CN109803014B - ICOS multi-region and storage system fusion deployment method and device - Google Patents

Abstract

The invention provides a method and a device for fusion deployment of ICOS multi-region and a storage system, which comprises the following steps: s1, installing and deploying an operating system for all nodes of each partition of an ICOS, and inspecting after deployment; s2, installing and deploying the AS13000 storage system service; s3, establishing association among each partition of the ICOS, pre-configuring all nodes before Openstack cloud deployment, and butting the nodes with the service of the A13000 storage system; and S4, executing Openstack cloud deployment. The device comprises: the system comprises an operating system installation and deployment module, a storage system service installation and deployment module, a cloud deployment and storage docking module and a cloud deployment execution module.

Description

ICOS multi-region and storage system fusion deployment method and device

Technical Field

The invention belongs to the technical field of cloud computing and virtualization, and particularly relates to a method and a device for fusion deployment of an ICOS multi-region and a storage system.

Background

The flexibility, expansibility, shareability, low cost and high serviceability of the cloud computing provide a new technical guarantee for virtualization.

The ICOS is a huge cloud data center operating system which is simultaneously fused with VMware, PowerVM, vSAN and other third-party functional components, and is a modular cloud platform constructed on the basis of OpenStack and bottom layer virtualized resources; the release cloud operating system is stable, easy to install and deploy and easy to operate and maintain by matching small and medium-sized customers in the area and industry with a standard cloud management platform, and the industry customized cloud operating system is provided by matching large and medium-sized customers in the key industry with an industry customized cloud management platform.

OpenStack is a free software and open source project developed and launched by NASA (national aerospace agency) and Rackspace collaboratively, authorized with Apache license.

The OpenStack is an open-source cloud computing management platform project, and is formed by combining several main components to complete specific work. OpenStack supports almost all types of cloud environments, and the project aims to provide a cloud computing management platform which is simple to implement, can be expanded in a large scale, is rich and has a unified standard. OpenStack provides a solution for infrastructure as a service (IaaS) through various complementary services, each providing an API for integration.

Although OpenStack is not mature in some aspects, it has a lot of organization support, and a lot of developers participate, and the development is rapid. There are many public clouds, private clouds and mixed clouds established by using the OpenStack internationally, the heat of the OpenStack in China is gradually increased, and the OpenStack is strongly interested and participates in the Langchao, the Huashengtangcheng, the Goodpasture map, the Jingdong, the Ali baba, the Baidu, the Zhongxing, the Huacheng and the like. OpenStack is likely to take a leading position in future infrastructure as a service (IaaS) resource management, becoming a "cloud operating system" standard for public, private, and hybrid cloud management.

The AS13000 storage system is a highly modularized storage platform facing the requirements of medium-high-end storage applications, has the characteristics of high reliability, high expandability, high performance and the like, provides NAS, objects, SAN and HDFS storage services, and provides host interfaces in the modes of 1GE, 10GE, 40/56/100Gb InfiniBand and the like through four hardware platforms of AS13000-M1 (2U 12 disk), AS13000-M3 (4U 36 disk), AS13000-M5 (2U 25 disk) and AS13000-Rack (42U complete cabinet). The AS13000 storage system can meet the application in the fields of high-performance calculation, databases, websites, file services, streaming media, digital video monitoring, file backup and the like.

At present, no scheme for the converged deployment and configuration of the ICOS multi-region and AS13000 storage system exists.

This is a deficiency of the prior art, and therefore, it is very necessary to provide a method and an apparatus for deploying an ICOS multi-zone and storage system in a converged manner.

Disclosure of Invention

Aiming at the problem that the prior art lacks a scheme for the fused deployment configuration of an ICOS multi-region and an AS13000 storage system, the invention provides a method and a device for the fused deployment of the ICOS multi-region and the storage system, so AS to solve the technical problem.

