CN111459513A - Windows mirror image manufacturing system and method based on OpenStack platform - Google Patents

Abstract

The invention provides a Windows mirror image manufacturing method based on an OpenStack platform, which comprises the following steps: s1, building an OpenStack platform environment; and S2, making a Windows mirror image. The invention also provides a Windows mirror image making system based on the OpenStack platform. The invention has the beneficial effects that: the automation degree of the OpenStack platform construction is improved, the high efficiency of the Windows mirror image manufacturing process is facilitated, meanwhile, unnecessary human-computer interaction is reduced to a great extent, the process is simple and easy to operate, the universality is high, and the wide use of the mirror image manufacturing technology is facilitated.

Description

Windows mirror image manufacturing system and method based on OpenStack platform

Technical Field

The invention relates to a cloud computing technology and a mirror image manufacturing method, in particular to a Windows mirror image manufacturing system and method based on an OpenStack platform.

Background

With the wide popularization and continuous innovation of the cloud computing technology, the OpenStack platform development is increasingly applied to various services of various large enterprises, the cloud computing technology is combined to be beneficial to meeting the requirements of emerging services such as low delay, high bandwidth and the like, and the advantages of the OpenStack platform development ahead of other technologies will certainly become the mainstream development of future development. At present, the process of building an OpenStack platform is complex, time consumption for downloading required services and components is high, configuration files are complex, errors can occur when attributes or parameters are configured carelessly, and the services cannot be started normally. If the component service library which is not required to be downloaded and can be directly used serves for building the OpenStack platform, and the work of the deployment platform is completed by the automatic deployment script, unnecessary human-computer interaction can be reduced, and labor cost is saved. Meanwhile, in the existing mirror image making process, a user creates a virtual machine after selecting a certain mirror image type, then installs software according to needs, and finally makes and uploads the virtual machine, time consumed by software downloading also exists in the process, and the increase of a mirror image file is inevitably caused by software installation. Therefore, how to efficiently and accurately build the OpenStack platform, the image file is simply and quickly manufactured on the basis, the occupied space of the image file is minimized, the method is the core of further innovation of an image manufacturing system and method, and the method plays a positive role in the development of cloud computing technology.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a Windows mirror image making system and method based on an OpenStack platform.

The invention provides a Windows mirror image manufacturing method based on an OpenStack platform, which comprises the following steps:

s1, building an OpenStack platform environment, executing an automatic deployment script, starting to deploy each node environment, judging whether the deployment is accurate or not after the OpenStack platform environment is built, if the deployment is accurate, carrying out the next step, otherwise, returning to the step S1, and reinstalling the deployment;

s2, making Windows mirror image, firstly, configuring network service, then creating disk space to store mirror image and starting mirror image, secondly, installing Windows operation system to make mirror image through remote operation tool, initializing it, finally compressing and verifying the finished mirror image file, after verification is available, uploading to user mirror image library to store for user.

As a further improvement of the present invention, in step S1, an OpenStack platform environment is established by the OpenStack platform service system, the service environment of each node is installed according to the execution sequence of the script file of each node in the automatic deployment script module, the installation progress of the current service is displayed by the installation progress display module, after the installation is finished, the installation judgment module checks that the installation is completed correctly, if the installation is completed correctly, a "complete" instruction is sent to the Windows mirror image production system to perform the mirror image production process, otherwise, the service environment of each node is reinstalled by the reinstallation module until the installation is completed correctly.

As a further improvement of the present invention, in step S2, after the Windows mirror image production system receives a "complete" instruction sent by the OpenStack platform service system, a Windows mirror image production task is started, where the Windows mirror image production task is performed under a Controller node of the OpenStack platform environment, and first, attribute parameters of related services are configured through a service configuration module, then, production and verification are performed in sequence, and finally, the Windows mirror image production task is uploaded to a mirror image library of a user and stored, so that the Windows mirror image production task is convenient for later use.

As a further improvement of the present invention, in step S1, the OpenStack platform environment built by the OpenStack platform service system is a L inux virtual machine running based on VMware work, and simulates L inux operating system environment to construct a development platform and test application cases.

