CN105260377A - Updating method and system based on hierarchical storage - Google Patents

Abstract

The invention discloses an updating method and system based on hierarchical storage. The method comprises the following steps of: using a dynamic zettabyte file system (ZFS) as a bottom file system, configuring abundant architectures of a cluster resource manager pacemaker and a heartbeat line corosync as a basic storage system; and under the environment of the basic storage system, using a network auxiliary storage (NAS) system of a network file system (NFS) as the hierarchical storage system. According to the updating method and system based on hierarchical storage, the ZFS is used as the bottom file system to establish Lustre, so that the high bandwidth performance of the storage system can be ensured; both the pacemaker and the corosync are highly available, so that the rapid failure recovery ability and business continuity of the system can be ensured; and the NAS system is used as the high-capacity storage system, so that storage of large volume data can be achieved, and the high bandwidth basic storage system can be called when in need.

Description

A kind of upgrade method based on classification storage and system

Technical field

The present invention relates to field of computer technology, be specifically related to a kind of upgrade method based on classification storage and system.

Background technology

Lustre file system is increase income, the high performance file system developed by clusterfilesystem company.Lustre file system is a transparent global file system, and client can access the data in cluster file system pellucidly, and without the need to knowing the actual storage locations of these data.Lustre file system is the system of a high modularization, primarily of three part compositions: client (Client), object storage server (ObjectStorageTarget, and meta data server (MetaDataServer, MDS) OST).Three ingredients, except respective unique function, are shared each other and are such as locked, ask the modules such as process, Message Transmission.

In order to improve the performance of Lustre file system, usual Client, OST and MDS are separated, and these subsystems also can operate in same system certainly.Lustre file system eliminates legacy network file system in extensibility, and the problem in availability and performance, Lustre file system adopts distributed lock management mechanism to realize con current control, the communication link separate management of metadata and file data.Lustre has and is optimized for big file read-write, provides high performance I/O; Metadata separate, stored; The fast quick-recovery of service and network failure; Based on the distributed lock management of intention; Store based on object, make storage have more intellectuality, the Data Protection Technologies based on object one-level can be realized; System can the feature such as rapid configuration.Along with Lustre file system by more and more widely by enterprise and user use, in daily work, due to the proposition of various demand, Lustre file system has become the indispensable file system environment of routine work.

Along with the diversity of user and the arrival of large data age, single Lustre file system has been difficult to the demand meeting user, cannot when not influence zone wide feature, ensure the diversity of the storage of Large Volume Data, the continuity of business, the reliability of data and user.

Summary of the invention

The invention provides a kind of upgrade method based on classification storage and system, Large Copacity, continuity, reliability and multifarious defect cannot be realized to solve prior art.

The invention provides a kind of upgrade method stored based on classification, comprise the following steps:

Using living document system ZFS as underlying file systems, storage system based on allocation cluster explorer pacemaker and heartbeat corosync redundancy structure;

Under the environment of described basic storage system, use the network attached storage NAS system of file system NFS Network Based as hierarchical stor.

Alternatively, described using living document system ZFS as underlying file systems, based on allocation cluster explorer pacemaker and heartbeat corosync redundancy structure before storage system, also comprise:

System upgrade environment is set.

Alternatively, described system upgrade environment is set, specifically comprises:

The network of configuration server end, arranges network ip address, realizes safety shell protocol SSH without cryptographic acess between Lustre node and NFS node; Close the fire wall of all nodes, forbidding SELinux method; Shared storage is mapped on corresponding Lustre node, Lustre software package, ZFS software package, pacemaker software package, corosync software package and NFS software package are installed.

Alternatively, described under the environment of described basic storage system, use the network attached storage NAS system of file system NFS Network Based as after hierarchical stor, also comprise:

Based on described hierarchical stor, compatible several operation systems is as NFS client.

Alternatively, described based on described hierarchical stor, compatible several operation systems, as NFS client, is specially:

Under the environment in the NAS high power capacity classification space based on NFS, compatible windows, linux and mac operating system is as NFS client.