In a first aspect, the present invention provides a method for converged deployment of an ICOS multi-region and a storage system, comprising the following steps:

s1, installing and deploying an operating system for all nodes of each partition of an ICOS, and inspecting after deployment;

s2, installing and deploying the AS13000 storage system service;

s3, establishing association among each partition of the ICOS, pre-configuring all nodes before Openstack cloud deployment, and butting the nodes with the service of the A13000 storage system;

and S4, executing Openstack cloud deployment. The ICOS multi-partition and the AS13000 storage system are fused, deployed, configured and connected in an abutting mode, and a storage service and Openstack sharing node is achieved.

Further, each partition of the ICOS includes a deployment node and a non-deployment node;

the step S1 includes the following steps:

s11, operating system installation and deployment are carried out on the deployment node of each partition of the ICOS;

s12, installing an operating system on the non-deployment node of each partition of the ICOS by adopting PXE;

and S13, respectively carrying out post-deployment inspection on the deployed nodes and the non-deployed nodes.

In step S11, an ICOS _ x86_64_5.5.0 is used to make a boot disk to guide the deployment node of each partition, and an ICOS-5.5 Master is selected to be installed;

in step S13, both deployed nodes and non-deployed nodes are checked to see whether the docker service is normal, and whether the mirror image can be pulled is tested;

and independently checking a system control restart item for the deployment node, and solving the problem that the deployment node cannot pull the mirror image.

Further, the non-deployment nodes comprise a computing node, a storage node, a network node, a control node and a monitoring node.

Further, the step S2 specifically includes the following steps:

s21, installing the AS13000 storage system nodes;

s22, deploying an AS13000 storage system;

s23, configuring an AS13000 storage system object storage rgw;

s24, configuring the AS13000 storage system file system.

Step S21 includes:

uploading the mirror image icfs-SDS-linux-3.10.0. iso of the AS13000 storage system to all storage nodes, and mounting;

configuring a local yum source at the storage node;

establishing a metadata buffer, and installing an rpm packet of an AS13000 file storage system;

installing an ifcs-deployment tool rpm package rpm-ivh;

loading a udev rule file of the AS13000 storage system;

step S22 includes:

carrying out monitoring service deployment; initializing a monitoring service; after cleaning up the disk partitions on the storage nodes, deploying storage services;

step S23 includes:

creating rgw a pool, starting storage service;

step S24 includes:

creating a metadata service; creating a data storage pool; creating a metadata storage pool; creating a file system; installing a cluster management tool, installing management software, installing an FUSE client, and creating a manila shared root directory; and starting a file system snapshot function and starting NFS and CIFS.

Further, step S3 includes the following steps:

s31, pre-configuring all nodes before Openstack cloud deployment, and meanwhile establishing association between each partition of the ICOS;

and S32, the node which completes Openstack cloud deployment pre-configuration is in butt joint with the A13000 storage system service. In step S31, the method includes

Editing a multi-node file, and planning a control node, a computing node, a network node, a storage node and a monitoring node; modifying the global configuration file and starting a switch needing service deployment;

establishing association between each partition of the ICOS; adding IP addresses of other partitions into each partition to be associated, wherein a plurality of partitions share one keystone, and other resources except interfaces are independent;

step S32 includes

Copying the script of the Openstack deployment node to a storage cluster deployment node directory;

and copying all files in the config directory to corresponding directories of the Openstack deployment node, and editing the starting parameters of the Openstack deployment node.

Further, step S4 includes:

s41, checking the occupation condition of a multi-node port;

and S42, executing Openstack cloud deployment service.

In a second aspect, the present invention provides a multi-zone ICOS and storage system converged deployment device, including:

the operating system installation and deployment module is used for installing and deploying the operating system for all the nodes of each partition of the ICOS and carrying out post-deployment inspection;

the storage system service installation and deployment module is used for installing and deploying the AS13000 storage system service;

the cloud deployment and storage docking module is used for establishing association between each partition of the ICOS, performing pre-configuration on all nodes before Openstack cloud deployment, and docking with the A13000 storage system service;

and the cloud deployment execution module is used for executing Openstack cloud deployment.

