CN109857514B - Cross-platform cross-commercial autonomous environment complex giant information system hybrid deployment system - Google Patents

Abstract

The invention relates to the field of computer software, and provides a deployment system aiming at a complex macro system which is composed of a plurality of functions/services/subsystems and has complex installation and operation period calling dependency relationship with each other, wherein the deployment system can be used for deploying Web applications/RPC, gPC, Webservice, Restful type services/Java applications/C + + applications/firer browser plug-in/dream, etc. in the deployment environments of different basic operation platforms such as a physical server/a virtual machine/a container, a commercial hardware environment based on an X86 instruction set, a Feiteng autonomous hardware environment based on an ARM instruction set, a godson autonomous hardware environment based on a RISC instruction set, a Shenwei autonomous hardware environment based on an autonomous instruction set, a Windows/Linux/Galois and a Kanghu domestic operating system based on a Namepin the fields of Web applications/RPC, gPC, Webservice, Restful type services/Java applications/C, And uniformly managing the deployment process of the complex giant information system in the form of the data file/container mirror image/virtual machine mirror image software of the national database of the gold storehouse.

Description

Cross-platform cross-commercial autonomous environment complex giant information system hybrid deployment system

Technical Field

The invention belongs to the field of computer software, and particularly relates to a cross-platform and cross-commercial autonomous environment complex giant information system hybrid deployment system.

Background

A complex giant information system refers to a huge information system which is complex in structure (generally comprising hundreds of subsystems/services/function domains), complex in deployment association (one-to-many, many-to-many and strong-precedence local installation dependency relationship and multi-level call chain relationship in a running period exist between each subsystem/service/function domain during deployment), huge in size (the total amount in all the subsystems exceeds more than 10G), complex in deployment environment (different basic operation platforms such as a physical server/a virtual machine/a container and the like, a commercial hardware environment based on an X86 instruction set, a Feiteng autonomous hardware environment based on an ARM instruction set, a Loongson autonomous hardware environment based on a RISC instruction set, a Shenwei autonomous hardware environment based on an autonomous instruction set, a Windows/Linux/Galaxy, a Kinglin homemade operating system based on an autonomous instruction set), and a method for realizing the system, The composition form is complex (the software form of each subsystem/service covers Web application, RPC/Grpc/Webservice/Restful type service, Java application, C + + application, Firefox browser plug-in, Dameng/gold storehouse domestic database data file, container mirror image and virtual machine mirror image). With the steady advance of the autonomous and controllable strategy of the core technology of our country, the current complex giant information system has wide application in the fields of military affairs, scientific research and the like for processing complex business (such as command and control).

However, the complex giant information system often faces the problems that the internal composition forms are various and are difficult to uniformly deploy, the deployment environment is complex and is difficult to plan and adjust, the internal dependency relationship of the system is complicated and is difficult to compile schemes, the large-scale concurrent deployment process is difficult to efficiently schedule, the installation and deployment process states are difficult to synchronously acquire, and the like.

