CN108874510A - It is a kind of based on cloud management platform multinode deployment and dock framework and method - Google Patents

Abstract

The present invention provide it is a kind of based on cloud management platform multinode deployment and dock framework and method, including user terminal, management node, calculate node group, SAN memory and ISCSI memory, will be by user terminal, management node, calculate node group, SAN memory and ISCSI memory are configured to company-data processing platform, and company-data processing platform is docked with openstack cloud computing management Platform deployment.OpenStack cloud computing platform provides technical support for stable operation, the expansible, flexibility of framework.It supports to calculate, the all-round virtualization of storage and network, supports the lifecycle management of virtual machine, virtual disk and virtual network, multiple functions change online including virtual machine configuration with including virtual Intranet etc. are provided.Method of the invention is conveniently completed openstack deployment and is docked with system.

Description

It is a kind of based on cloud management platform multinode deployment and dock framework and method

Technical field

It is disposed the present invention relates to field of cloud calculation more particularly to a kind of multinode based on cloud management platform and docks framework And method.

Background technique

OpenStack is both a community and a project and an open source software, it supports almost all kinds of Cloud environment provides the solution or tool set of a deployment cloud.Its objective is：Help tissue operate to virtual computing or The cloud of storage service provides expansible, flexible cloud computing for public cloud, private clound.

With the growth of information explosion formula, cloud computing has obtained more and more concerns, and OpenStack is as a open source Cloud computing manage platform (abbreviation cloud pipe platform), its outstanding stability, compatibility have waited until the favor of many people, especially It is to have obtained the support of many large enterprises, such as IBM, Microsoft, AMD, Cisco etc., by the continuous iteration of more than ten of version, So that its function is more powerful, node redundancy deployment strategy realizes the High Availabitity of node, the very high stabilization of system Property,

There are many public cloud, private clounds, mixed cloud built using OpenStack in the world, and at home The temperature of OpenStack is also being gradually warmed up, tide, Teamsun, Amap, Jingdone district, Alibaba, Baidu, in it is emerging, magnificent Keen interest all is produced to OpenStack for grade and is participated.OpenStack be likely to following infrastructure i.e. Leader position is occupied in terms of service (IaaS) resource management, becomes " the cloud operation system of public cloud, private clound and mixing cloud management System " standard.

Tide cloud management plateform system and tide virtualization system are also with a wide range of applications at present, in order to make wave Damp cloud management plateform system and tide virtualization system have good application field, make system following infrastructure i.e. Leader position is occupied in terms of service (IaaS) resource management, becomes public cloud, private clound and the cloud operating system for mixing cloud management, This, which just needs to manage platform with cloud computing, docks deployment, how to realize that docking deployment is then current assistant officer technical problem to be solved.

Summary of the invention

In order to overcome the deficiencies in the prior art described above, the present invention provides a kind of multinode deployment based on cloud management platform With dock framework, including：User terminal, management node, calculate node group, SAN memory and ISCSI memory；

User terminal and management node are communicated to connect with each calculate node in calculate node group respectively；

Calculate node group includes：SAN stores calculate node module and ISCSI stores calculate node module；

SAN stores calculate node module：Multiple SAN store calculate node unit, and each SAN stores calculate node list Member is connect with SAN memory respectively, and each SAN storage calculate node unit is respectively to SAN memory stores data file；

ISCSI stores calculate node module：Multiple ISCSI store calculate node unit, and each ISCSI storage calculates Node unit is connect with ISCSI memory respectively, and each ISCSI storage calculate node unit is stored to ISCSI memory respectively Data file；

By user terminal, management node, calculate node group, SAN memory and ISCSI memory are configured at company-data Platform docks company-data processing platform with openstack cloud computing management Platform deployment.

Preferably, user terminal is communicated to connect by each calculate node in the first interchanger and calculate node group, and with Each calculate node in calculate node group transmits data file；

Management node is communicated to connect by each calculate node in second switch and calculate node group, and is saved with calculating Each calculate node transmission control information in point group.

It is a kind of based on cloud management platform multinode deployment and interconnection method, method include：

Step 1 creates data center, in data center configuration node list list；Node list list includes：Management Node, calculate node group, SAN memory and ISCSI memory；

Management node, calculate node group, SAN memory and ISCSI memory are configured to data center's collection by step 2 Group, is respectively configured the host of management node and calculate node group；

Step 3 configures interchanger in data center's cluster, creates VLAN or VXLAN interchanger；

Step 4 communicates to connect user terminal by each calculate node in the first interchanger and calculate node group, and Data file is transmitted with each calculate node in calculate node group；

Step 5 communicates to connect management node by each calculate node in second switch and calculate node group, And information is controlled with each calculate node transmission in calculate node group.