Present invention also offers a kind of upgrade-system stored based on classification, comprising:

First configuration module, for using living document system ZFS as underlying file systems, storage system based on allocation cluster explorer pacemaker and heartbeat corosync redundancy structure;

Second configuration module, under the environment of described basic storage system, uses the network attached storage NAS system of file system NFS Network Based as hierarchical stor.

Alternatively, described system, also comprises:

Module is set, for arranging system upgrade environment.

Alternatively, described module is set, specifically for the network of configuration server end, network ip address is set, between Lustre node and NFS node, realizes safety shell protocol SSH without cryptographic acess; Close the fire wall of all nodes, forbidding SELinux method; Shared storage is mapped on corresponding Lustre node, Lustre software package, ZFS software package, pacemaker software package, corosync software package and NFS software package are installed.

Alternatively, described system, also comprises:

Compatible modules, for based on described hierarchical stor, compatible several operation systems is as NFS client.

Alternatively, described compatible modules, specifically under the environment in the NAS high power capacity classification space based on NFS, compatible windows, linux and mac operating system is as NFS client.

The present invention builds Lustre using ZFS as underlying file systems, the high bandwidth performance of storage system can be ensured, pacemaker and corosync is used to do two-shipper High Availabitity, the fast failure recovery capability of system and the continuation of business can be ensured, use NAS storage system as the storage system of high power capacity, the storage of Large Volume Data can be met, and when needs adjustable use high bandwidth basis storage system.

Accompanying drawing explanation

Fig. 1 is a kind of upgrade method process flow diagram stored based on classification in the embodiment of the present invention;

Fig. 2 is the structural representation of a kind of upgrade-system based on classification storage in the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

It should be noted that, if do not conflicted, each feature in the embodiment of the present invention and embodiment can be combined with each other, all within protection scope of the present invention.In addition, although show logical order in flow charts, in some cases, can be different from the step shown or described by order execution herein.

Embodiments provide a kind of upgrade method stored based on classification, as shown in Figure 1, comprise the following steps:

Step 101, arranges system upgrade environment.

Particularly, can the network of configuration server end, network ip address is set, at Lustre node and NFS (NetworkFileSystem, network file system(NFS)) realize SSH (SecureShellProtocol between node, safety shell protocol) without cryptographic acess, the network between Deterministic service device end connects; Close the fire wall of all nodes, forbidding SELinux method; Shared storage is mapped on corresponding Lustre node, Lustre software package, ZFS (ZettabyteFileSystem, living document system) software package, pacemaker (cluster resource manager) software package, corosync (heartbeat) software package and NFS software package are installed.

Step 102, using ZFS as underlying file systems, storage system based on configuration pacemaker and corosync redundancy structure.

Particularly, when disk format, parameter backfstype=zfs can be added, and separately do two-shipper High Availabitity failnode is set, as:

[rootnode02～]#mkfs.lustre--reformat--mgs--mdt--backfstype＝zfs--fsname＝qq--failnode＝node01tcp0--index＝0lustre-mgs/mgtraidz/dev/sd{a,b,c}

[rootnode01～]#mkfs.lustre--reformat--ost--index＝0--backfstype＝zfs--mgsnode＝node02tcp0--failnode＝node02tcp0--fsname＝qqlustre-ost0/ost0raidz2/dev/sd{a,b,c,d,e}

Start Lustre service, carry Lustre client:

[rootcient1～]#mount-tlustrenode02tcp0:node01tcp0:/qq/mnt/qq

Corosync configuration file is distributed to Lustre service end node, starts pacemaker and corosync service, check crm_mon, obtain following result:

Lastupdated:ThuNov617:13:492014

Lastchange:ThuNov615:39:362014viacrmdonnode02

Stack:classicopenais(withplugin)

CurrentDC:node02-partitionwithquorum

Version:1.1.10-14.el6_5.3-368c726

2Nodesconfigured,2expectedvotes

4Resourcesconfigured

Online:[node01node02]

mgt(ocf::heartbeat:Lustre):Startednode01

ost0(ocf::heartbeat:Lustre):Startednode02

CloneSet:clonePing[resPing]

Started:[node01node02]

Step 103, under the environment of basic storage system, uses NAS (NetworkAttachedStorage, network attached storage) system based on NFS as hierarchical stor.