From the past published papers, there are deployment schemes proposed based on multiple server architectures spanning X86/SPARC ("automated deployment server system" network security and informatization 2018, (06),98-100), "there are deployment schemes proposed based on complex environments in specific fields" (commercial bank multi-system complex environment version release automation practice "chinese financial computers 2018, (04),51-54)," practices of automated batch deployment management (chinese media science 2017, (10),119-121), "there are automated deployment schemes based on cloud platform environment (" cloud platform automated deployment design and implementation "electronic design engineering 2018,26(03),60-64+68), there are automated deployment schemes based on Docker container environment (" Docker-based application deployment management platform research electronic design engineering 2017,25(12),41-44-48), there is an automatic deployment scheme facing to the virtualization environment (application of key technology for virtualization automated deployment) experimental technology and management 2016,33(08), 126-: firstly, most schemes focus on a specific problem domain or a specific system, for example, the "practice of automated batch deployment management" (china media technology 2017, (10), 119-; secondly, the coverage of the basic operation platform in the deployment environment is incomplete, and only one type or a plurality of types of basic operation platforms can be oriented, for example, the Docker-based application deployment management platform research only aims at the container environment, and the cloud platform automatic deployment design and implementation only aims at the cloud platform virtual machine environment; thirdly, the deployed software form is incompletely covered, and the installation and deployment process cannot be packaged and executed according to the unified standard aiming at the software with different forms; fourthly, the support for an autonomous hardware environment is generally lacked, and the autonomous hardware environment cannot be deployed and installed on the current mainstream 1500A-based autonomous hardware platform; fifthly, the installation and deployment processes cannot be uniformly and simultaneously managed on mainstream Windows and Linux operating systems, and the installation and deployment on domestic autonomous operating systems such as Galaxy kylin and the like are not to be supported.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a cross-platform cross-commercial autonomous environment complex huge information system hybrid deployment system which can support different basic operation platforms such as a cross-physical server/a virtual machine/a container, a cross-commercial hardware environment based on an X86 instruction set/a Feiteng autonomous hardware environment based on an ARM instruction set/a RISC instruction set-based Loongson autonomous hardware environment/a Shenwei autonomous hardware environment based on an autonomous instruction set, a cross-windows/Linux/Yinhe kylin, a Chinese-Binghu operating system, a Web application inclusion, an RPC/Grpc/service/Restful type service, a Java application, a C + + application, a Fivex browser plug-in, a Dameng/Jincang national database data file, a container mirror image and a virtual machine mirror image software form, and can realize the software form of a cross-platform, a cross-commercial autonomous environment complex huge information system, a cross-physical server/virtual machine/virtual, And the unified management of the complex giant information system is deployed in the environment with four dimensions of hardware environment, operating system and software form.

In order to solve the technical problem, the invention is realized by the following technical scheme:

the cross-platform cross-commercial autonomous environment complex giant information system hybrid deployment system is characterized by comprising a software packaging verification tool, a software warehouse, a deployment control console, a deployment task scheduling, a deployment interface, a unified message framework, a deployment agent and a registration center, wherein the software packaging verification tool is used for running Web applications under different basic operating environments, different operating systems and different commercial autonomous environments, RPC/Grpc/Webservice/Restful type services, Java applications, C + + applications, Firex browser plug-ins, Dameng/Jincang domestic database data files, container mirror images and virtual machine mirror images, packaging according to a unified packaging standard, and configuring a packaging description file for explaining basic requirements of the deployment environment, basic requirements of the software operating environment and the dependency relationship with other applications or services during deployment, The calling relation with other services during the running period is finally output as a deployment packaging package capable of executing unified installation and deployment and uploaded to the software warehouse; the software warehouse is a place for placing deployment packaging packages, all the packaged deployment packaging packages are finally warehoused after the processes of packaging integrity check, deployment description correctness check, cataloging and classifying and manual auditing, the software warehouse can adapt to a complex deployment scene, support hierarchical deployment, regular backup, discrete storage, multi-version management, examination before uploading, cataloging setting and label setting, and provide a condition query function for the outside; the deployment control console is used for setting a deployment strategy and generating a deployment scheme, the deployment control console lists all current deployment nodes and related information through perceptual interaction with the deployment nodes, a user can establish a mapping relation between a deployment encapsulation package and the deployment nodes in the software warehouse according to actual requirements, dependent applications or services can be automatically associated in the process of establishing the mapping relation, and the deployment state feedback pushed by deployment task scheduling is received and displayed in a unified mode in the deployment process; the registry senses the activity states of all the deployment agents, receives the registration of each version of the deployment agents, forms a deployment node list, and meanwhile, periodically performs heartbeat connection with the deployment agents to perform activity detection, the registry can know the current running state of each deployment agent, once the deployment agents are abnormally quitted or damaged due to other reasons, the registry can immediately sense that the deployment agents lose activity when being offline, and timely inform the deployment task scheduling; the deployment task scheduling is a control center of the whole deployment system and is responsible for analyzing the mapping relation between a deployment encapsulation package set in the deployment control console by a user and deployment nodes and generating a corresponding deployment and installation instruction set, and is responsible for distributing deployment instructions to the deployment agents on all the deployment nodes through a unified message framework when the deployment is started, so that the correct establishment of the local dependence and network access dependence relation of each application or service in the deployment and installation process is ensured, in addition, the current deployment agent activity state is obtained from the registration center, the current deployment process state is obtained from the deployment agents, once a certain deployment agent is offline, an alarm prompt is immediately given, and the deployment and installation process is temporarily suspended until the deployment agents recover the activity state, so that the deployment and installation can be continuously executed; the deployment interface provides query service for the deployment agent in the deployment process, provides basic information of a deployment encapsulation package, local installation and network operation access dependency relationship information acquired from a software warehouse, simultaneously receives related information of the deployment process, and transmits the received information to the deployment task scheduling; the unified message framework provides a message receiving and sending mechanism for each component of the deployment system, provides a message receiving and sending channel for the deployment control console, the deployment task scheduling, the deployment interface and the deployment agent, and provides two message receiving and sending mechanisms of synchronization and asynchronization and a retransmission mechanism after the transmission fails; the deployment agent is specifically responsible for deployment and installation work, is divided into a plurality of versions, can run on different basic operation platforms, run in different hardware environments and run on different operating systems, is automatically connected with a registration center, receives heartbeat detection initiated by the registration center and responds in time, receives an instruction sent by the deployment task scheduling through the unified message framework, unpacks and executes the instruction, calls the deployment interface to acquire basic information of a package, local installation and network operation access dependency relationship in the execution process, and feeds back the current deployment condition to the deployment task scheduling through the unified message framework in the deployment process.

