How to Increase the size of a Linux LVM by expanding the virtual machine disk
How to Increase the size of a Linux LVM by expanding the virtual machine disk
This post will cover how to increase the disk space for a VMware
virtual machine running Linux that is using logical volume manager
(LVM). Firstly we will be increasing the size of the actual disk on the
VMware virtual machine, so at the hardware level – this is the VM’s
.vmdk file. Once this is complete we will get into the virtual machine
and make the necessary changes through the operating system in order to
take advantage of the additional space that has been provided by the
hard drive being extended. This will involve creating a new partition
with the new space, expanding the volume group and logical group, then
finally resizing the file system.
As there are a number of different ways to increase disk space I have also posted some different methods here:
Prerequisites: As this method uses the additional space to create a primary partition, you must not already have 4 partitions as you will not be able to create more than 4. If you do not have space for another partition then you will need to consider a different method, there are some others in the above list.
Throughout my examples I will be working with a VMware virtual machine running Debian 6, this was set up with a 20gb disk and we will be increasing it by 10gb for a total final size of 30gb.
As you can see in the above image /dev/sda5 is listed as “Linux LVM” and it has the ID of 8e. The 8e hex code shows that it is a Linux LVM, while 83 shows a Linux native partition. Now that we have confirmed we are working with an LVM we can continue. For increasing the size of a Linux native partition (hex code 83) see this article.
Below is the disk information showing that our initial setup only has the one 20gb disk currently, which is under the logical volume named /dev/mapper/Mega-root – this is what we will be expanding with the new disk.
Note that /dev/mapper/Mega-root is the volume made up from /dev/sda5 currently – this is what we will be expanding.
If you are not able to modify the size of the disk, the provisioned size setting is greyed out. This can happen if the virtual machine has a snapshot in place, these will need to be removed prior to making the changes to the disk. Alternatively you may need to shut down the virtual machine if it does not allow you to add or increase disks on the fly, if this is the case make the change then power it back on.
Before we can do this we need to check that the new unallocated disk space is detected by the server, you can use “fdisk -l” to list the primary disk. You will most likely see that the disk space is still showing as the same original size, at this point you can either reboot the server and it will detect the changes on boot or you can rescan your devices to avoid rebooting by running the below command. Note you may need to change host0 depending on your setup.
‘n’ was selected for adding a new partition.
That’s all for partitioning, we now have a new partition which is making use of the previously unallocated disk space from the increase in VMware.
Firstly confirm the name of the logical volume using lvdisplay. This name will vary depending on your setup.
found at: http://www.rootusers.com/how-to-increase-the-size-of-a-linux-lvm-by-expanding-the-virtual-machine-disk/
As there are a number of different ways to increase disk space I have also posted some different methods here:
- Use GParted to increase disk size of a Linux native partition – In this article the virtual disk is expanded, however there is no LVM here just a Linux native partition that is expanded with the GParted live CD.
- How to Increase the size of a Linux LVM by adding a new disk – In this article a new virtual disk is added to the virtual machine, a new partition is created, the volume group and logical volume are both expanded and then the filesystem is resized.
Prerequisites: As this method uses the additional space to create a primary partition, you must not already have 4 partitions as you will not be able to create more than 4. If you do not have space for another partition then you will need to consider a different method, there are some others in the above list.
Throughout my examples I will be working with a VMware virtual machine running Debian 6, this was set up with a 20gb disk and we will be increasing it by 10gb for a total final size of 30gb.
Identifying the partition type
As this method focuses on working with LVM, we will first confirm that our partition type is actually Linux LVM by running the below command.fdisk -l
As you can see in the above image /dev/sda5 is listed as “Linux LVM” and it has the ID of 8e. The 8e hex code shows that it is a Linux LVM, while 83 shows a Linux native partition. Now that we have confirmed we are working with an LVM we can continue. For increasing the size of a Linux native partition (hex code 83) see this article.
Below is the disk information showing that our initial setup only has the one 20gb disk currently, which is under the logical volume named /dev/mapper/Mega-root – this is what we will be expanding with the new disk.
Note that /dev/mapper/Mega-root is the volume made up from /dev/sda5 currently – this is what we will be expanding.
Increasing the virtual hard disk
First off we increase the allocated disk space on the virtual machine itself. This is done by right clicking the virtual machine in vSphere, selecting edit settings, and then selecting the hard disk. In the below image I have changed the previously set hard disk of 20gb to 30gb while the virtual machine is up and running. Once complete click OK, this is all that needs to be done in VMware for this process.If you are not able to modify the size of the disk, the provisioned size setting is greyed out. This can happen if the virtual machine has a snapshot in place, these will need to be removed prior to making the changes to the disk. Alternatively you may need to shut down the virtual machine if it does not allow you to add or increase disks on the fly, if this is the case make the change then power it back on.