Particularly, can in NFS service end, configuration export file:

/mnt/nfstest*(fsid＝0,rw,async,insecure,no_root_squash,no_subtree_check)

Start NFS service, carry out carry in client:

mount-tnfsnode03:/mnt/nfstest/mnt/nfs

Lustremds node activates coordinator

[rootm2～]#lctlset_parammdt.testfs-MDT0000.hsm_control＝enabled

mdt.testfs-MDT0000.hsm_control＝enabled

[rootm2～]#lctlget_parammdt.testfs-MDT0000.hsm_control

mdt.testfs-MDT0000.hsm_control＝enabled

Start agent

[rootnode01～]#lhsmtool_posix--daemon--hsm-root/nfs--archive＝1/testfs

lhsmtool_posix[32510]:action＝0src＝(null)dst＝(null)mount_point＝/testfs

hsmtool_posix[32511]:waitingformessagefromkernel

Use hsm order to carry out activation release to file and check state

[rootclient02hsmfs]#lfshsm_archive–archive1file

[rootclient02hsmfs]#lfshsm_statefile

[rootclient02hsmfs]#lfshsm_releasefile

Step 104, based on hierarchical stor, compatible several operation systems is as NFS client.

Particularly, can under the environment in the NAS high power capacity classification space based on NFS, compatible windows, linux and mac operating system, as NFS client, is made user can be checked and data transmission file by NFS client, meets the demand of different operating system operation.

In the present embodiment, carry can be carried out to linux system in the following ways:

Start NFS service, set up mount directory, carry NFS client:

#mount–tnfs100.1.1.10:/mnt/nfs/mnt/nfs

Carry can also be carried out in the following ways to Windows system:

Control panel program open or close windows function under, NFS client and instrument are installed; Run in cmd:

C:\Users\pc>showmount-e100.1.1.10

Derive list at 100.1.1.10:

/home*

/opt*

/mnt/nfs*

C:\Users\pc>mount\\100.1.1.10\mnt\nfsZ:

Z: be now successfully connected to 100.1.1.10 mnt nfs

Order is successfully completed.

It should be noted that, in the windows system of some other version, some softwares need be suitable for run and carry out carry, as SFU software etc.

In addition, carry can also be carried out to Mac system in the following ways:

Detect in terminal and can be connected to nfs service end:

showmount-e100.1.1.10

exportsliston100.1.1.10:

/home*

/opt*

/mnt/nfs

Perform carry order:

mount–tnfs100.1.1.10:/mnt/nfs/private/nfs

If display reports an error: operationnotpermitted

Then revise carry order:

mount–tnfs–oresvport,rw100.1.1.10:/mnt/nfs/private/nfs

The embodiment of the present invention builds Lustre using ZFS as underlying file systems, the high bandwidth performance of storage system can be ensured, pacemaker and corosync is used to do two-shipper High Availabitity, the fast failure recovery capability of system and the continuation of business can be ensured, use NAS storage system as the storage system of high power capacity, the storage of Large Volume Data can be met, and when needs adjustable use high bandwidth basis storage system.In addition, the second order hierarchical space using NAS system as high power capacity, can compatible windows, linux and mac system client, thus meets user and use different operating system to carry out the storage of file and the demand of transmission, improves the diversity of user.

Based on the above-mentioned upgrade method stored based on classification, the embodiment of the present invention additionally provides a kind of upgrade-system stored based on classification, as shown in Figure 2, comprising:

First configuration module 201, for using ZFS as underlying file systems, configures storage system based on pacemaker and corosync redundancy structure;

Second configuration module 202, under the environment of basic storage system, uses NAS system based on NFS as hierarchical stor.

Further, said system, also comprises:

Module 203 is set, for arranging system upgrade environment.

Particularly, above-mentioned module 203 is set, specifically for the network of configuration server end, network ip address is set, between Lustre node and NFS node, realizes safety shell protocol SSH without cryptographic acess; Close the fire wall of all nodes, forbidding SELinux method; Shared storage is mapped on corresponding Lustre node, Lustre software package, ZFS software package, pacemaker software package, corosync software package and NFS software package are installed.