In the foregoing technical solution, preferably, the software package verification tool can package and describe applications or services in different technical forms according to a unified standard.

In the above technical solution, preferably, the software warehouse may be deployed at multiple locations in a hierarchical manner, and various types of data stored in the software warehouse are stored discretely.

In the above technical solution, preferably, the task scheduling can ensure that the local dependency and the network access dependency relationship of each application or service are correctly established in the deployment and installation process.

In the above technical solution, preferably, in the deployment and installation process, once a certain deployment agent is found to be offline, the task scheduling immediately gives an alarm to prompt, and temporarily suspends the deployment and installation process until the deployment agent resumes the active state, and then continues to execute the deployment and installation.

In the foregoing technical solution, preferably, the deployment agent may be divided into a C + + or Java version in development language, and may be divided into an autonomous environment adaptation version or a commercial environment adaptation version in technical system, and may be compatible with an autonomous or commercial environment, a virtual machine or a container multi-class basic operating platform, and a commercial or domestic operating system when deployed.

In the above technical solution, preferably, the deployment agent automatically registers with the registry after being started.

In the foregoing technical solution, preferably, the deployment interface receives the relevant information of the deployment process, which includes a log of an installation progress, an installation location, whether installation is completed, and whether an installation process is incorrect of the current client application or service.

In the above technical solution, preferably, the different basic operation platforms in the deployment agent include a physical machine, a commercial cloud platform, a commercial container cloud, an autonomous cloud platform, and an autonomous container cloud; different hardware environments comprise an autonomous Feiteng series, an autonomous Loongson series, an autonomous Shenwei series and a commercial X86 series; the different operating systems comprise Windows series, Linux series, national Galaxy kylin and national winning kylin.

The invention provides a deployment system aiming at a complex giant system which is composed of a plurality of functions/services/subsystems and has complex installation and operation period calling dependency relationship with each other, and the deployment system can support different basic operation platforms such as a physical server/a virtual machine/a container and the like, a commercial hardware environment based on an X86 instruction set, a Feiteng autonomous hardware environment based on an ARM instruction set, a Loongson autonomous hardware environment based on a RISC instruction set, a Shenwei autonomous hardware environment based on an autonomous instruction set, a windows/Linux/Galois, a Narco domestic operating system, a Web application, RPC/Grpc/Webservice/Restful type services, Java applications, C applications, Firefox browser plug-in, dream/gold storehouse domestic database data files, container mirror images and virtual machine mirror image software forms, the unified management of the complex giant information system can be realized in the environment with four dimensions of a basic operating platform, a hardware environment, an operating system and a software form.