Further, the operating system installation and deployment module comprises

The deployment node operating system installation deployment unit is used for installing and deploying the operating system for the deployment node of each partition of the ICOS;

the operating system installation unit of the non-deployment node is used for installing the operating system on the non-deployment node of each partition of the ICOS by adopting PXE;

and the post-deployment inspection unit is used for respectively performing post-deployment inspection on the deployment node and the non-deployment node.

Further, the storage system service installation and deployment module comprises

A storage system node installation unit, configured to perform AS13000 storage system node installation;

the storage system deployment unit is used for deploying the AS13000 storage system;

a storage system rgw configuration unit, configured to perform object storage rgw configuration of the AS13000 storage system;

and the storage system file system configuration unit is used for configuring the AS13000 storage system file system.

Further, the cloud deployment and storage docking module comprises:

the cloud deployment pre-configuration unit is used for pre-configuring all nodes before Openstack cloud deployment;

a multi-partition association unit for establishing association between each partition of the ICOS; a plurality of partitions are associated through IP addresses;

and the cloud deployment and storage docking unit is used for docking the nodes which are subjected to Openstack cloud deployment and pre-configuration with the A13000 storage system service.

The beneficial effect of the invention is that,

the invention realizes the fusion, deployment, configuration and butt joint of the ICOS multi-region and the AS13000 storage system, realizes the node sharing of the storage service and the Openstack, has independent resources among the multi-regions and strong isolation; the ICOS is based on an Openstack cloud computing platform, and provides technical support with stable operation, expandability and high flexibility; the AS13000 storage system adopts a structure of unified storage of metadata and data, and connects all physical storage devices to the ground to form a cluster, and provides file access, capacity management and data packet functions to the outside, so AS to realize monitoring servers, metadata services, data services and clients, provide POSIX interface data services to the outside, support a gigabit network, a gigabit network and an InfiniBand network, and support Linux and Windows client access. The present invention covers various aspects of networks, virtualization, operating systems, and servers.

In addition, the invention has reliable design principle, simple structure and very wide application prospect.

Therefore, compared with the prior art, the invention has prominent substantive features and remarkable progress, and the beneficial effects of the implementation are also obvious.

Drawings

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

FIG. 1 is a first flow chart of a method according to an embodiment of the present invention.

FIG. 2 is a second flowchart illustrating a method according to an embodiment of the present invention.

Fig. 3 is a schematic block diagram of an apparatus of one embodiment of the present invention.

In the figure, 1-an operating system installs a deployment module; 1.1-deploying a node operating system installation deployment unit; 1.2-non-deployment node operating system installation unit; 1.3-post-deployment inspection Unit; 2-storage system service installation and deployment module; 2.1-storage system node installation unit; 2.2-storage system deployment unit; 2.3-storage system rgw configuration unit; 2.4-storage system file system configuration unit; 3-cloud deployment and storage docking module; 3.1-cloud deployment pre-configuration unit; 3.2-a multi-partition association unit; 3.3-cloud deployment and storage docking unit; 4-cloud deployment execution module.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a part of the embodiment of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

as shown in FIG. 1, the present invention provides a method for converged deployment of ICOS multi-region and storage system, comprising the following steps:

s1, installing and deploying an operating system for all nodes of each partition of an ICOS, and inspecting after deployment;

s2, installing and deploying the AS13000 storage system service;

s3, establishing association among each partition of the ICOS, pre-configuring all nodes before Openstack cloud deployment, and butting the nodes with the service of the A13000 storage system;

s4, executing Openstack cloud deployment;

as shown in FIG. 2, each partition of the ICOS includes a deployment node and a non-deployment node; the non-deployment nodes comprise computing nodes, storage nodes, network nodes, control nodes and monitoring nodes;

the step S1 includes the following steps:

s11, operating system installation and deployment are carried out on the deployment node of each partition of the ICOS; adopting ICOS _ x86_64_5.5.0, iso to make a CD boot disk to guide the deployment node of each partition, and selecting to install ICOS-5.5 Master;

s12, installing an operating system on the non-deployment node of each partition of the ICOS by adopting PXE;

s13, respectively carrying out post-deployment inspection on the deployed nodes and the non-deployed nodes; in step S13, both deployed nodes and non-deployed nodes are checked to see whether the docker service is normal, and whether the mirror image can be pulled is tested;

