原有磁盘上创建lvm_Centos7创建LVM磁盘管理

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环境介绍

在centos7下需要挂载两个新的磁盘。为了方便后续的扩容方便，决定将这其设置为LVM管理的方式。

查看一下当前有哪些新增的数据盘，如下：

[root@runsdata-test-0004 ~]# df -hFilesystem      Size  Used Avail Use% Mounted on/dev/vda1        40G  1.4G   36G   4% /devtmpfs        7.8G     0  7.8G   0% /devtmpfs           7.8G     0  7.8G   0% /dev/shmtmpfs           7.8G  328K  7.8G   1% /runtmpfs           7.8G     0  7.8G   0% /sys/fs/cgrouptmpfs           1.6G     0  1.6G   0% /run/user/0[root@runsdata-test-0004 ~]# fdisk -l

Disk /dev/vda: 42.9 GB, 42949672960 bytes, 83886080 sectorsUnits = sectors of 1 * 512 = 512 bytesSector size (logical/physical): 512 bytes / 512 bytesI/O size (minimum/optimal): 512 bytes / 512 bytesDisk label type: dosDisk identifier: 0x0008d73a

   Device Boot      Start         End      Blocks   Id  System/dev/vda1   *        2048    83884031    41940992   83  Linux

Disk /dev/vdb: 53.7 GB, 53687091200 bytes, 104857600 sectorsUnits = sectors of 1 * 512 = 512 bytesSector size (logical/physical): 512 bytes / 512 bytesI/O size (minimum/optimal): 512 bytes / 512 bytes

Disk /dev/vdc: 53.7 GB, 53687091200 bytes, 104857600 sectorsUnits = sectors of 1 * 512 = 512 bytesSector size (logical/physical): 512 bytes / 512 bytesI/O size (minimum/optimal): 512 bytes / 512 bytes

[root@runsdata-test-0004 ~]#

可以从上面看出，目前有三块硬盘。系统盘：40G 另外还有两块50G的硬盘，需要挂载。我以其中一块硬盘作为示例。

LVM管理基本概念

1、物理卷-----PV(Physical Volume) 物理卷在逻辑卷管理中处于最底层，它可以是实际物理硬盘上的分区，也可以是整个物理硬盘。
2、卷组--------VG(Volumne Group) 卷组建立在物理卷之上，一个卷组中至少要包括一个物理卷，在卷组建立之后可动态添加物理卷到卷组中。一个逻辑卷管理系统工程中可以只有一个卷组，也可以拥有多个卷组。
3、逻辑卷-----LV(Logical Volume) 逻辑卷建立在卷组之上，卷组中的未分配空间可以用于建立新的逻辑卷，逻辑卷建立后可以动态地扩展和缩小空间。系统中的多个逻辑卷要以属于同一个卷组，也可以属于不同的多个卷组。
4、物理区域--PE(Physical Extent) 物理区域是物理卷中可用于分配的最小存储单元，物理区域的大小可根据实际情况在建立物理卷时指定。物理区域大小一旦确定将不能更改，同一卷组中的所有物理卷的物理区域大小需要一致。
5、逻辑区域—LE(Logical Extent) 逻辑区域是逻辑卷中可用于分配的最小存储单元，逻辑区域的大小取决于逻辑卷所在卷组中的物理区域的大小。
6、卷组描述区域-----(Volume Group Descriptor Area) 卷组描述区域存在于每个物理卷中，用于描述物理卷本身、物理卷所属卷组、卷组中的逻辑卷及逻辑卷中物理区域的分配等所有信息，卷组描述区域是在使用pvcreate 建立物理卷时建立的。

目标 - LVM管理拓扑

本篇章以此拓扑进行逐步部署。

给硬盘分区

选择其中一块50G的数据盘进行分区，只要将50G都设置一个分区即可，无需考虑设置多个分区。配置步骤如下：

使用命令：fdisk -l |grep dev，查看添加的硬盘是否存在。

[root@runsdata-test-0004 ~]# fdisk -l | grep devDisk /dev/vda: 42.9 GB, 42949672960 bytes, 83886080 sectors/dev/vda1   *        2048    83884031    41940992   83  LinuxDisk /dev/vdb: 53.7 GB, 53687091200 bytes, 104857600 sectorsDisk /dev/vdc: 53.7 GB, 53687091200 bytes, 104857600 sectors[root@runsdata-test-0004 ~]#

fdisk是分区工具：fdisk /dev/vdb，进入分区工具设置。

[root@runsdata-test-0004 ~]# fdisk /dev/vdbWelcome to fdisk (util-linux 2.23.2).