Further, said system, also comprises:

Compatible modules 204, for based on described hierarchical stor, compatible several operation systems is as NFS client.

Particularly, above-mentioned compatible modules, specifically under the environment in the NAS high power capacity classification space based on NFS, compatible windows, linux and mac operating system is as NFS client.

The embodiment of the present invention builds Lustre using ZFS as underlying file systems, the high bandwidth performance of storage system can be ensured, pacemaker and corosync is used to do two-shipper High Availabitity, the fast failure recovery capability of system and the continuation of business can be ensured, use NAS storage system as the storage system of high power capacity, the storage of Large Volume Data can be met, and when needs adjustable use high bandwidth basis storage system.In addition, the second order hierarchical space using NAS system as high power capacity, can compatible windows, linux and mac system client, thus meets user and use different operating system to carry out the storage of file and the demand of transmission, improves the diversity of user.

In conjunction with the software module that the step in the method that embodiment disclosed herein describes can directly use hardware, processor to perform, or the combination of the two is implemented.Software module can be placed in the storage medium of other form any known in random access memory (RAM), internal memory, ROM (read-only memory) (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technical field.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should described be as the criterion with the protection domain of claim.

Claims (10)

1., based on the upgrade method that classification stores, it is characterized in that, comprise the following steps:

Using living document system ZFS as underlying file systems, storage system based on allocation cluster explorer pacemaker and heartbeat corosync redundancy structure;

Under the environment of described basic storage system, use the network attached storage NAS system of file system NFS Network Based as hierarchical stor.

2. the method for claim 1, is characterized in that, described using living document system ZFS as underlying file systems, based on allocation cluster explorer pacemaker and heartbeat corosync redundancy structure before storage system, also comprises:

System upgrade environment is set.

3. method as claimed in claim 2, is characterized in that, describedly arranges system upgrade environment, specifically comprises:

The network of configuration server end, arranges network ip address, realizes safety shell protocol SSH without cryptographic acess between Lustre node and NFS node; Close the fire wall of all nodes, forbidding SELinux method; Shared storage is mapped on corresponding Lustre node, Lustre software package, ZFS software package, pacemaker software package, corosync software package and NFS software package are installed.

4. the method for claim 1, is characterized in that, described under the environment of described basic storage system, uses the network attached storage NAS system of file system NFS Network Based as after hierarchical stor, also comprises:

Based on described hierarchical stor, compatible several operation systems is as NFS client.

5. method as claimed in claim 4, it is characterized in that, described based on described hierarchical stor, compatible several operation systems, as NFS client, is specially:

Under the environment in the NAS high power capacity classification space based on NFS, compatible windows, linux and mac operating system is as NFS client.

6., based on the upgrade-system that classification stores, it is characterized in that, comprising:

First configuration module, for using living document system ZFS as underlying file systems, storage system based on allocation cluster explorer pacemaker and heartbeat corosync redundancy structure;

Second configuration module, under the environment of described basic storage system, uses the network attached storage NAS system of file system NFS Network Based as hierarchical stor.

7. system as claimed in claim 6, is characterized in that, also comprise:

Module is set, for arranging system upgrade environment.

8. system as claimed in claim 7, is characterized in that,

Described module is set, specifically for the network of configuration server end, network ip address is set, between Lustre node and NFS node, realizes safety shell protocol SSH without cryptographic acess; Close the fire wall of all nodes, forbidding SELinux method; Shared storage is mapped on corresponding Lustre node, Lustre software package, ZFS software package, pacemaker software package, corosync software package and NFS software package are installed.

9. system as claimed in claim 6, is characterized in that, also comprise:

Compatible modules, for based on described hierarchical stor, compatible several operation systems is as NFS client.

10. system as claimed in claim 9, is characterized in that,

Described compatible modules, specifically under the environment in the NAS high power capacity classification space based on NFS, compatible windows, linux and mac operating system is as NFS client.