Preferably, cluster file system is created in data center's cluster, makes whole nodes and user in entire cluster End is equipped with the permission for checking and accessing cluster file system；

Heartbeat storage region and data storage areas are configured in cluster file system；

Configuration data storage region is CFS storage pool, constructs SAN memory and ISCSI memory, and carry selects institute There is node host；

In each node deployment node operating system；

Dispose each node installation PXE module.

Preferably, further include after the progress of each node deployment node operating system：

To being checked after the deployment of each node；

Check whether the docker service of each node is normal, and test mirrors seem no pull.

Preferably, further include after step 5：

Summarize deployment planning in cluster；

All node hostnames of cluster are set；

Planning and configuration clustered node is management node, calculate node, network node, memory node and monitoring node；Match The file transmission for setting clustered node, opens the file transfer services of clustered node.

Preferably, configure user terminal in data center's cluster, management node, calculate node group, SAN memory and The corresponding cluster ID of ISCSI memory；

Communication protocol in configuration data center cluster stores pool list, data center ID, interchanger ID, the use of each node Name in an account book and password；

Configure the network type of tenant, the port security agreement that each node port is supported, the network type of support, configuration Preset plug-in used in network, configuration data center cluster are flat type physical network, the section ID model of the network of vlan type It encloses；The corresponding relationship of configuration data center cluster physical network and bridge.

Preferably, each node is executed by decompression OpenStack system installation kit into installation kit；

Addition OpenStack virtual controlling executes deployment docking after completing installation operation；

By user terminal, management node, calculate node group, SAN memory and the corresponding cluster ID of ISCSI memory；It is logical Letter agreement, storage pool list, data center ID, interchanger ID, the user name and password of each node, the network type of tenant, respectively The port security agreement that a node port is supported, the network type of support, preset plug-in used in Configuration network, in configuration data Heart cluster is flat type physical network；The corresponding relationship of configuration data center cluster physical network and bridge is deployed to OpenStack completes docking.

As can be seen from the above technical solutions, the present invention has the following advantages that：

It include user terminal, management node, calculate node group, SAN memory and ISCSI storage in framework of the invention User terminal, management node, calculate node group, SAN memory and ISCSI memory will be configured to company-data processing by device Platform docks company-data processing platform with openstack cloud computing management Platform deployment.OpenStack cloud computing platform For based on the multinode of cloud management platform deployment with dock the stable operation of framework, expansible, flexibility provides technical support.Branch The all-round virtualization of calculating, storage and network is held, supports the lifecycle management of virtual machine, virtual disk and virtual network, The multiple functions changed online including virtual machine configuration with including virtual Intranet etc. are provided.Method of the invention is conveniently complete It disposes at openstack and is docked with system.OpenStack covers network, virtualization, operating system, server etc. Various aspects.

Detailed description of the invention

In order to illustrate more clearly of technical solution of the present invention, attached drawing needed in description will be made below simple Ground introduction, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ordinary skill For personnel, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is that the multinode based on cloud management platform is disposed and docks configuration diagram；

Fig. 2 is multinode deployment and interconnection method flow chart based on cloud management platform；

Fig. 3 is multinode deployment and interconnection method embodiment flow chart based on cloud management platform.

Specific embodiment

The present invention provide it is a kind of based on cloud management platform multinode deployment and dock framework, as shown in Figure 1, including：With Family end 1, management node 2, calculate node group, SAN memory 3 and ISCSI memory 4；User terminal 1 and management node 2 are distinguished It is communicated to connect with each calculate node in calculate node group；Calculate node group includes：SAN store calculate node module and ISCSI stores calculate node module；SAN stores calculate node module：Multiple SAN store calculate node unit 5, each SAN storage calculate node unit 5 is connect with SAN memory 3 respectively, and each SAN storage calculate node unit 5 is deposited to SAN respectively 3 storing data file of reservoir；ISCSI stores calculate node module：Multiple ISCSI store calculate node unit 6, each ISCSI storage calculate node unit 6 connect with ISCSI memory 4 respectively, each ISCSI store calculate node unit 6 respectively to 4 storing data file of ISCSI memory；By user terminal 1, management node 2, calculate node group, SAN memory 3 and ISCSI are deposited Reservoir 4 is configured to company-data processing platform.