Changes will remain in memory only, until you decide to write them.Be careful before using the write command.

Device does not contain a recognized partition tableBuilding a new DOS disklabel with disk identifier 0x051e2cc7.

Command (m for help): mCommand action   a   toggle a bootable flag   b   edit bsd disklabel   c   toggle the dos compatibility flag   d   delete a partition   g   create a new empty GPT partition table   G   create an IRIX (SGI) partition table   l   list known partition types   m   print this menu   n   add a new partition   o   create a new empty DOS partition table   p   print the partition table   q   quit without saving changes   s   create a new empty Sun disklabel   t   change a partition's system id   u   change display/entry units   v   verify the partition table   w   write table to disk and exit   x   extra functionality (experts only)

Command (m for help):

输入m命令，则是查看有哪些命令可以使用。其中可以先看看这个数据盘有什么分区了。

输入`p`命令，查看该数据盘已经有哪些分区

Command (m for help): p

Disk /dev/vdb: 53.7 GB, 53687091200 bytes, 104857600 sectorsUnits = sectors of 1 * 512 = 512 bytesSector size (logical/physical): 512 bytes / 512 bytesI/O size (minimum/optimal): 512 bytes / 512 bytesDisk label type: dosDisk identifier: 0x051e2cc7

   Device Boot      Start         End      Blocks   Id  System

Command (m for help):

可以看出这块数据盘暂时还没有任何分区，那么下面我先来进行分区。

下面进入分区，‘n’选一个分区类型，如没有其他设置可按默认下到返回m for help处。最后按'w'保存设置。

Command (m for help): nPartition type:   p   primary (0 primary, 0 extended, 4 free)   e   extendedSelect (default p): pPartition number (1-4, default 1): 1First sector (2048-104857599, default 2048):Using default value 2048Last sector, +sectors or +size{K,M,G} (2048-104857599, default 104857599):Using default value 104857599Partition 1 of type Linux and of size 50 GiB is set

Command (m for help): wThe partition table has been altered!

Calling ioctl() to re-read partition table.Syncing disks.[root@runsdata-test-0004 ~]#

此时，再次查看一下数据盘，应该已经有一个50G的分区了。那么下一步，将其改为Linux LVM格式分区。

设置磁盘分区为Linux LVM格式分区

Command (m for help): p

Disk /dev/vdb: 53.7 GB, 53687091200 bytes, 104857600 sectorsUnits = sectors of 1 * 512 = 512 bytesSector size (logical/physical): 512 bytes / 512 bytesI/O size (minimum/optimal): 512 bytes / 512 bytesDisk label type: dosDisk identifier: 0x051e2cc7

   Device Boot      Start         End      Blocks   Id  System/dev/vdb1            2048   104857599    52427776   83  Linux

Command (m for help): tSelected partition 1Hex code (type L to list all codes): 8eChanged type of partition 'Linux' to 'Linux LVM'

Command (m for help): p

Disk /dev/vdb: 53.7 GB, 53687091200 bytes, 104857600 sectorsUnits = sectors of 1 * 512 = 512 bytesSector size (logical/physical): 512 bytes / 512 bytesI/O size (minimum/optimal): 512 bytes / 512 bytesDisk label type: dosDisk identifier: 0x051e2cc7

   Device Boot      Start         End      Blocks   Id  System/dev/vdb1            2048   104857599    52427776   8e  Linux LVM

Command (m for help): wThe partition table has been altered!

