CN106648771A - Openstack cloud platform user-defined deployment system and method - Google Patents

Abstract

The invention discloses an Openstack cloud platform user-defined deployment system, and relates to the technical field of Openstack cloud platforms. The system comprises a component installing and executing module for creating a plurality of independent execution units, a control module used for obtaining an Openstack cloud platform deployment mode defined by a user, and a configuration template distribution module for sending configuration templates of Openstack components to all cloud platform nodes, wherein each execution unit is used for executing one independent function in Openstack component independent packaging; according to the Openstack cloud platform deployment mode defined by the user, an installation mode is set, the component installing and executing module is controlled through the set installing mode to use the multiple execution units for execute cooperative installation of the Openstack components needing to be installed on the cloud platform nodes. The Openstack cloud platform deployment structure can be set according to the user requirement. The invention further discloses an Openstack cloud platform user-defined deployment method.

Description

A kind of self-defined deployment system of Openstack cloud platforms and dispositions method

Technical field

The present invention relates to Openstack cloud platform technical fields, and in particular to a kind of self-defined portion of Openstack cloud platforms Administration's system and dispositions method.

Background technology

With the maturation of cloud scheme, the modularization of Openstack components greatly improves the flexibility of cloud, Openstack cloud platforms are also increasingly widely applied to various fields.And the Openstack cloud platform bases for possessing in the market All it is to need according to intrinsic plan implementation in sheet, when enterprise's cloud computing makes the transition, due to intrinsic Openstack can only be adopted Cloud platform deployment scheme, substantially cannot utilize existing device resource, and need to buy substantial amounts of new engine can complete cloud put down The deployment of platform, causes to existing equipments resources significant wastage.

Therefore, need badly a kind of suitable for carrying out Openstack cloud platform deployment according to user-defined deployment scheme Technical scheme.

The content of the invention

For defect present in prior art, it is an object of the invention to provide a kind of Openstack cloud platforms are made by oneself Adopted deployment system and dispositions method, according to user's request Openstack cloud platform deployment architectures are arranged.

To reach object above, the present invention is adopted the technical scheme that：A kind of Openstack cloud platforms are self-defined to dispose system System, the Openstack cloud platforms include multiple Openstack components, including：

Component installs performing module, and for creating multiple independent performance elements, each performance element is used to perform respectively A standalone feature during Openstack components are independently installed；Multiple performance elements realize the association of each Openstack components jointly Install；

Control module, for obtaining the Openstack cloud platform deployment modes that user specifies；Specified according to user Openstack cloud platforms deployment mode arranges Installation Modes, and the Installation Modes include Openstack cloud platforms to be installed Structure and each cloud platform node need component to be mounted；Used by the Installation Modes control assembly installation performing module for arranging many Individual performance element is performed and need the cooperation of Openstack components to be mounted to install on each cloud platform node；

Configuration template distribution module, for the configuration template of each Openstack components to be sent to into Openstack cloud platforms Each cloud platform node on.

On the basis of above-mentioned technical proposal, the self-defined deployment system of the Openstack cloud platforms also connects including user Mouth definition module, the Openstack cloud platforms deployment mode for being specified according to user adds and disposes Openstack cloud platforms User interface.

On the basis of above-mentioned technical proposal, the user interface definition module includes：

User interface section, for adding and disposing the user interface of Openstack cloud platforms；

Platform data collector unit, for collecting Openstack cloud platform data；

Platform data administrative unit, for managing Openstack cloud platform data using consolidation form.

On the basis of above-mentioned technical proposal, multiple independent performance elements are created by Ansible Playbook's Role modules are realized.

On the basis of above-mentioned technical proposal, the performance element includes Database unit, and Keystone installs single Unit and the independently installed unit of component, wherein：

Database unit is used to perform the foundation of Openstack cloud platform Mysql data-base clusters；

Keystone installation units are used for the installation and configuration of the keystone modules for performing Openstack cloud platforms；

The independently installed unit of component is used to perform the independently installed of each Openstack components.