independently checking a system control restart item for a deployment node, and solving the problem that the deployment node cannot pull a mirror image;

the step S2 includes the following steps:

s21, installing the AS13000 storage system nodes; uploading the mirror image icfs-SDS-linux-3.10.0. iso of the AS13000 storage system to all storage nodes, and mounting; configuring a local yum source at the storage node; establishing a metadata buffer, and installing an rpm packet of an AS13000 file storage system; installing an ifcs-deployment tool rpm package rpm-ivh; loading a udev rule file of the AS13000 storage system;

s22, deploying an AS13000 storage system; carrying out monitoring service deployment; initializing a monitoring service; after cleaning up the disk partitions on the storage nodes, deploying storage services;

s23, configuring an AS13000 storage system object storage rgw; creating rgw a pool, starting storage service;

s24, configuring a file system of the AS13000 storage system; creating a metadata service; creating a data storage pool; creating a metadata storage pool; creating a file system; installing a cluster management tool, installing management software, installing an FUSE client, and creating a manila shared root directory; starting a file system snapshot function and starting NFS and CIFS;

step S3 includes the following steps:

s31, pre-configuring all nodes before Openstack cloud deployment, and meanwhile establishing association between each partition of the ICOS; editing a multi-node file, and planning a control node, a computing node, a network node, a storage node and a monitoring node; modifying the global configuration file and starting a switch needing service deployment; establishing association between each partition of the ICOS; adding IP addresses of other partitions into each partition to be associated, wherein a plurality of partitions share one keystone, and other resources except interfaces are independent;

s32, the nodes which finish Openstack cloud deployment and pre-configuration are in butt joint with the A13000 storage system service; copying the script of the Openstack deployment node to a storage cluster deployment node directory; copying all files in the config directory to corresponding directories of the Openstack deployment node, and editing the starting parameters of the Openstack deployment node;

step S4 includes:

s41, checking the occupation condition of a multi-node port;

and S42, executing Openstack cloud deployment service.

Example 2:

taking an ICOS two-region and storage system fusion deployment method as an example for explanation, operating system installation and deployment are carried out on deployment nodes of a first partition of the ICOS, an ICOS _ x86_64_5.5.0 is adopted, an optical disc boot disk is manufactured by iso to guide the deployment nodes of each partition, and an ICOS-5.5 Master is selected to be installed;

after the deployment node system is installed, the PXE installs other non-deployment node systems;

the deployment node check item system restart locker solves the problem that the deployment node can not pull the mirror image;

all nodes check the system status packet Active (running) to judge that the dock service demonstration is normal, and test whether the mirror image can pull the cur http:// deploy node IP:4000/v2/_ category | python-m json. tool;

uploading the AS13000 storage system image icfs-SDS-linux-3.10.0. ISO to all storage nodes, mounting ISO, taking mounting to/media directory AS an example, and configuring local yum sources at all fusion nodes, creating/media directory: mkdir/media/CentOS 7;

mount -t iso9660 -o loop；

establishing a metadata buffer, installing an AS13000 file to store a relevant rpm package yum install nfs-ganesha attr samba-y, installing an icfs-deployment tool rpm package rpm-ivh/media/Cento OS 7/Packages/icfs-deployment-xxx.n.rpm-nodeps-force on a storage deployment node, and loading a udev rule file/sbin/udev add control-reload of the AS13000 on all fusion nodes;

deploying the AS13000 storage system; carrying out monitoring service deployment; initializing monitoring service icfs-deployment-override-conf mon create-initial; cleaning disk partitions, namely, an icfs-deploy disk zip node01, sd { b.. k } node02, sd { b.. k } node03, sd { b.. k } node04, sd { b.. k } node05, sd { b.. k }, and a storage service, namely, an icfs-deploy os create node01, sd { b.. k } node02, sd { b.. k } node03, sd { b.. k } node04, sd { b.. k } node05, sd { b.. k };

the AS13000 storage system object storage rgw configuration is carried out, the following configuration is added in/etc/icfs/icfs.conf, and the updating is synchronized; creating rgw a pool, starting a storage service system start icfs-radosgw @ radosgw.