Calling ioctl() to re-read partition table.Syncing disks.[root@runsdata-test-0004 ~]#

根据上面的步骤，再对另一个数据盘进行分区，执行如下：

分区：

[root@runsdata-test-0004 ~]# fdisk -l | grep devDisk /dev/vda: 42.9 GB, 42949672960 bytes, 83886080 sectors/dev/vda1   *        2048    83884031    41940992   83  LinuxDisk /dev/vdb: 53.7 GB, 53687091200 bytes, 104857600 sectors/dev/vdb1            2048   104857599    52427776   8e  Linux LVMDisk /dev/vdc: 53.7 GB, 53687091200 bytes, 104857600 sectors[root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]# fdisk /dev/vdcWelcome to fdisk (util-linux 2.23.2).

Changes will remain in memory only, until you decide to write them.Be careful before using the write command.

Device does not contain a recognized partition tableBuilding a new DOS disklabel with disk identifier 0x420d8007.

Command (m for help): p

Disk /dev/vdc: 53.7 GB, 53687091200 bytes, 104857600 sectorsUnits = sectors of 1 * 512 = 512 bytesSector size (logical/physical): 512 bytes / 512 bytesI/O size (minimum/optimal): 512 bytes / 512 bytesDisk label type: dosDisk identifier: 0x420d8007

   Device Boot      Start         End      Blocks   Id  System

Command (m for help): nPartition type:   p   primary (0 primary, 0 extended, 4 free)   e   extendedSelect (default p): pPartition number (1-4, default 1): 1First sector (2048-104857599, default 2048):Using default value 2048Last sector, +sectors or +size{K,M,G} (2048-104857599, default 104857599):Using default value 104857599Partition 1 of type Linux and of size 50 GiB is set

Command (m for help): wThe partition table has been altered!

Calling ioctl() to re-read partition table.Syncing disks.[root@runsdata-test-0004 ~]#

设置为LVM

[root@runsdata-test-0004 ~]# fdisk /dev/vdcWelcome to fdisk (util-linux 2.23.2).

Changes will remain in memory only, until you decide to write them.Be careful before using the write command.

Command (m for help): p

Disk /dev/vdc: 53.7 GB, 53687091200 bytes, 104857600 sectorsUnits = sectors of 1 * 512 = 512 bytesSector size (logical/physical): 512 bytes / 512 bytesI/O size (minimum/optimal): 512 bytes / 512 bytesDisk label type: dosDisk identifier: 0x420d8007

   Device Boot      Start         End      Blocks   Id  System/dev/vdc1            2048   104857599    52427776   83  Linux

Command (m for help): tSelected partition 1Hex code (type L to list all codes): 8eChanged type of partition 'Linux' to 'Linux LVM'

Command (m for help): p

Disk /dev/vdc: 53.7 GB, 53687091200 bytes, 104857600 sectorsUnits = sectors of 1 * 512 = 512 bytesSector size (logical/physical): 512 bytes / 512 bytesI/O size (minimum/optimal): 512 bytes / 512 bytesDisk label type: dosDisk identifier: 0x420d8007

   Device Boot      Start         End      Blocks   Id  System/dev/vdc1            2048   104857599    52427776   8e  Linux LVM

Command (m for help): wThe partition table has been altered!

Calling ioctl() to re-read partition table.Syncing disks.[root@runsdata-test-0004 ~]#

创建物理卷 PV

安装pv系列命令, `yum install lvm2 -y`

阿里云的服务器默认没有安装pv的相关命令的。

[root@runsdata-test-0004 ~]# pvcreate-bash: pvcreate: command not found[root@runsdata-test-0004 ~]#

需要安装一下lvm2的工具如下：

[root@server81 ~]# rpm -qa | grep lvmlvm2-2.02.171-8.el7.x86_64lvm2-libs-2.02.171-8.el7.x86_64[root@server81 ~]#

安装如下：

[root@runsdata-test-0004 ~]# yum install lvm2 -yLoaded plugins: fastestmirrorLoading mirror speeds from cached hostfileResolving Dependencies--> Running transaction check---> Package lvm2.x86_64 7:2.02.180-10.el7_6.2 will be installed.... 省略 ....