User terminal 1 can connect company-data processing platform by subscriber's main station or user terminal for user, to cluster number It accesses according to each node and memory of processing platform.Management node 2 can node to system and memory carry out pipe Reason.

In the present invention, user terminal 1 is communicated to connect by each calculate node in the first interchanger and calculate node group, and Data file is transmitted with each calculate node in calculate node group；Management node 2 passes through second switch and calculate node group In each calculate node communication connection, and in calculate node group each calculate node transmission control information.

It in order to make the invention's purpose, features and advantages of the invention more obvious and easy to understand, below will be with specific Examples and drawings, the technical solution protected to the present invention are clearly and completely described, it is clear that implementation disclosed below Example is only a part of the embodiment of the present invention, and not all embodiment.Based on the embodiment in this patent, the common skill in this field Art personnel all other embodiment obtained without making creative work belongs to the model of this patent protection It encloses.

The present embodiment also provide it is a kind of based on cloud management platform multinode deployment and interconnection method, as shown in Fig. 2, method Including：

S1 creates data center, in data center configuration node list list；Node list list includes：Management node, Calculate node group, SAN memory and ISCSI memory；

Management node, calculate node group, SAN memory and ISCSI memory are configured to data center's cluster by S2, The host of management node and calculate node group is respectively configured；

The data center of creation, the host of configuration management node and calculate node group, if it is all in one environment, that It is added in the host of management node and calculate node group.

S3 configures interchanger in data center's cluster, creates VLAN or VXLAN interchanger；

S4 communicates to connect user terminal by each calculate node in the first interchanger and calculate node group, and with meter Each calculate node in operator node group transmits data file；

S5 communicates to connect management node by each calculate node in second switch and calculate node group, and with Each calculate node transmission control information in calculate node group.

The present invention also provides a kind of embodiments of the method, specially：As shown in figure 3,

S11 creates cluster file system in data center's cluster, keeps whole nodes in entire cluster and user terminal equal Equipped with the permission for checking and accessing cluster file system；

S12 configures heartbeat storage region and data storage areas in cluster file system；

S13, configuration data storage region are CFS storage pool, construct SAN memory and ISCSI memory, and carry selects Select all node hosts；

S14, in each node deployment node operating system；CD is made used here as ICOS_x86_64_5.5.0*.iso Boot disk guidance, selects Install ICOS-5.5Master (default).

S15 disposes each node installation PXE module.Batch disposes other nodes, after deployment node system is installed, PXE installs other node systems.

Further further include after the progress of each node deployment node operating system：

To being checked after the deployment of each node；

Check whether the docker service of each node is normal, and test mirrors seem no pull.

It is checked after allocating operating system, deployment node check item systemctl restart docker solves deployment node Mirror image can not be pulled；All nodes check systemctl status docker | grep " Active:active(running)" Check whether docker service is normal, and test mirrors seem that no can pull curl http:// deployment node IP:4000/v2/_ Catalog | can python-m json.tool test mirror image pull.

In the present invention, summarize deployment planning in cluster；All node hostnames of cluster are set；Planning and configuration clustered node For management node, calculate node, network node, memory node and monitoring node；The file transmission for configuring clustered node, is opened The file transfer services of clustered node.

Specifically, on-premise network planning reference, is arranged all node hostnames and planning five functional deployment node：It compiles Volume/root/multinode file plan control node, calculate node, network node, memory node and monitoring node；Modification The service switch that global configuration file/etc/kolla/globals.yml disposes needs is opened.

In the present invention, configure user terminal in data center's cluster, management node, calculate node group, SAN memory with And the corresponding cluster ID of ISCSI memory；Communication protocol in configuration data center cluster, stores pool list, and data center ID is handed over Change planes ID, the user name and password of each node；The network type of tenant is configured, the port security association that each node port is supported It discusses, the network type of support, preset plug-in used in Configuration network, configuration data center cluster is flat type physical network, The section ID range of the network of vlan type；The corresponding relationship of configuration data center cluster physical network and bridge.

Concrete form is,

Before carrying out deployment docking, data center's cluster configuration communication protocol stores pool list, and data center ID is handed over Change planes ID, the user name and password of each node；The network type of tenant is configured, the port security association that each node port is supported It discusses, the network type of support, preset plug-in used in Configuration network, configuration data center cluster is flat type physical network, The section ID range of the network of vlan type；The corresponding relationship of configuration data center cluster physical network and bridge.