On the basis of above-mentioned technical proposal, the configuration template distribution module includes：

Template storage unit, for creating a warehouse, the warehouse is used to store the configuration mould of each Openstack components Plate；

Translation retransmission unit, it is corresponding with confidence for the configuration template of each Openstack components in warehouse to be translated into Cease and send to each cloud platform node.

On the basis of above-mentioned technical proposal, the configuration template of each Openstack components in warehouse is translated into corresponding Configuration information is realized by the template modules in playbook.

The invention also discloses a kind of dispositions method of the self-defined deployment system of Openstack cloud platforms, component is installed and held The multiple independent performance elements of row module creation, each performance element be used for perform each Openstack components it is independently installed in One standalone feature；Then control module arranges to be installed according to the Openstack cloud platforms deployment mode that user specifies The Installation Modes of Openstack cloud platforms, the Installation Modes include the structure and each cloud platform node of Openstack cloud platforms Need component to be mounted；The Installation Modes that configuration template distribution module is arranged according to control module are by each Openstack components Configuration template is sent on each cloud platform node of Openstack cloud platforms；The Installation Modes control that last control module passes through setting Component installation performing module processed is performed using multiple performance elements and need Openstack components to be mounted on each cloud platform node Cooperation is installed.

Component installs performing module and needs Openstack groups to be mounted using each cloud platform node of multiple performance elements execution Part it is independently installed after, Openstack cloud platforms deployment mode addition that user interface definition module is specified according to user and The user interface of deployment Openstack cloud platforms.

On the basis of above-mentioned technical proposal, comprise the following steps：

S1, component installs performing module and creates multiple independent performance elements, and each performance element is used to perform respectively A standalone feature during Openstack components are independently installed；

S2, control module obtains the Openstack cloud platform deployment modes that user specifies；

S3, control module arranges Openstack cloud platforms according to the Openstack cloud platforms deployment mode that user specifies Installation Modes, the Installation Modes include that the structure and each cloud platform node of Openstack cloud platforms to be installed needs to install Openstack components；

S4, the Installation Modes that configuration template distribution module is arranged according to control module are by the configuration of each Openstack components Template is sent on each cloud platform node；

S5, control module is installed performing module and is performed using multiple performance elements by the Installation Modes control assembly for arranging Each cloud platform node needs the cooperation of Openstack components to be mounted to install；

S6, the addition of Openstack cloud platforms deployment mode and dispose that user interface definition module is specified according to user The user interface of Openstack cloud platforms.

Compared with prior art, it is an advantage of the current invention that：

The present invention first creates multiple independent performance elements, and each performance element is only for performing each Openstack components A standalone feature in vertical installation；Arrange to be installed according to the Openstack cloud platforms deployment mode that user specifies The Installation Modes of Openstack cloud platforms, then control each cloud platform section of multiple performance elements execution by the Installation Modes for arranging The independently installed of Openstack components to be mounted is needed on point, realizes arranging the deployment of Openstack cloud platforms according to user's request Structure, can flexibly develop programs and can greatly utilize existing server according to enterprise demand.

Description of the drawings

Fig. 1 is the structural representation of the self-defined deployment system of Openstack cloud platforms in the embodiment of the present invention；

Fig. 2 is the schematic flow sheet of the self-defined dispositions method of Openstack cloud platforms in the embodiment of the present invention.

Specific embodiment

The present invention is described in further detail below in conjunction with drawings and Examples.

Shown in Figure 1, the embodiment of the present invention provides a kind of Openstack cloud platforms self-defined deployment system, Openstack cloud platforms include multiple Openstack components, including：

Component installs performing module, and for creating multiple independent performance elements, each performance element is used to perform respectively A standalone feature during Openstack components are independently installed, multiple performance elements realize the only of each Openstack components jointly It is vertical to install.Create multiple independent performance elements to realize by the role modules of Ansible Playbook.Create multiple independences Performance element can also be by puppet, the cluster management instrument such as saltstack is realized.