Installed:  lvm2.x86_64 7:2.02.180-10.el7_6.2

Dependency Installed:  device-mapper-event.x86_64 7:1.02.149-10.el7_6.2  device-mapper-event-libs.x86_64 7:1.02.149-10.el7_6.2  device-mapper-persistent-data.x86_64 0:0.7.3-3.el7  libaio.x86_64 0:0.3.109-13.el7  lvm2-libs.x86_64 7:2.02.180-10.el7_6.2

Dependency Updated:  device-mapper.x86_64 7:1.02.149-10.el7_6.2      device-mapper-libs.x86_64 7:1.02.149-10.el7_6.2

Complete![root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]# rpm -qa | grep lvmlvm2-libs-2.02.180-10.el7_6.2.x86_64lvm2-2.02.180-10.el7_6.2.x86_64[root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]# pvpv         pvck       pvdisplay  pvremove   pvspvchange   pvcreate   pvmove     pvresize   pvscan[root@runsdata-test-0004 ~]# pv

从上面可以看出已经安装好了lvm所需要的工具了。那么下面来继续配置。

创建物理卷：选择自己要创建的分区

[root@runsdata-test-0004 ~]# fdisk -l | grep devDisk /dev/vda: 42.9 GB, 42949672960 bytes, 83886080 sectors/dev/vda1   *        2048    83884031    41940992   83  LinuxDisk /dev/vdb: 53.7 GB, 53687091200 bytes, 104857600 sectors/dev/vdb1            2048   104857599    52427776   8e  Linux LVMDisk /dev/vdc: 53.7 GB, 53687091200 bytes, 104857600 sectors[root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]# pvcreate /dev/vdbvdb   vdb1[root@runsdata-test-0004 ~]# pvcreate /dev/vdb1  Physical volume "/dev/vdb1" successfully created.[root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]#

查看创建好的物理卷

[root@runsdata-test-0004 ~]# pvs  PV         VG Fmt  Attr PSize   PFree  /dev/vdb1     lvm2 ---  <50.00g <50.00g[root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]# pvdisplay  "/dev/vdb1" is a new physical volume of "<50.00 GiB"  --- NEW Physical volume ---  PV Name               /dev/vdb1  VG Name  PV Size               <50.00 GiB  Allocatable           NO  PE Size               0  Total PE              0  Free PE               0  Allocated PE          0  PV UUID               oMzorH-1mfB-0VEy-eZDB-HHU3-UM9C-0EoPTU

[root@runsdata-test-0004 ~]#

PE(physical extent)：物理区域是物理卷中可用于分配的最小存储单元，物理区域大小在建立卷组时指定，一旦确定不能更改，同一卷组所有物理卷的物理区域大小需一致，新的pv加入到vg后，pe的大小自动更改为vg中定义的pe大小。
LE(logical extent)：逻辑区域是逻辑卷中可用于分配的最小存储单元，逻辑区域的大小取决于逻辑卷所在卷组中的物理区域的大小。
卷组描述区域：卷组描述区域存在于每个物理卷中，用于描述物理卷本身、物理卷所属卷组、卷组中逻辑卷、逻辑卷中物理区域的分配等所有信息，它是在使用pvcreate建立物理卷时建立的。

根据上面的步骤，再给另一个数据盘创建PV

[root@runsdata-test-0004 ~]# fdisk -l | grep devDisk /dev/vda: 42.9 GB, 42949672960 bytes, 83886080 sectors/dev/vda1   *        2048    83884031    41940992   83  LinuxDisk /dev/vdb: 53.7 GB, 53687091200 bytes, 104857600 sectors/dev/vdb1            2048   104857599    52427776   8e  Linux LVMDisk /dev/vdc: 53.7 GB, 53687091200 bytes, 104857600 sectors/dev/vdc1            2048   104857599    52427776   8e  Linux LVM[root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]# pvcreate /dev/vdc1  Physical volume "/dev/vdc1" successfully created.[root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]# pvs  PV         VG       Fmt  Attr PSize   PFree  /dev/vdb1  vgdocker lvm2 a--  <50.00g <50.00g  /dev/vdc1           lvm2 ---  <50.00g <50.00g[root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]# pvdisplay  --- Physical volume ---  PV Name               /dev/vdb1  VG Name               vgdocker  PV Size               <50.00 GiB / not usable 3.00 MiB  Allocatable           yes  PE Size               4.00 MiB  Total PE              12799  Free PE               12799  Allocated PE          0  PV UUID               oMzorH-1mfB-0VEy-eZDB-HHU3-UM9C-0EoPTU