AS13000 file system support: create metadata service icfs-deploy mds create inpur 03:0 inpur 04:1, create data storage pool icfs od pool create datapool 256256, create metadata storage pool # icfs os pool create metapool 256256 # icfs os pool set metapool size 3, create file system icfs new inpur metapool, cluster management tool install, management software install, Fuse client install, create manila share root directory icfs-admin-di-create-p/manila-u root-g root-mod rwrrxrowrx-pool, start file system snapshot function icfs-fs-snap-on, start NFS, CIFS: the AS13000 storage system is used in a mixed way with various hard disks;

the Openstack cloud network planning reference is carried out, the host names of all nodes are set, and five functional deployment nodes are planned: editing/root/multinode file planning control nodes, computing nodes, network nodes, storage nodes and monitoring nodes; yml to open the service switch to be deployed by modifying the global configuration file/etc/kolla/globals;

copying the script/root/tools/external-icfs.sh of the Openstack deployment node to a storage cluster deployment node/root directory: sh/root/external-icfs.sh; after the execution is finished, all the generated files in the config directory are copied to the directory corresponding to the/etc/kolla/config of the OpenStack deployment node, and the/etc/kolla/globals.yml starting parameters of the OpenStack deployment node are edited;

checking the occupation condition of a port before deployment, and the like kolla-arbitrary caches-i/root/multinode; deploying a service kolla-allowed deployment-i/root/multimode;

the configuration of the ICOS second partition is the same as that of the ICOS first partition, and the IP of the first partition is associated with the second partition in the steps of planning reference of an Openstack cloud network, setting host names of all nodes and planning five-function deployment nodes of the second partition; the two partitions can communicate with each other, but except for the keystone, the other resources of the two partitions are independent and isolated from each other.

Example 3:

as shown in FIG. 3, the present invention provides an ICOS multi-region and storage system convergence deployment device, which comprises

The operating system installation and deployment module 1 is used for installing and deploying the operating system for all the nodes of each partition of the ICOS and carrying out inspection after deployment; the operating system installation and deployment module 1 comprises

A deployment node operating system installation deployment unit 1.1, configured to perform operating system installation and deployment on a deployment node of each partition of the ICOS;

the operating system installation unit of the non-deployment node 1.2 is used for installing the operating system on the non-deployment node of each partition of the ICOS by adopting PXE;

the post-deployment inspection unit 1.3 is used for respectively performing post-deployment inspection on the deployment node and the non-deployment node;

the storage system service installation and deployment module 2 is used for installing and deploying the AS13000 storage system service; the storage system service installation and deployment module 2 comprises

A storage system node installation unit 2.1, configured to perform storage system node installation of AS 13000;

the storage system deployment unit 2.2 is used for deploying the AS13000 storage system;

a storage system rgw configuration unit 2.3, configured to perform object storage rgw configuration of AS13000 storage system;

a storage system file system configuration unit 2.4, configured to perform AS13000 storage system file system configuration;

the cloud deployment and storage docking module 3 is used for establishing association between each partition of the ICOS, performing pre-configuration on all nodes before Openstack cloud deployment, and docking with the A13000 storage system service; the cloud deployment and storage docking module 3 includes:

a cloud deployment pre-configuration unit 3.1, configured to perform pre-configuration before Openstack cloud deployment on all nodes;

a multi-partition association unit 3.2 for establishing associations between each partition of the ICOS;

a cloud deployment and storage docking unit 3.3, configured to dock, with an a13000 storage system service, a node that completes Openstack cloud deployment provisioning;

and the cloud deployment execution module 4 is used for executing Openstack cloud deployment.