As a further improvement of the present invention, in step S1, the OpenStack platform service system directly provides a service installation package required by each node through a node software module, where the service installation package includes Nova computing service, liance mirror image service, Keystone authentication service, NTP time synchronization service, maridb, Erlang, socat, Rabbitmq, Neutron, and Dashboard; the automatic deployment script module of the OpenStack platform service system comprises automatic deployment scripts of a Controller, a computer and a renderer and is used for executing script files of all nodes in a one-key mode so as to rapidly deploy service environments of the three nodes.

As a further improvement of the present invention, in step S2, the Windows mirror image making system modifies the network card configuration through the service configuration module, sets the network to bridge mode, newly adds a bridge to set its BOOTPROTO parameter to dhcp mode, and finally restarts the network service; the image making module of the Windows image making system is used for creating a disk for storing an OpenStack image, starting the image, remotely installing the system and initializing the system, and after the system is initialized, the virtual machine is closed and the image compression module is accessed; the mirror image compression module of the Windows mirror image production system is used for compressing the produced mirror image file and outputting the compressed file; the Windows mirror image manufacturing system verifies whether the compressed mirror image file can normally run or not through a mirror image verification module; the Windows mirror image making system saves the made mirror image file through the mirror image uploading module and uploads the mirror image file to the user mirror image library.

The invention also provides a Windows mirror image making system based on the OpenStack platform, which comprises a readable storage medium, wherein an execution instruction is stored in the readable storage medium, and the execution instruction is used for realizing the method in any one of the above when being executed by a processor.

The invention also provides a Windows mirror image making system based on the OpenStack platform, which comprises an OpenStack platform service system and a Windows mirror image making system, wherein the OpenStack platform service system comprises a node software module, an automatic deployment script module, an installation progress display module, an installation judgment module and a reinstallation module;

the OpenStack platform service system is used for building an OpenStack platform environment, installing the service environment of each node according to the execution sequence of script files of each node in an automatic deployment script module, displaying the installation progress of the current service through an installation progress display module, after the installation is finished, passing the inspection of an installation judgment module, if the installation is finished correctly, sending a 'finishing' instruction to the Windows mirror image manufacturing system to carry out a mirror image manufacturing process, otherwise, passing through a reinstallation module, reinstalling each node service until the installation is finished correctly;

the Windows mirror image making system starts a Windows mirror image making task after receiving a 'completion' instruction sent by the OpenStack platform service system, the Windows mirror image making task is performed under a Controller node of the OpenStack platform environment, on the basis, attribute parameters of related services are firstly configured through a service configuration module, then the attribute parameters are made and verified through corresponding modules in sequence, and finally the attribute parameters are uploaded to a mirror image library of a user and stored, so that the Windows mirror image making system is convenient to use later.

As a further improvement of the invention, the OpenStack platform environment constructed by the OpenStack platform service system is an L inux virtual machine operated based on VMware workbench, simulates L inux operating system environment, constructs a development platform and tests application cases.

As a further improvement of the invention, the node software module of the OpenStack platform service system directly provides a service installation package required by each node, including Nova computing service, Glance mirror image service, Keystone authentication service, NTP time synchronization service, MariaDB, Erlang, socat, Rabbitmq, Neutron and Dashboard.

As a further improvement of the invention, the automated deployment script module of the OpenStack platform service system comprises automated deployment scripts of three nodes, namely a Controller, a computer and a renderer, and a user can rapidly deploy the service environment of the three nodes by only executing the script file by one key.

As a further improvement of the invention, the service mirror image module of the Windows mirror image making system comprises a qemu-kvm management program, a Windows mirror image and a program file of a drive mirror image.

As a further improvement of the invention, the service configuration module of the Windows mirror image making system is used for modifying the network card configuration, setting the network to bridge mode for facilitating the subsequent remote connection debugging, newly adding a network bridge, setting the BOOTPROTO parameter of the network bridge to dhcp mode, and finally restarting the network service.

As a further improvement of the invention, the mirror image making module of the Windows mirror image making system comprises a disk for creating and storing an OpenStack mirror image, a starting mirror image, a remote installation system and a system initialization, wherein after the system initialization is finished, a virtual machine is closed, and a mirror image compression module is entered.

As a further improvement of the invention, the mirror image compression module of the Windows mirror image production system is used for compressing the produced mirror image file, and the mirror image compression module compresses the size of the file by comparing different compression modes and finally outputs the compressed file which occupies a smaller space after compression.