Control module, for obtaining the Openstack cloud platform deployment modes that user specifies；Specified according to user Openstack cloud platforms deployment mode arranges Installation Modes, and Installation Modes include the structure of Openstack cloud platforms to be installed Component to be mounted is needed with each cloud platform node；Performing module is installed by the Installation Modes control assembly for arranging to hold using multiple Row unit is performed and need the cooperation of Openstack components to be mounted to install on each cloud platform node.

For example：

1) the Openstack cloud platform deployment modes that user selects, configuration mode file are obtained, user selects suitably to match somebody with somebody Put file：3_node.cfg；7_node.cfg.User selects suitable pattern to install：#python deploy.py-m mode.

2) input information of user is arranged control module the structure of Openstack cloud platforms to be installed：

Init_3_ctl (render_only=False)

3 control node modules, using default network pattern, i.e. vxlan.

Init_7_ctl (render_only=False, mode=vlan)

7 control node modules, using vlan network schemers.

Init_7_ctl (render_only=False, mode=vxlan)

7 control node modules, using vxlan network schemers.

Init_add_ctl (render_only=False)

Addition control node is in operating platform.

Init_add_ceph (render_only=False)

Addition memory node is in operating platform.

3) control module by each cloud platform node need component to be mounted, need the order for performing to be encapsulated and send to On each cloud platform node.Performing module is installed by the Installation Modes control assembly for arranging and performs each cloud using multiple performance elements The cooperation that Openstack components to be mounted are needed on platform nodes is installed.

Configuration template distribution module, for the configuration template of each Openstack components to be sent to into each cloud platform node. Configuration template is the configuration of the Openstack components arranged in playbook, and configuration template distribution module is by each Openstack groups The configuration template of part is sent to after each cloud platform node, and Openstack components are using in configuration template on each cloud platform node The configuration of the component of setting.

The self-defined deployment system of Openstack cloud platforms also includes user interface definition module, for being specified according to user Openstack cloud platforms deployment mode addition and dispose Openstack cloud platforms user interface.

The present invention first creates multiple independent performance elements, and each performance element is only for performing each Openstack components A standalone feature in vertical installation；Arrange to be installed according to the Openstack cloud platforms deployment mode that user specifies The Installation Modes of Openstack cloud platforms, then control each cloud platform section of multiple performance elements execution by the Installation Modes for arranging The independently installed of Openstack components to be mounted is needed on point, realizes arranging the deployment of Openstack cloud platforms according to user's request Structure, can flexibly develop programs and can greatly utilize existing server according to enterprise demand.

User interface definition module includes：

User interface section, for adding and disposing the user interface of Openstack cloud platforms；For example, deploy_ ceph.py:Deployment ceph Subscriber Interface Module SIMs.

deploy_openstack.py:Deployment Openstack Subscriber Interface Module SIMs.

new_ceph_node.py:Addition ceph node users interface modules.

new_openstack_node.py:Addition openstack compositional user interface modules.

Platform data collector unit, for collecting Openstack cloud platform data；For example,

utils_ceph.py：Collect data on file information.

utils_openstack.py：Collect openstack module informations.

Platform data administrative unit, for managing Openstack cloud platform data using consolidation form.For example, admin_ db.yml：Data information is managed using Yaml uniform formats.admin_yml.py：Yaml file read-write modules.

Performance element includes Database unit, Keystone installation units and the independently installed unit of component, wherein：

Database unit is used to perform the foundation of Openstack cloud platform Mysql data-base clusters；Realize database Cluster automatically dispose, being only responsible for setting up one can be with the Mysql data-base cluster of normal work, without considering How Openstack components use.

Keystone installation units are used for the installation and configuration of the Keystone modules for performing Openstack cloud platforms.Protect Card can be logged in and accessed using Openstack clients.

The independently installed unit of component is used to perform the independently installed of each Openstack components.Including Glance/Cinder/ Nova/Neutron, it is ensured that service is normal to be started.