Although the present invention has been described in detail by referring to the drawings in connection with the preferred embodiments, the present invention is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present invention by those skilled in the art without departing from the spirit and scope of the present invention, and these modifications or substitutions are within the scope of the present invention/any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. An ICOS multi-region and storage system fusion deployment method is characterized by comprising the following steps:

s1, installing and deploying an operating system for all nodes of each partition of an ICOS, and inspecting after deployment; the operating system supports Linux and Windows;

s2, installing and deploying the AS13000 storage system service;

s3, establishing association among each partition of the ICOS, pre-configuring all nodes before Openstack cloud deployment, and butting the nodes with the service of the A13000 storage system;

and S4, executing Openstack cloud deployment.

2. The ICOS multi-region and storage system converged deployment method of claim 1, wherein each partition of the ICOS comprises a deployment node and a non-deployment node; the deployment node is a node for executing Openstack cloud deployment, and the non-deployment node comprises a computing node, a storage node, a network node, a control node and a monitoring node;

the step S1 includes the following steps:

s11, operating system installation and deployment are carried out on the deployment node of each partition of the ICOS;

s12, installing an operating system on the non-deployment node of each partition of the ICOS by adopting PXE;

and S13, respectively carrying out post-deployment inspection on the deployed nodes and the non-deployed nodes.

3. The ICOS multi-region and storage system converged deployment method of claim 2, wherein the step S2 includes the following steps:

s21, installing the AS13000 storage system nodes;

s22, deploying an AS13000 storage system;

s23, configuring an AS13000 storage system object storage rgw;

s24, configuring the AS13000 storage system file system.

4. The ICOS multi-zone and storage system converged deployment method of claim 1, wherein the step S3 comprises the steps of:

s31, pre-configuring all nodes before Openstack cloud deployment, and meanwhile establishing association between each partition of the ICOS;

and S32, the node which completes Openstack cloud deployment pre-configuration is in butt joint with the A13000 storage system service.

5. The ICOS multi-zone and storage system converged deployment method of claim 1, wherein the step S4 includes:

s41, checking the occupation condition of a multi-node port;

and S42, executing Openstack cloud deployment service.

6. An ICOS multi-region and storage system fusion deployment device is characterized by comprising

The operating system installation and deployment module (1) is used for installing and deploying the operating system for all nodes of each partition of the ICOS and carrying out post-deployment inspection; the operating system supports Linux and Windows; the storage system service installation and deployment module (2) is used for installing and deploying the AS13000 storage system service;

the cloud deployment and storage docking module (3) is used for establishing association among each partition of the ICOS, performing pre-configuration on all nodes before Openstack cloud deployment, and docking with A13000 storage system service;

and the cloud deployment execution module (4) is used for executing Openstack cloud deployment.

7. An ICOS multi-zone and storage system converged deployment device according to claim 6, wherein the operating system installation deployment module (1) comprises

A deployment node operating system installation deployment unit (1.1) for performing operating system installation and deployment on the deployment node of each partition of the ICOS;

the operating system installation unit (1.2) of the non-deployment node is used for installing the operating system on the non-deployment node of each partition of the ICOS by adopting PXE;

the post-deployment inspection unit (1.3) is used for respectively performing post-deployment inspection on the deployment node and the non-deployment node;

the deployment node is a node for executing Openstack cloud deployment, and the non-deployment node comprises a computing node, a storage node, a network node, a control node and a monitoring node.

8. An ICOS multi-zone and storage system converged deployment device according to claim 6, wherein the storage system service installation deployment module (2) comprises

A storage system node installation unit (2.1) for installing AS13000 storage system nodes;

a storage system deployment unit (2.2) for deploying the AS13000 storage system;

a storage system rgw configuration unit (2.3) for performing object storage rgw configuration of the AS13000 storage system;

and the storage system file system configuration unit (2.4) is used for configuring the AS13000 storage system file system.

9. An ICOS multi-zone and storage system converged deployment device according to claim 6, wherein the cloud deployment and storage docking module (3) comprises:

a cloud deployment pre-configuration unit (3.1) for pre-configuring Openstack cloud deployment on all nodes;

a multi-partition association unit (3.2) for establishing associations between each partition of the ICOS;

and the cloud deployment and storage docking unit (3.3) is used for docking the node which completes the Openstack cloud deployment pre-configuration with the A13000 storage system service.

Images