The invention is oriented to the deployment process of the huge information system in a complex environment, and has the following advantages:

a) supporting deployment and installation across commercial and autonomous hardware platforms;

b) supporting deployment and installation across commercial and autonomous operating systems;

c) the deployment and installation of application software with various technical forms are supported;

d) the deployment and installation of multiple operation supporting environments across a physical server/cloud platform/container are supported;

e) the method supports the setting and verification of two deployment dependency relationships of local installation dependency and call dependency during operation;

f) supporting automatic configuration of a deployment instruction set according to the mapping of the deployment node and the application to be deployed;

g) supporting the unified display of the progress of the deployment process and the alarm prompt of abnormal errors;

h) the export and import of the deployment scheme are supported, and the rapid replication and allopatric deployment are facilitated.

Drawings

FIG. 1 is a deployment process model design diagram of the present invention.

Fig. 2 is a functional component structure diagram of the deployment system of the present invention.

FIG. 3 is a diagram of the relationship and call logic within the deployment system of the present invention.

FIG. 4 is a flow chart of a deployment system implementation of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings from the aspects of model design and composition structure.

The model design of the invention is shown in figure 1 and comprises eight parts of contents of software application packaging model, packaging integrity verification, deployment description correctness verification, software application warehouse model, executable deployment sequence, deployment environment condition, dependence constraint of application software to be installed and remote automatic deployment and installation.

The software application packaging model is used for describing basic requirements of a software deployment environment (such as operating system/version, X86/Feiteng 1500A architecture hardware platform), information of the software (such as development language, version and development unit), information of software composition (such as program files, configuration files and catalogs of the software), basic requirements of the software deployment environment (such as whether java runtime environment/version is needed or not and whether C + + runtime environment/version is needed or not), other application and service information (such as identification, name, version, business/autonomy) dependences relied on when a client application or service deployment is installed, and other service information (such as identification, name, version, business/autonomy) required to be called during service operation.

The package integrity verification is to verify the packaged client or service according to the software package model and judge whether the content is complete; the deployment description correctness verification is to verify the deployment environment required by the packaged client or service according to the packaging model, so as to ensure complete filling of the content and to meet the requirements.

The software application warehouse model is a definition of a packaged application or service storage structure, and defines distributed storage (storing files in a discrete form), hierarchical storage (similar to the concepts of a master library and a subbase, and the storage positions can be specified according to certain attributes of the packaged files), timed backup (the warehouse is divided into a master site and a backup site, and synchronous backup is carried out regularly), and classification rules (for the packaged files stored in the warehouse, classification and division can be carried out in a labeling and cataloguing mode, so that business meanings are given conveniently).

The deployment environment scenario describes a specific deployment scenario, for example: the number of deployed nodes, the number of X86 commercial machines, the number of feiteng 1500A autonomous machines, the number of loongson 3A autonomous machines, the number of Shenwei autonomous machines, what operating systems are installed on each deployed node, and the computing/storage/network configuration of each deployed node.

The executable deployment sequence is a deployment execution scheme generated by combining point locations in the current deployment environment according to actual deployment requirements, and indicates which client applications or services are installed on which deployment point locations, what the installation sequence is, and what initialization operations need to be executed after installation is completed.

And the application software to be installed dependency constraint is to check the installation dependency relationship of the client application or service to be installed in the current deployment node again before deployment, and determine that the local content to be installed is completely ready.

The remote automatic deployment and installation is a process that a deployment tool on a deployment node receives an executable deployment sequence, analyzes an instruction and executes specific deployment, and supports the deployment on different basic operation platforms such as a physical server, a virtual machine, a container and the like, a commercial hardware environment based on an X86 instruction set, a Feiteng autonomous hardware environment based on an ARM instruction set, a godson autonomous hardware environment based on a RISC instruction set, a Shenwei autonomous hardware environment based on an autonomous instruction set, a Windows/Linux/Galois, and a Euclidean domestic operating system.

