cloud end and a client end. The scheme provides a Push type upgrading scheme which adopts interactive operation, upgrading package pushing and custom installation instructions on the basis of the traditional Push type upgrading. Through the Push type upgrading scheme, the diagnosis of upgrading failure can be realized, different upgrading packages can be provided for different upgrading objects to realize differential upgrading, and the agent upgrading of any third-party software can be realized. According to the scheme, through the combination of the 'Push' and 'Pull' upgrading schemes, the special requirements of the cloud computing environment are fully met, and a general solution is provided for upgrading in the cloud computing environment. For the client, due to the characteristics of the cloud computing environment, most of original client software is migrated to the cloud, and the client only has the client software accessed to the cloud service platform, so that the upgrading is mainly performed in a Pull mode and combined with a Push mode. Aiming at the cloud, the existence of a large number of physical machine and virtual machine resources is considered, and in addition, a plurality of third-party service systems of different manufacturers or enterprises are provided, and the upgrading adopts a Push type as a main mode and combines the Push type.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (2)

1. General upgrading system under cloud computing environment, including the high in the clouds platform of carrying on the client, its characterized in that: the cloud platform comprises an upgrade server module, a communication network and an upgrade client module, wherein the upgrade server module is connected with the upgrade client module through the communication network, the upgrade server module comprises an interactive operation server, an upgrade package pushing server and a custom upgrade command server, the upgrade client module comprises an interactive operation client, an upgrade package pushing client and a custom upgrade command client, the upgrade client and the upgrade cloud adopt two upgrade stages of traditional 'Pull' upgrade and 'Push' upgrade combination at the same time,

the two upgrading stages of the traditional 'Pull' upgrading and the 'Push' upgrading combination comprise the following steps when the client is upgraded,

1) enabling traditional "Pull type" upgrades;

2) if successful, the upgrade is finished; if the selection fails and the upgrade is not performed any more, quitting; if the upgrade fails but the upgrade is selected to be continued, entering a Push type upgrade stage;

3) entering a Push type upgrading stage;

4) initiating interactive operations and performing diagnostics;

5) according to the diagnosis result, a targeted upgrade package is newly manufactured;

6) pushing the upgrade package to one or more specific upgrade clients;

7) executing upgrade package installation instructions at a particular one or more upgrade clients;

8) if the upgrade is successful, the upgrade is finished, and if the upgrade is failed, the step 2) is performed;

the two upgrading stages combining traditional Pull-type upgrading and Push-type upgrading when the cloud is upgraded comprise the following steps,

case 1: the business system provides a corresponding upgrading program, and the upgrading step is the same as the step of upgrading the client;

case 2: the service system does not provide a corresponding upgrading program, for example, service systems 2, 3 and N do not have a corresponding upgrading program, and at this time, a "Push type" upgrading mode is required, which includes the following steps,

1) entering a Push type upgrading stage;

2) initiating interactive operations and performing diagnostics;

3) according to the diagnosis result, a targeted upgrade package is newly manufactured;

4) pushing the upgrade package to one or more specific upgrade clients;

5) executing upgrade package installation instructions at a particular one or more upgrade clients;

6) if the upgrade is successful, the upgrade is finished, if the upgrade is failed, the Push stage can be continuously entered, and diagnosis is executed through interactive operation again;

7) any link in the 'Push' upgrading stage can quit and finish upgrading;

the upgrade package pushing can adopt any one of TCP, UDP or multicast mechanisms, and before the upgrade is performed again in the step 8), error self-checking is performed on the client; the error self-checking is completed by a self-checking identification system, the self-checking identification system comprises a client screenshot module, a page transmission module and a cloud processing center, and the cloud processing center comprises an OCR picture word recognition program and an error code matching library.

2. The universal upgrade system in a cloud computing environment according to claim 1, wherein: the interactive operation server is connected with the interactive operation client through a communication network, the upgrade package pushing server is connected with the upgrade package pushing client through the communication network, and the custom upgrade order server is connected with the custom upgrade order client through the communication network.

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