As a further improvement of the present invention, the Windows mirror image production system further includes:

the mirror image verification module is used for verifying whether the compressed mirror image file can normally run or not;

and the mirror image uploading module is used for storing the manufactured mirror image file and uploading the mirror image file to a user mirror image library, so that the later-stage use is facilitated.

The invention has the beneficial effects that: through the scheme, the automation degree of the OpenStack platform building is improved, the high efficiency of the Windows mirror image manufacturing process is facilitated, meanwhile, unnecessary human-computer interaction is reduced to a great extent, the process is simple and easy to operate, the universality is high, and the wider application of the mirror image manufacturing technology is facilitated.

Drawings

FIG. 1 is a block diagram of a Windows mirroring system based on OpenStack platform according to the present invention.

FIG. 2 is a Windows mirror image production flow chart of the Windows mirror image production method based on the OpenStack platform.

FIG. 3 is a flowchart of a Windows mirror image production method based on OpenStack platform according to the present invention.

Detailed Description

The invention is further described with reference to the following description and embodiments in conjunction with the accompanying drawings.

As shown in fig. 1, a Windows mirroring system based on an OpenStack platform includes an OpenStack platform service system and a Windows mirroring system. The OpenStack platform service system comprises a node software module, an automatic deployment script module, an installation progress display module, an installation judgment module and a re-installation module. The Windows mirror image manufacturing system comprises a service mirror image module, a service configuration module, a mirror image manufacturing module, a mirror image compression module, a mirror image verification module and a mirror image uploading module.

The OpenStack platform service system is used for building an OpenStack platform environment, the service environment of each node can be sequentially installed according to the execution sequence of script files of each node in an automatic deployment script module, the installation progress of the current service is displayed through an installation progress display module, the installation can be checked through an installation judgment module after the installation is finished, if the installation is finished correctly, a 'finishing' instruction can be sent to a Windows mirror image manufacturing system, the mirror image manufacturing process is started, otherwise, each node service can be reinstalled through a reinstallation module until the installation is finished correctly.

After receiving the instruction, the Windows mirror image making system starts a Windows mirror image making task under a Controller node of an OpenStack platform environment, firstly needs to configure attribute parameters of related services through a service configuration module, then makes and verifies the related services through corresponding modules in sequence, and finally uploads the related services to a mirror image library of a user for storage, so that the Windows mirror image making system is convenient to use later.

The OpenStack platform environment built by the OpenStack platform service system is an L inux virtual machine which runs based on VMware Workstation, simulates L inux operating system environment, constructs a development platform and a test application case, wherein a node software module can directly provide a service installation package required by each node, and comprises Nova computing service, Glance mirror image service, Keystone authentication service, NTP time synchronization service, MariaDB, Erlang, sock, Rabbitmq, Neutron, Dashboard and the like.

The functions of each module of the Windows mirror image manufacturing system are respectively as follows: the service mirror image module provides qemu-kvm management programs, Windows mirror images, drive mirror images and other mirror image making related program files; the service configuration module is used for modifying the network card configuration, setting the network as bridge mode for facilitating subsequent remote connection debugging, newly adding a network bridge, setting the BOOTPROTO parameter of the network bridge as dhcp mode, and finally restarting the network service; the image manufacturing module comprises a disk for storing an OpenStack image, an image starting module, a remote installation system and a system initialization module, wherein the virtual machine is closed after the system initialization is finished, and the virtual machine enters an image compression module; the mirror image compression module is used for compressing the manufactured mirror image file, compression comparison in various modes such as tar and spark exists, and finally the compressed file which occupies a small space after compression is output; the mirror image verification module is used for verifying whether the compressed mirror image file can normally run or not; and the mirror image uploading module is used for storing the manufactured mirror image file and uploading the mirror image file to a user mirror image library, so that the later-stage use is facilitated.