  "/dev/vdc1" is a new physical volume of "<50.00 GiB"  --- NEW Physical volume ---  PV Name               /dev/vdc1  VG Name  PV Size               <50.00 GiB  Allocatable           NO  PE Size               0  Total PE              0  Free PE               0  Allocated PE          0  PV UUID               nzkwWq-h4KK-2g64-aAqT-3Ugz-qvrj-bq4GR3

[root@runsdata-test-0004 ~]#

创建卷组，用于管理PV以及LV

vg系列命令

[root@runsdata-test-0004 ~]# vgvgcfgbackup    vgconvert      vgextend       vgmknodes      vgsvgcfgrestore   vgcreate       vgimport       vgreduce       vgscanvgchange       vgdisplay      vgimportclone  vgremove       vgsplitvgck           vgexport       vgmerge        vgrename[root@runsdata-test-0004 ~]# vg

创建卷组`VG`，名字可以随意起

这个卷组我是专门给docker以及data存储数据使用的，那么就命名为vgdata。下面就创建一个vgdata的卷组，然后使用vgs以及vgdisplay查看一下创建后的信息。

[root@runsdata-test-0004 ~]# vgcreate vgdocker /dev/vdb1  ## 测试创建一下  Volume group "vgdocker" successfully created[root@runsdata-test-0004 ~]#[root@runsdata-test-0004 ~]# vgremove vgdocker   ## 删除之前创建的  Volume group "vgdocker" successfully removed

## 将前面的两个PV创建到vgdata的逻辑组中。[root@runsdata-test-0004 ~]# vgcreate vgdata /dev/vdc1 /dev/vdb1  Volume group "vgdata" successfully created[root@runsdata-test-0004 ~]#

## 查看vg的信息[root@runsdata-test-0004 ~]# vgs  VG     #PV #LV #SN Attr   VSize  VFree  vgdata   2   0   0 wz--n- 99.99g 99.99g[root@runsdata-test-0004 ~]#

## 查看vg的详细信息[root@runsdata-test-0004 ~]# vgdisplay  --- Volume group ---  VG Name               vgdata  System ID  Format                lvm2  Metadata Areas        2  Metadata Sequence No  1  VG Access             read/write  VG Status             resizable  MAX LV                0  Cur LV                0  Open LV               0  Max PV                0  Cur PV                2  Act PV                2  VG Size               99.99 GiB  PE Size               4.00 MiB  Total PE              25598  Alloc PE / Size       0 / 0  Free  PE / Size       25598 / 99.99 GiB  VG UUID               52PHwY-0a16-1yPo-EYNE-YUv0-4LJx-CWZsZS

[root@runsdata-test-0004 ~]#

创建好了卷组之后，下面就要创建逻辑卷了。

创建逻辑卷`LV`

首先查看一下lvcreate的相关命令参数

[root@runsdata-test-0004 ~]#  lvcreate --help  lvcreate - Create a logical volume

现在我打算给docker使用的逻辑卷使用50G左右，data目录使用逻辑卷50G左右。那么就需要创建两个50G大小的逻辑卷。

## 创建大小50G名称docker的lv ，-L 指定大小，-n指定名称[root@runsdata-test-0004 ~]# lvcreate -L 50G -n docker vgdata  Logical volume "docker" created.[root@runsdata-test-0004 ~]### 再创建一个50G的data逻辑卷报错，提示空间不足了，因为逻辑组只有 < 99G 的大小[root@runsdata-test-0004 ~]# lvcreate -L 50G -n data vgdata  Volume group "vgdata" has insufficient free space (12798 extents): 12800 required.[root@runsdata-test-0004 ~]### 那么就创建一个49G的data逻辑卷LV[root@runsdata-test-0004 ~]# lvcreate -L 49G -n data vgdata  Logical volume "data" created.[root@runsdata-test-0004 ~]#