(2) Composite structure

The system composition structure of the patent is shown in fig. 2, and specifically includes eight parts, namely, a software encapsulation verification tool, a software warehouse, a deployment console, deployment task scheduling, a unified message framework, a registration center, a deployment interface, and a deployment agent.

The software packaging verification tool is used for packaging Web applications, RPC/Grpc/Webservice/Restful type services, Java applications, C + + applications, Firefox browser plug-ins, dreaming/gold warehouse database data files, container images and virtual machine images which are operated in different basic operation environments, different operating systems and different commercial autonomous environments according to a uniform packaging standard, and configuring a packaging description file for explaining basic requirements of a deployment environment, basic requirements of the software operation environment, dependency relationship with other applications or services during deployment, calling relationship with other services during operation and the like, and finally outputting a deployment packaging packet capable of executing uniform installation and deployment.

The software warehouse is a place for placing the deployment package, all the packaged deployment package are finally put in storage after the processes of package integrity check, deployment description correctness check, cataloging and classifying, manual examination and the like, the software warehouse can adapt to a complex deployment scene, support hierarchical deployment, regular backup, discrete storage and multi-version management, and provide a condition query function for the outside.

The registration center senses the active states of all the deployment agents, the active states are automatically registered through the deployment agents which are placed on the deployment nodes in advance, when the deployment agents are started, the deployment agents can automatically register with the registration center, heartbeat connection is carried out at regular time, therefore, the registration center can know the running state of each current deployment node, once the deployment nodes are closed or damaged due to other reasons, the registration center can immediately sense the offline state, and deployment task scheduling is timely notified.

The deployment control console is used for setting a deployment strategy and generating a deployment scheme, the control console lists all current deployment nodes and related information (ip, open ports and the like) through the perceptual interaction with the deployment nodes, a user can establish a mapping relation between a deployment encapsulation package in a software warehouse and the deployment nodes according to actual requirements, and dependent applications or services can be automatically associated in the process of establishing the mapping relation; and receiving and displaying the deployment state feedback pushed by the deployment task scheduling in the deployment process.

The deployment task scheduling is a control center of the whole deployment system and is responsible for analyzing the mapping relation between a deployment encapsulation package set in a deployment console by a user and deployment nodes and generating a corresponding deployment and installation instruction set, and is responsible for distributing deployment instructions to deployment agents on all the deployment nodes when the deployment is started so as to ensure the correct establishment of local dependence and network access dependence of each application or service in the deployment and installation process.

The unified message framework provides a message receiving and sending mechanism for each component of the deployment system, provides a message receiving and sending channel for the deployment console, the deployment task scheduling, the deployment interface and the deployment agent, realizes functional decoupling, simultaneously provides two message receiving and sending mechanisms of synchronization and asynchronization, and a retransmission mechanism after the transmission fails, and ensures the high reliability of message receiving and sending.

The deployment interface provides query service for a deployment agent in the deployment process, and provides basic information of a deployment package, local installation, network operation access dependency relationship and the like; meanwhile, relevant information of the deployment process, such as the installation progress, the installation position, whether installation is finished, an error log of the installation process and the like of the current client application or service, is also received, and the received information is transmitted to the deployment task scheduling.

The deployment agent is specifically responsible for deployment and installation work, is divided into a plurality of versions, can run on different basic operation platforms such as a physical server/a virtual machine/a container and the like, run on a commercial hardware environment of an X86 instruction set/an ARM-based Feiteng autonomous hardware environment, run on different operation systems such as windows/Linux/a domestic operation system and the like, receives an instruction sent by deployment task scheduling through a unified message frame, unpacks and executes the instruction, calls a deployment interface in the execution process to obtain basic information of a package, local installation and network operation access dependency relationship, and feeds the current deployment situation back to the deployment task scheduling through the unified message frame in the deployment process.