Configuration template distribution module includes：

Template storage unit, for creating a warehouse, warehouse is used to store the configuration template of each Openstack components； Warehouse is the configuration warehouses in Playbook.

Translation retransmission unit, it is corresponding with confidence for the configuration template of each Openstack components in warehouse to be translated into Cease and send to each cloud platform node.

The configuration template of each Openstack components in warehouse is translated into into corresponding configuration information by Playbook Template modules are realized.Jiaja2 templates in configuration warehouses are translated into matching somebody with somebody for needs by template modules Confidence ceases, such as the disc information of user input, address information etc., can arrive target machine in template copy templates During replace pre-designed parameter information automatically, reach the purpose of every machine separate configurations information.

It is shown in Figure 2, the invention also discloses a kind of deployment side of the self-defined deployment system of Openstack cloud platforms Method, including：Component installs performing module and creates multiple independent performance elements, and each performance element is used to perform respectively A standalone feature during Openstack components are independently installed；Then control module is put down according to the Openstack clouds that user specifies Platform deployment mode arranges Installation Modes, and Installation Modes include that the structure and each cloud platform node of Openstack cloud platforms needs peace The component of dress；The Installation Modes that configuration template distribution module is arranged according to control module are by the configuration mould of each Openstack components Plate is sent on each cloud platform node of Openstack cloud platforms；The Installation Modes control group that last control module passes through setting Part is installed performing module and the cooperation that Openstack components to be mounted are needed on each cloud platform node is performed using multiple performance elements Install.

Component installs performing module and needs Openstack groups to be mounted using each cloud platform node of multiple performance elements execution Part it is independently installed after, Openstack cloud platforms deployment mode addition that user interface definition module is specified according to user and The user interface of deployment Openstack cloud platforms.

Comprise the following steps：

S1, component installs performing module and creates multiple independent performance elements, and each performance element is used to perform respectively A standalone feature during Openstack components are independently installed；

S2, control module obtains the Openstack cloud platform deployment modes that user specifies；

S3, control module arranges Openstack cloud platforms according to the Openstack cloud platforms deployment mode that user specifies Installation Modes, it is to be mounted that Installation Modes include that the structure and each cloud platform node of Openstack cloud platforms to be installed is needed Openstack components；

S4, the Installation Modes that configuration template distribution module is arranged according to control module are by the configuration of each Openstack components Template is sent on each cloud platform node；

S5, control module is installed performing module and is performed using multiple performance elements by the Installation Modes control assembly for arranging Each cloud platform node needs the cooperation of Openstack components to be mounted to install；

S6, the addition of Openstack cloud platforms deployment mode and dispose that user interface definition module is specified according to user The user interface of Openstack cloud platforms.

The present invention is not limited to above-mentioned embodiment, for those skilled in the art, without departing from On the premise of the principle of the invention, some improvements and modifications can also be made, these improvements and modifications are also considered as the protection of the present invention Within the scope of.The content not being described in detail in this specification belongs to prior art known to professional and technical personnel in the field.

Claims (10)

1. a kind of self-defined deployment system of Openstack cloud platforms, the Openstack cloud platforms include multiple Openstack Component, it is characterised in that include：

Component installs performing module, and for creating multiple independent performance elements, each performance element is used to perform respectively A standalone feature during Openstack components are independently installed；Multiple performance elements realize the association of each Openstack components jointly Install；

Control module, for obtaining the Openstack cloud platform deployment modes that user specifies；Specified according to user Openstack cloud platforms deployment mode arranges Installation Modes, and the Installation Modes include Openstack cloud platforms to be installed Structure and each cloud platform node need component to be mounted；Used by the Installation Modes control assembly installation performing module for arranging many Individual performance element is performed and need the cooperation of Openstack components to be mounted to install on each cloud platform node；

Configuration template distribution module, for the configuration template of each Openstack components to be sent to into each of Openstack cloud platforms On cloud platform node.