查看逻辑卷LV的信息

[root@runsdata-test-0004 ~]# lvdisplay  --- Logical volume ---  LV Path                /dev/vgdata/docker  LV Name                docker  VG Name                vgdata  LV UUID                XWcgud-iAYP-j2Mo-x8kq-SjQ2-edP2-Usa4RZ  LV Write Access        read/write  LV Creation host, time runsdata-test-0004, 2018-12-10 13:57:01 +0800  LV Status              available  # open                 0  LV Size                50.00 GiB  Current LE             12800  Segments               2  Allocation             inherit  Read ahead sectors     auto  - currently set to     8192  Block device           252:0

  --- Logical volume ---  LV Path                /dev/vgdata/data  LV Name                data  VG Name                vgdata  LV UUID                HVfQpR-Zs81-RFiZ-rAFC-lBMk-bMhe-MTB1zl  LV Write Access        read/write  LV Creation host, time runsdata-test-0004, 2018-12-10 13:58:36 +0800  LV Status              available  # open                 0  LV Size                49.00 GiB  Current LE             12544  Segments               1  Allocation             inherit  Read ahead sectors     auto  - currently set to     8192  Block device           252:1

[root@runsdata-test-0004 ~]#

那么这时候已经有docker、data两个逻辑卷了，下面就是进行格式化，目录的挂载了。

逻辑卷格式化

执行lvdisplay查看逻辑卷信息，获取逻辑卷LV的Path
对逻辑卷进行格式化mkfs.ext4 /dev/vgdata/docker

## 查看lv的详细信息[root@runsdata-test-0004 ~]# lvdisplay  --- Logical volume ---  LV Path                /dev/vgdata/docker  LV Name                docker  VG Name                vgdata  LV UUID                XWcgud-iAYP-j2Mo-x8kq-SjQ2-edP2-Usa4RZ  LV Write Access        read/write  LV Creation host, time runsdata-test-0004, 2018-12-10 13:57:01 +0800  LV Status              available  # open                 0  LV Size                50.00 GiB  Current LE             12800  Segments               2  Allocation             inherit  Read ahead sectors     auto  - currently set to     8192  Block device           252:0

  --- Logical volume ---  LV Path                /dev/vgdata/data  LV Name                data  VG Name                vgdata  LV UUID                HVfQpR-Zs81-RFiZ-rAFC-lBMk-bMhe-MTB1zl  LV Write Access        read/write  LV Creation host, time runsdata-test-0004, 2018-12-10 13:58:36 +0800  LV Status              available  # open                 0  LV Size                49.00 GiB  Current LE             12544  Segments               1  Allocation             inherit  Read ahead sectors     auto  - currently set to     8192  Block device           252:1

## 对逻辑卷进行ext4格式化[root@runsdata-test-0004 ~]# mkfs.ext4 /dev/vgdata/dockermke2fs 1.42.9 (28-Dec-2013)Filesystem label=OS type: LinuxBlock size=4096 (log=2)Fragment size=4096 (log=2)Stride=0 blocks, Stripe width=0 blocks3276800 inodes, 13107200 blocks655360 blocks (5.00%) reserved for the super userFirst data block=0Maximum filesystem blocks=2162163712400 block groups32768 blocks per group, 32768 fragments per group8192 inodes per groupSuperblock backups stored on blocks:  32768, 98304, 163840, 229376, 294912, 819200, 884736, 1605632, 2654208,   4096000, 7962624, 11239424

Allocating group tables: doneWriting inode tables: doneCreating journal (32768 blocks): doneWriting superblocks and filesystem accounting information: done

## 对逻辑卷进行ext4格式化[root@runsdata-test-0004 ~]# mkfs.ext4 /dev/vgdata/datamke2fs 1.42.9 (28-Dec-2013)Filesystem label=OS type: LinuxBlock size=4096 (log=2)Fragment size=4096 (log=2)Stride=0 blocks, Stripe width=0 blocks3211264 inodes, 12845056 blocks642252 blocks (5.00%) reserved for the super userFirst data block=0Maximum filesystem blocks=2162163712392 block groups32768 blocks per group, 32768 fragments per group8192 inodes per groupSuperblock backups stored on blocks:   32768, 98304, 163840, 229376, 294912, 819200, 884736, 1605632, 2654208,   4096000, 7962624, 11239424