(3) Implementation process

The implementation flow of the patent is shown in fig. 4. The whole system deployment and installation process is as follows:

a) in the software development stage, a developer packages and packs client application or service passing test verification according to a unified standard to form a deployment package, submits the deployment package to a software warehouse after verification, and can set labels, catalogues, classifications, belonged topics and the like before submission so as to facilitate retrieval and query;

b) in a deployment preparation stage, firstly, deployment agents are uniformly pushed to all deployment nodes (the environment comprises a physical server virtual machine/container, a commercial/autonomous hardware environment, Windows/Linux/national silver river kylin/national winning kylin) by a security personnel through a deployment control console, and an automatic installation script is executed to execute an installation process and start;

c) the deployment agent automatically registers to a registry after being started, and provides ip addresses, port opening conditions and the like of deployment nodes where the deployment agent is located; after receiving the registration information of the deployment agent, the registration center can periodically perform heartbeat detection to judge the activity of the deployment agent;

d) the deployment control console acquires the activity states of all current deployment agents through deployment task scheduling, and when the deployment agent states of the deployment nodes mapping the deployment installation package are all active, the premise that the current deployment environment is complete is considered to be established; checking whether all the deployment installation packages and the deployment installation packages with local installation dependence and operation period access dependence exist or not by calling a software warehouse interface, and if all the deployment installation packages exist, determining that the current deployment installation package is complete; if the one of the above preconditions is not satisfied, an alarm prompt is given;

e) if the preconditions are all true, all the current deployment nodes, the packaged client applications and services are listed in the deployment console, and a user can set mapping between the deployment nodes and the packaged client applications and services;

f) when deployment is carried out, a user initiates a deployment task at a deployment control end, at the moment, deployment task scheduling verifies a deployment environment again, when deployment agents on deployment nodes all keep an active state, and when both conditions of all deployment installation packages and local dependence and operation period access dependence thereof are satisfied, the deployment task scheduling obtains a mapping relation set by the user, and a multi-path executable deployment installation instruction set sequence is formed after analysis;

g) the deployment task scheduling distributes the generated deployment instruction to the deployment node through the unified message frame, after receiving the instruction, the deployment agent is firstly connected to the software warehouse to download the deployment package, sequentially verifies the integrity and the local dependence of the package according to the installation time sequence set in the instruction whether the package is ready for downloading and installation, starts deployment and installation if the conditions are met, and feeds back the deployment state, error information and the like of each application to the deployment task through the unified message frame in the installation process;

h) after the deployment task feedbacks and summarizes the deployment state of each deployment node, the deployment task is pushed to a deployment control end to display the deployment progress in a unified mode; meanwhile, if the situations of local installation failure and transportation period calling dependence installation failure occur, timely warning is given to prompt support personnel, the deployment and installation process is temporarily suspended, and the deployment and installation can not be continuously executed until the deployment agent recovers the active state.

The scope of the present invention includes, but is not limited to, the above embodiments, and any alterations, modifications, and improvements which are easily suggested to those skilled in the art are all within the scope of the present invention.

Claims (4)