2. the self-defined deployment system of a kind of Openstack cloud platforms as claimed in claim 1, it is characterised in that：It is described The self-defined deployment system of Openstack cloud platforms also includes user interface definition module, for what is specified according to user Openstack cloud platforms deployment mode adds and disposes the user interface of Openstack cloud platforms.

3. the self-defined deployment system of a kind of Openstack cloud platforms as claimed in claim 2, it is characterised in that：The user Interface definition module includes：

User interface section, for adding and disposing the user interface of Openstack cloud platforms；

Platform data collector unit, for collecting Openstack cloud platform data；

Platform data administrative unit, for managing Openstack cloud platform data using consolidation form.

4. the self-defined deployment system of a kind of Openstack cloud platforms as claimed in claim 1, it is characterised in that：Create multiple Independent performance element is realized by the role modules of Ansible Playbook.

5. the self-defined deployment system of a kind of Openstack cloud platforms as claimed in claim 1, it is characterised in that：The execution Unit includes Database unit, Keystone installation units and the independently installed unit of component, wherein：

Database unit is used to perform the foundation of Openstack cloud platform Mysql data-base clusters；

Keystone installation units are used for the installation and configuration of the Keystone modules for performing Openstack cloud platforms；

The independently installed unit of component is used to perform the independently installed of each Openstack components.

6. the self-defined deployment system of a kind of Openstack cloud platforms as claimed in claim 1, it is characterised in that：The configuration Template distribution module includes：

Template storage unit, for creating a warehouse, the warehouse is used to store the configuration template of each Openstack components；

Translation retransmission unit, for the configuration template of each Openstack components in warehouse to be translated into into corresponding configuration information simultaneously Send to each cloud platform node.

7. the self-defined deployment system of a kind of Openstack cloud platforms as claimed in claim 6, it is characterised in that：By in warehouse The configuration template of each Openstack components translates into corresponding configuration information by the template module realities in playbook It is existing.

8. the dispositions method of the self-defined deployment system of a kind of Openstack cloud platforms, it is characterised in that：Component installs performing module Create multiple independent performance elements, each performance element be used to performing each Openstack components it is independently installed in one solely Render meritorious service energy；Then control module arranges Openstack to be installed according to the Openstack cloud platforms deployment mode that user specifies The Installation Modes of cloud platform, the Installation Modes include that the structure and each cloud platform node of Openstack cloud platforms needs to install Component；The Installation Modes that configuration template distribution module is arranged according to control module are by the configuration template of each Openstack components It is sent on each cloud platform node of Openstack cloud platforms；The Installation Modes control assembly that last control module passes through setting Installation performing module is performed using multiple performance elements and need the cooperation of Openstack components to be mounted to pacify on each cloud platform node Dress.

9. the self-defined deployment system of a kind of Openstack cloud platforms as claimed in claim 8, it is characterised in that：Component is installed Performing module using multiple performance elements perform each cloud platform node need Openstack components to be mounted it is independently installed it Afterwards, user interface definition module is specified according to user the addition of Openstack cloud platforms deployment mode and dispose Openstack clouds The user interface of platform.

10. the self-defined deployment system of a kind of Openstack cloud platforms as claimed in claim 9, it is characterised in that including following Step：

S1, component installs performing module and creates multiple independent performance elements, and each performance element is used to perform each Openstack A standalone feature during component is independently installed；

S2, control module obtains the Openstack cloud platform deployment modes that user specifies；

S3, control module arranges the installation of Openstack cloud platforms according to the Openstack cloud platforms deployment mode that user specifies Pattern, it is to be mounted that the Installation Modes include that the structure and each cloud platform node of Openstack cloud platforms to be installed is needed Openstack components；

S4, the Installation Modes that configuration template distribution module is arranged according to control module are by the configuration template of each Openstack components It is sent on each cloud platform node；

S5, control module installs performing module and performs each cloud using multiple performance elements by the Installation Modes control assembly for arranging Platform nodes need the cooperation of Openstack components to be mounted to install；

S6, the addition of Openstack cloud platforms deployment mode and dispose that user interface definition module is specified according to user The user interface of Openstack cloud platforms.