Guarantee that environment has disposed completion, and relevant data center, cluster, storage pool, distribution switch resource are Creation finishes.

Compute_driver=incloud_sphere.IcsDriver

Cluster=e487bf816285cdb00162893ae210281f

Ics_host_url=https://100.7.63.1

Datastores=e487bf816285cdb001628a1b12bd31d7

Datacenter=9512bb27365c11e8aeae6c92bf11a982

Dvs=e487bf81629d620d01629d6680c40184

Ics_host_username=icm

Ics_host_password=qwe123

Default_volume_type=inspur-ics

Enabled_backends=inspur_ics

Backup_driver=cinder.backup.drivers.ics

Backup_ics_store_name=local201

Backup_ics_datacenter_name=default data center

Backup_host_url=https://100.7.63.1

Backup_host_username=icm

Backup_host_password=qwe123

[inspur_ics]

Image_volume_cache_enabled=True

Ics_host_url=https://100.7.63.1

Ics_host_username=icm

Ics_host_password=qwe123

Ics_insecure=True

Ics_data_center_name=default data center

Ics_datastore_names=nfsserver-007

Volume_group=stack-volumes-inspur-ics

Volume_driver=cinder.volume.drivers.inspur_ics.ics.IcsDr iver

Volume_backend_name=inspur-ics

Neutron docking：Under/etc/kolla/config/neutron/ catalogue, editor's ml2_conf.ini file The following contents, [ml2]

(tenant does not select net when creating network to the network type of tenant_network_types=vlan, flat# tenant Network type, the type for clicking here configuration automatically create)

Extension_drivers=port_security, qos # extend function, support port security, qos

The network type that type_drivers=vxlan, vlan, flat # are supported

Plug-in unit used in mechanism_drivers=ics_dvs # bottom layer realization network, broadcasting and TV customization It is to be realized with ics_dvs

The physical network of [ml2_type_flat] # configuration flat type

Flat_networks=default, public

[ml2_type_vlan] # configures the section ID range and object of the network of vlan type Manage network

Network_vlan_ranges=physicnet1:501:3600,mngphy,dataphy

The implementation of [securitygroup] # secure group

Firewall_driver=openvswitch

[ovs]

Bridge_mappings=physicnet1:br-phy,mngphy:br-mng,dataphy:br-data

The corresponding relationship of # configuration physical network and bridge

(physical network is exactly a character string to #, generally all with default public physnet etc..Physical network and Bridge_mappings is used cooperatively.

In the present invention, each node is executed by decompression OpenStack system installation kit into installation kit；

Addition OpenStack virtual controlling executes deployment docking after completing installation operation；

By user terminal, management node, calculate node group, SAN memory and the corresponding cluster ID of ISCSI memory；It is logical Letter agreement, storage pool list, data center ID, interchanger ID, the user name and password of each node, the network type of tenant, respectively The port security agreement that a node port is supported, the network type of support, preset plug-in used in Configuration network, in configuration data Heart cluster is flat type physical network, the section ID range of the network of vlan type；Configuration data center cluster physical network and The corresponding relationship of bridge is deployed to OpenStack and completes docking.

In this way, OpenStack cloud computing platform is the stabilization that the multinode based on cloud management platform is disposed and docks framework Operation, expansible, flexibility provide technical support.It supports the all-round virtualization of calculating, storage and network, supports virtual machine, void The lifecycle management of quasi- disk and virtual network, provide change online including virtual machine configuration with including virtual Intranet etc. Multiple functions.Method of the invention is conveniently completed openstack deployment and is docked with system.OpenStack covers The various aspects such as network, virtualization, operating system, server are covered.

Multinode deployment based on cloud management platform with dock the cloud computing of framework with flexibility, scalability, sharing, Low cost and high service.System structure of the invention is the key foundation of tide cloud computing solution, is mainly responsible for completion Bottom physical resource it is virtual fusion, distribution according to need with efficiently management, can significantly improve resource delivery agility and flexibly Property, the service efficiency of resource is promoted, provides resource guarantee incessantly and telescopic resource provision for upper-layer service.Cloud data Central management platform provides cloud data center resource management, tissue and distribution, has cloud data center to extraneous offer service And O&M ability, be substantially improved cloud data center resource utilization, save the cost, realize resource service, reach acquisition on demand, Charging according to quantity, the purpose of green low-carbon.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest scope of cause.