1. The cross-platform cross-commercial autonomous environment complex giant information system hybrid deployment system is characterized by comprising a software packaging verification tool, a software warehouse, a deployment control console, a deployment task scheduling, a deployment interface, a unified message framework, a deployment agent and a registration center, wherein the software packaging verification tool is used for running Web applications under different basic operating environments, different operating systems and different commercial autonomous environments, RPC/Grpc/Webservice/Restful type services, Java applications, C + + applications, Firex browser plug-ins, Dameng/Jincang domestic database data files, container mirror images and virtual machine mirror images, packaging according to a unified packaging standard, and configuring a packaging description file for explaining basic requirements of the deployment environment, basic requirements of the software operating environment and the dependency relationship with other applications or services during deployment, The calling relation with other services during the running period is finally output as a deployment packaging package capable of executing unified installation and deployment and uploaded to the software warehouse; the software warehouse is a place for placing deployment packaging packages, all the packaged deployment packaging packages are finally warehoused after the processes of packaging integrity check, deployment description correctness check, cataloging and classifying and manual auditing, the software warehouse can adapt to a complex deployment scene, support hierarchical deployment, regular backup, discrete storage, multi-version management, examination before uploading, cataloging setting and label setting, and provide a condition query function for the outside; the deployment control console is used for setting a deployment strategy and generating a deployment scheme, the deployment control console lists all current deployment nodes and related information through perceptual interaction with the deployment nodes, a user can establish a mapping relation between a deployment encapsulation package and the deployment nodes in the software warehouse according to actual requirements, dependent applications or services can be automatically associated in the process of establishing the mapping relation, and the deployment state feedback pushed by deployment task scheduling is received and displayed in a unified mode in the deployment process; the registry senses the activity states of all the deployment agents, receives the registration of each version of the deployment agents, forms a deployment node list, and meanwhile, periodically performs heartbeat connection with the deployment agents to perform activity detection, the registry can know the current running state of each deployment agent, once the deployment agents are abnormally quitted or damaged due to other reasons, the registry can immediately sense that the deployment agents lose activity when being offline, and timely inform the deployment task scheduling; the deployment task scheduling is a control center of the whole deployment system and is responsible for analyzing the mapping relation between a deployment encapsulation package set in the deployment control console by a user and deployment nodes and generating a corresponding deployment and installation instruction set, and is responsible for distributing deployment instructions to the deployment agents on all the deployment nodes through a unified message framework when the deployment is started, so that the correct establishment of the local dependence and network access dependence relation of each application or service in the deployment and installation process is ensured, in addition, the current deployment agent activity state is obtained from the registration center, the current deployment process state is obtained from the deployment agents, once a certain deployment agent is offline, an alarm prompt is immediately given, and the deployment and installation process is temporarily suspended until the deployment agents recover the activity state, so that the deployment and installation can be continuously executed; the deployment interface provides query service for the deployment agent in the deployment process, provides basic information of a deployment encapsulation package, local installation and network operation access dependency relationship information acquired from a software warehouse, simultaneously receives related information of the deployment process, and transmits the received information to the deployment task scheduling; the unified message framework provides a message receiving and sending mechanism for each component of the deployment system, provides a message receiving and sending channel for the deployment control console, the deployment task scheduling, the deployment interface and the deployment agent, and provides two message receiving and sending mechanisms of synchronization and asynchronization and a retransmission mechanism after the transmission fails; the deployment agent is specifically responsible for deployment and installation work, is divided into a plurality of versions, can run on different basic operation platforms, run in different hardware environments and run on different operating systems, is automatically connected with a registration center, receives heartbeat detection initiated by the registration center and responds in time, receives an instruction sent by the deployment task scheduling through the unified message framework, unpacks and executes the instruction, calls the deployment interface to acquire basic information of a package, local installation and network operation access dependency relationship in the execution process, and feeds back the current deployment condition to the deployment task scheduling through the unified message framework in the deployment process.

2. The cross-platform cross-business autonomous environment complex giant information system hybrid deployment system of claim 1, wherein the deployment agent is separable into C + + or Java versions in development language and into autonomous environment adaptation or business environment adaptation versions in technical implementation, and is compatible with an autonomous or business environment, a virtual machine or a container multi-class basic operating platform, a business or homemade operating system when deployed.

3. The cross-platform cross-business autonomous environment complex giant information system hybrid deployment system of claim 1, wherein the deployment interface receives the relevant information of the deployment process including a log of the installation progress, installation location, whether installation is completed, and whether the installation process is wrong for the current client application or service.

4. The cross-platform cross-commercial autonomous environment complex giant information system hybrid deployment system of claim 1, wherein different base operating platforms in the deployment agent comprise a physical machine, a commercial cloud platform, a commercial container cloud, an autonomous cloud platform, an autonomous container cloud; different hardware environments comprise an autonomous Feiteng series, an autonomous Loongson series, an autonomous Shenwei series and a commercial X86 series; the different operating systems comprise Windows series, Linux series, national Galaxy kylin and national winning kylin.

Images