Allocating group tables: doneWriting inode tables: doneCreating journal (32768 blocks): doneWriting superblocks and filesystem accounting information: done

[root@runsdata-test-0004 ~]#

挂载文件目录

[root@runsdata-test-0004 ~]# cd /[root@runsdata-test-0004 /]# lsbin   dev  home  lib64       media  opt   root  sbin  sys  usrboot  etc  lib   lost+found  mnt    proc  run   srv   tmp  var[root@runsdata-test-0004 /]# mkdir docker[root@runsdata-test-0004 /]#[root@runsdata-test-0004 /]# mount /dev/vgdata/docker docker[root@runsdata-test-0004 /]#[root@runsdata-test-0004 /]# mkdir data[root@runsdata-test-0004 /]#[root@runsdata-test-0004 /]# mount /dev/vgdata/data data[root@runsdata-test-0004 /]#[root@runsdata-test-0004 /]# df -hFilesystem                 Size  Used Avail Use% Mounted on/dev/vda1                   40G  1.5G   36G   4% /devtmpfs                   7.8G     0  7.8G   0% /devtmpfs                      7.8G     0  7.8G   0% /dev/shmtmpfs                      7.8G  352K  7.8G   1% /runtmpfs                      7.8G     0  7.8G   0% /sys/fs/cgrouptmpfs                      1.6G     0  1.6G   0% /run/user/0/dev/mapper/vgdata-docker   50G   53M   47G   1% /docker/dev/mapper/vgdata-data     49G   53M   46G   1% /data[root@runsdata-test-0004 /]#

可以看到 /docker 和 /data 目录已经使用上了。

测试写入文件看看。

[root@runsdata-test-0004 /]# cd /docker/[root@runsdata-test-0004 docker]# pwd/docker[root@runsdata-test-0004 docker]# lslost+found[root@runsdata-test-0004 docker]#[root@runsdata-test-0004 docker]# echo 123 > 1.txt[root@runsdata-test-0004 docker]# ls1.txt  lost+found[root@runsdata-test-0004 docker]# cat 1.txt123[root@runsdata-test-0004 docker]#

好了，写到这里基本上已经可以了，但是如果服务器重启的话，是无法自动挂载上/docker和/data目录的。

下面来设置一下磁盘开机的自动挂载。

设置磁盘开机自动挂载，配置/etc/fstab文件

需要让系统开机自动挂载，需要将挂载信息写入到/etc/fstab文件中。

[root@runsdata-test-0004 docker]# vim /etc/fstab

## /etc/fstab# Created by anaconda on Sun Oct 15 15:19:00 2017## Accessible filesystems, by reference, are maintained under '/dev/disk'# See man pages fstab(5), findfs(8), mount(8) and/or blkid(8) for more info#UUID=eb448ab..省略...6a31 /                       ext4    defaults        1 1/dev/mapper/vgdata-docker /docker ext4    defaults        1 1/dev/mapper/vgdata-data   /data   ext4    defaults        1 1

然后进行重启reboot测试一下。

LVM管理的好处就是灵活得扩容、管理磁盘，后续可以再写一个扩容磁盘的篇章。

参考文献

CentOS 7.2 添加磁盘并创建新区^[1]

CentOS7下LVM的简单创建^[2]

LVM基础详细说明及动态扩容lvm逻辑卷的操作记录^[3]

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参考资料

[1]

CentOS 7.2 添加磁盘并创建新区: https://blog.csdn.net/rznice/article/details/51984831

[2]

CentOS7下LVM的简单创建: https://www.linuxidc.com/Linux/2017-06/144428.htm

[3]

LVM基础详细说明及动态扩容lvm逻辑卷的操作记录: https://www.cnblogs.com/kevingrace/p/5845634.html