Claims (8)

1. a kind of multinode based on cloud management platform is disposed and docks framework, which is characterized in that including：User terminal, management section Point, calculate node group, SAN memory and ISCSI memory；

User terminal and management node are communicated to connect with each calculate node in calculate node group respectively；

Calculate node group includes：SAN stores calculate node module and ISCSI stores calculate node module；

SAN stores calculate node module：Multiple SAN store calculate node unit, each SAN storage calculate node unit point It is not connect with SAN memory, each SAN storage calculate node unit is respectively to SAN memory stores data file；

ISCSI stores calculate node module：Multiple ISCSI store calculate node unit, and each ISCSI stores calculate node Unit is connect with ISCSI memory respectively, and each ISCSI storage calculate node unit is respectively to ISCSI memory stores data File；

By user terminal, management node, calculate node group, SAN memory and ISCSI memory are configured to company-data processing and put down Platform docks company-data processing platform with openstack cloud computing management Platform deployment.

2. the multinode according to claim 1 based on cloud management platform is disposed and docks framework, which is characterized in that

User terminal is communicated to connect by each calculate node in the first interchanger and calculate node group, and in calculate node group Each calculate node transmit data file；

Management node is communicated to connect by each calculate node in second switch and calculate node group, and with calculate node group In each calculate node transmission control information.

3. a kind of multinode deployment and interconnection method based on cloud management platform, which is characterized in that method includes：

Step 1 creates data center, in data center configuration node list list；Node list list includes：Management node, Calculate node group, SAN memory and ISCSI memory；

Management node, calculate node group, SAN memory and ISCSI memory are configured to data center's cluster by step 2, The host of management node and calculate node group is respectively configured；

Step 3 configures interchanger in data center's cluster, creates VLAN or VXLAN interchanger；

Step 4 communicates to connect user terminal by each calculate node in the first interchanger and calculate node group, and with meter Each calculate node in operator node group transmits data file；

Step 5 communicates to connect management node by each calculate node in second switch and calculate node group, and with Each calculate node transmission control information in calculate node group.

4. the multinode deployment and interconnection method according to claim 3 based on cloud management platform, which is characterized in that

Cluster file system is created in data center's cluster, whole nodes and user terminal in entire cluster is made to be equipped with and check With the permission of access cluster file system；

Heartbeat storage region and data storage areas are configured in cluster file system；

Configuration data storage region is CFS storage pool, constructs SAN memory and ISCSI memory, and carry selects all sections Point host；

In each node deployment node operating system；

Dispose each node installation PXE module.

5. the multinode deployment and interconnection method according to claim 4 based on cloud management platform, which is characterized in that

Further include after the progress of each node deployment node operating system：

To being checked after the deployment of each node；

Check whether the docker service of each node is normal, and test mirrors seem no pull.

6. the multinode deployment and interconnection method according to claim 3 based on cloud management platform, which is characterized in that step Further include after five：

Summarize deployment planning in cluster；

All node hostnames of cluster are set；

Planning and configuration clustered node is management node, calculate node, network node, memory node and monitoring node；Config set The file of group node transmits, and opens the file transfer services of clustered node.

7. the multinode deployment and interconnection method according to claim 3 based on cloud management platform, which is characterized in that

User terminal, management node, calculate node group, SAN memory and ISCSI memory pair are configured in data center's cluster The cluster ID answered；

Communication protocol in configuration data center cluster stores pool list, data center ID, interchanger ID, the user name of each node And password；

Configure the network type of tenant, the port security agreement that each node port is supported, the network type of support, Configuration network Preset plug-in used, configuration data center cluster are flat type physical network, the section ID range of the network of vlan type；Match Set the corresponding relationship of data center's cluster physical network and bridge.

8. the multinode deployment and interconnection method according to claim 7 based on cloud management platform, which is characterized in that

Each node is executed by decompression OpenStack system installation kit into installation kit；

Addition OpenStack virtual controlling executes deployment docking after completing installation operation；

By user terminal, management node, calculate node group, SAN memory and the corresponding cluster ID of ISCSI memory；Communication protocols View stores pool list, data center ID, interchanger ID, the user name and password of each node, the network type of tenant, Ge Gejie The port security agreement that point port is supported, the network type of support, preset plug-in used in Configuration network, configuration data center collection Group is flat type physical network；The corresponding relationship of configuration data center cluster physical network and bridge is deployed to OpenStack Complete docking.