The mirror image production flow is shown in fig. 2. Before Windows mirror image production is started, firstly, a sufficient disk space needs to be created on a virtual machine, the disk space is as large as possible under the condition that conditions permit, the space limitation of subsequent operation is reduced, and the disk space is used for storing the produced mirror image; then, setting parameters such as mirror name and memory size and starting the mirror; secondly, remotely connecting the virtual machine through a remote tool, and installing a Windows operating system to be manufactured, wherein the important steps comprise operating system selection, disk drive installation, disk selection and creation of installation position, and the like; after installation, corresponding initialization operations are executed, such as installation of a network card driver, firewall setting and the like, and other applications required by some users can be installed in the steps; after the steps are completed, the mirror image needs to be compressed, and a tar mode with smaller occupied space is selected to compress the mirror image mainly after the tar compression mode and the spark compression mode are compared; and verifying whether the compressed mirror image is available after compression, if the compressed mirror image can normally run, uploading the compressed mirror image to a common mirror image library of a user for storage, and otherwise, returning, remanufacturing and compressing again.

As shown in fig. 3, a method for making a Windows mirror image based on an OpenStack platform, based on a Windows mirror image making system based on an OpenStack platform, includes: executing an automatic deployment script, starting to deploy each node environment, judging whether the deployment is accurate after the OpenStack platform environment is built, if so, sending a 'completion' instruction, and otherwise, returning to reinstallation and deployment; when the Windows mirror image making system receives a 'finishing' instruction sent by an OpenStack platform service system, firstly configuring network service, then creating a disk space to store a mirror image and starting the mirror image, secondly installing a Windows operating system to be made with the mirror image through a remote operation tool and initializing the Windows operating system, and finally compressing and verifying the made mirror image file, wherein the verification can be uploaded to a user mirror image library to be stored after being available.

The Windows mirror image manufacturing system and method based on the OpenStack platform improve the automation degree of the OpenStack platform construction, are beneficial to the high efficiency of the Windows mirror image manufacturing process, reduce unnecessary human-computer interaction to a great extent, have simple and easy operation process and strong universality, and are beneficial to the wider use of the mirror image manufacturing technology; a large amount of time and labor in the traditional installation process and the software downloading process are saved, and the operation efficiency of the Windows mirror image making system service is improved; the Windows mirror image making system constructed by the invention can be well expanded to mirror image making systems of other operating systems.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (10)

1. A Windows mirror image manufacturing method based on an OpenStack platform is characterized by comprising the following steps:

s1, building an OpenStack platform environment, executing an automatic deployment script, starting to deploy each node environment, judging whether the deployment is accurate or not after the OpenStack platform environment is built, if the deployment is accurate, carrying out the next step, otherwise, returning to the step S1, and reinstalling the deployment;

s2, making Windows mirror image, firstly, configuring network service, then creating disk space to store mirror image and starting mirror image, secondly, installing Windows operation system to make mirror image through remote operation tool, initializing it, finally compressing and verifying the finished mirror image file, after verification is available, uploading to user mirror image library to store for user.

2. The OpenStack platform-based Windows mirroring method of claim 1, wherein: in step S1, an OpenStack platform environment is built through the OpenStack platform service system, the service environment of each node is installed according to the execution sequence of the script file of each node in the automatic deployment script module, the installation progress of the current service is displayed through the installation progress display module, after the installation is finished, the installation judgment module checks, if the installation is finished correctly, a "completion" instruction is sent to the Windows mirror image production system to perform the mirror image production process, otherwise, the service environment of each node is reinstalled through the reinstallation module until the installation is finished correctly.

3. The OpenStack platform-based Windows mirror image production method of claim 2, wherein: in step S2, after receiving the "complete" instruction sent by the OpenStack platform service system, the Windows mirror image production system starts a Windows mirror image production task, where the Windows mirror image production task is performed under a Controller node of the OpenStack platform environment, and first configures attribute parameters of a relevant service through a service configuration module, then sequentially performs production and verification, and finally uploads the result to a mirror image library of a user for storage, so as to be convenient for later use.

4. The method for manufacturing the Windows image based on the OpenStack platform according to claim 2, wherein in step S1, the OpenStack platform environment built by the OpenStack platform service system is a L inux virtual machine running based on VMware workbench, a L inux operating system environment is simulated, a development platform is built, and an application case is tested.

5. The OpenStack platform-based Windows mirror image production method of claim 2, wherein: in step S1, the OpenStack platform service system directly provides a service installation package required by each node through a node software module, including Nova computing service, liance mirror image service, Keystone authentication service, NTP time synchronization service, maridb, Erlang, socat, Rabbitmq, Neutron, and Dashboard; the automatic deployment script module of the OpenStack platform service system comprises automatic deployment scripts of a Controller, a computer and a renderer and is used for executing script files of all nodes in a one-key mode so as to rapidly deploy service environments of the three nodes.

6. The OpenStack platform-based Windows mirroring method of claim 3, wherein: in step S2, the Windows mirror image making system modifies the network card configuration through the service configuration module, sets the network to bridge mode, newly adds a bridge to set its BOOTPROTO parameter to dhcp mode, and finally restarts the network service; the image making module of the Windows image making system is used for creating a disk for storing an OpenStack image, starting the image, remotely installing the system and initializing the system, and after the system is initialized, the virtual machine is closed and the image compression module is accessed; the mirror image compression module of the Windows mirror image production system is used for compressing the produced mirror image file and outputting the compressed file; the Windows mirror image manufacturing system verifies whether the compressed mirror image file can normally run or not through a mirror image verification module; the Windows mirror image making system saves the made mirror image file through the mirror image uploading module and uploads the mirror image file to the user mirror image library.

7. A Windows mirror image production system based on OpenStack platform is characterized in that: comprising a readable storage medium having stored therein execution instructions for, when executed by a processor, implementing the method of any one of claims 1 to 6.

8. A Windows mirror image production system based on OpenStack platform is characterized in that: the OpenStack platform service system comprises a node software module, an automatic deployment script module, an installation progress display module, an installation judgment module and a reinstallation module, and the Windows mirror image production system comprises a service mirror image module, a service configuration module, a mirror image production module, a mirror image compression module, a mirror image verification module and a mirror image uploading module;

the OpenStack platform service system is used for building an OpenStack platform environment, installing the service environment of each node according to the execution sequence of script files of each node in an automatic deployment script module, displaying the installation progress of the current service through an installation progress display module, after the installation is finished, passing the inspection of an installation judgment module, if the installation is finished correctly, sending a 'finishing' instruction to the Windows mirror image manufacturing system to carry out a mirror image manufacturing process, otherwise, passing through a reinstallation module, reinstalling each node service until the installation is finished correctly;

the Windows mirror image making system starts a Windows mirror image making task after receiving a 'completion' instruction sent by the OpenStack platform service system, the Windows mirror image making task is performed under a Controller node of the OpenStack platform environment, on the basis, attribute parameters of related services are firstly configured through a service configuration module, then the attribute parameters are made and verified through corresponding modules in sequence, and finally the attribute parameters are uploaded to a mirror image library of a user and stored, so that the Windows mirror image making system is convenient to use later.

9. The Windows mirror image making system based on the OpenStack platform according to claim 8, characterized in that an OpenStack platform environment built by the OpenStack platform service system is an L inux virtual machine based on VMware workbench operation, simulates L inux operating system environment, constructs a development platform and a test application case, a node software module of the OpenStack platform service system directly provides service installation packages required by each node, including Nova computing service, Glance mirror image service, Keystone certification service, NTP time synchronization service, MariaDB, Erlang, sock, Rabbmq, Neutron and Dashboard, an automated deployment script module of the OpenStack platform service system includes automated scripts of three nodes, and a user can rapidly deploy a service environment of the three nodes by executing the script file only by one key.

10. The OpenStack platform based Windows mirroring system of claim 8, wherein: the service mirror image module of the Windows mirror image manufacturing system comprises a qemu-kvm management program, a Windows mirror image and a program file of a drive mirror image; the service configuration module of the Windows mirror image manufacturing system is used for modifying network card configuration, setting a network to be in a bridge mode for facilitating subsequent remote connection debugging, newly adding a network bridge, setting a BOOTPROTO parameter of the network to be in a dhcp mode, and finally restarting network service; the image making module of the Windows image making system comprises a disk for creating and storing an OpenStack image, starting the image, remotely installing the system and initializing the system, wherein the virtual machine is closed after the system is initialized, and then the virtual machine enters an image compression module; the mirror image compression module of the Windows mirror image production system is used for compressing the produced mirror image files, and the mirror image compression module compresses the sizes of the files by comparing different compression modes and finally outputs the compressed files which occupy smaller space after compression; the Windows mirror image production system further includes:

the mirror image verification module is used for verifying whether the compressed mirror image file can normally run or not;

and the mirror image uploading module is used for storing the manufactured mirror image file and uploading the mirror image file to a user mirror image library, so that the later-stage use is facilitated.

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