Detect the new disk space
Once the physical disk has been increased at the hardware level, we need to get into the operating system and create a new partition that makes use of this space to proceed.Before we can do this we need to check that the new unallocated disk space is detected by the server, you can use “fdisk -l” to list the primary disk. You will most likely see that the disk space is still showing as the same original size, at this point you can either reboot the server and it will detect the changes on boot or you can rescan your devices to avoid rebooting by running the below command. Note you may need to change host0 depending on your setup.
echo "- - -" > /sys/class/scsi_host/host0/scanBelow is an image after performing this and confirming that the new space is displaying.
Partition the new disk space
As outlined in my previous images the disk in my example that I am working with is /dev/sda, so we use fdisk to create a new primary partition to make use of the new expanded disk space. Note that we do not have 4 primary partitions already in place, making this method possible.fdisk /dev/sdaWe are now using fdisk to create a new partition, the inputs I have entered in are shown below in bold. Note that you can press ‘m’ to get a full listing of the fdisk commands.
‘n’ was selected for adding a new partition.
WARNING: DOS-compatible mode is deprecated. It's strongly recommended to switch off the mode (command 'c') and change display units to sectors (command 'u'). Command (m for help): n‘p’ is then selected as we are making a primary partition.
Command action l logical (5 or over) p primary partition (1-4) pAs I already have /dev/sda1 and /dev/sda2 as shown in previous images, I have gone with using ’3′ for this new partition which will be created as /dev/sda3
Partition number (1-4): 3We just press enter twice above as by default the first and last cylinders of the unallocated space should be correct. After this the partition is then ready.
First cylinder (2611-3916, default 2611): "enter" Using default value 2611 Last cylinder, +cylinders or +size{K,M,G} (2611-3916, default 3916): "enter" Using default value 3916‘t’ is selected to change to a partition’s system ID, in this case we change to ’3′ which is the one we just created.
Command (m for help): t Partition number (1-5): 3The hex code ’8e’ was entered as this is the code for a Linux LVM which is what we want this partition to be, as we will be joining it with the original /dev/sda5 Linux LVM.
Hex code (type L to list codes): 8e Changed system type of partition 3 to 8e (Linux LVM)‘w’ is used to write the table to disk and exit, basically all the changes that have been done will be saved and then you will be exited from fdisk.
Command (m for help): w The partition table has been altered! Calling ioctl() to re-read partition table. WARNING: Re-reading the partition table failed with error 16: Device or resource busy. The kernel still uses the old table. The new table will be used at the next reboot or after you run partprobe(8) or kpartx(8) Syncing disks.You will see a warning which basically means in order to use the new table with the changes a system reboot is required. If you can not see the new partition using “fdisk -l” you may be able to run “partprobe -s” to rescan the partitions. In my test I did not require either of those things at this stage (I do a reboot later on), straight after pressing ‘w’ in fdisk I was able to see the new /dev/sda3 partition of my 10gb of space as displayed in the below image.
That’s all for partitioning, we now have a new partition which is making use of the previously unallocated disk space from the increase in VMware.
Increasing the logical volume
We use the pvcreate command which creates a physical volume for later use by the logical volume manager (LVM). In this case the physical volume will be our new /dev/sda3 partition.root@Mega:~# pvcreate /dev/sda3 Device /dev/sda3 not found (or ignored by filtering).In order to get around this I believe a reboot is required, as in this instance the disk does not appear to be there correctly despite showing in “fdisk -l”. After a reboot use the same command which will succeed.
root@Mega:~# pvcreate /dev/sda3 Physical volume "/dev/sda3" successfully createdNext we need to confirm the name of the current volume group using the vgdisplay command. The name will vary depending on your setup, for me it is the name of my test server. vgdisplay provides lots of information on the volume group, I have only shown the name and the current size of it for this example.
root@Mega:~# vgdisplay --- Volume group --- VG Name Mega ... VG Size 19.76 GiBNow we extend the ‘Mega’ volume group by adding in the physical volume of /dev/sda3 which we created using the pvcreate command earlier.
root@Mega:~# vgextend Mega /dev/sda3 Volume group "Mega" successfully extendedUsing the pvscan command we scan all disks for physical volumes, this should confirm the original /dev/sda5 partition and the newly created physical volume /dev/sda3
root@Mega:~# pvscan PV /dev/sda5 VG Mega lvm2 [19.76 GiB / 0 free] PV /dev/sda3 VG Mega lvm2 [10.00 GiB / 10.00 GiB free] Total: 2 [29.75 GiB] / in use: 2 [29.75 GiB] / in no VG: 0 [0 ]Next we need to increase the logical volume (rather than the physical volume) which basically means we will be taking our original logical volume and extending it over our new partition/physical volume of /dev/sda3.
Firstly confirm the name of the logical volume using lvdisplay. This name will vary depending on your setup.
root@Mega:~# lvdisplay --- Logical volume --- LV Name /dev/Mega/rootThe logical volume is then extended using the lvextend command.
root@Mega:~# lvextend /dev/Mega/root /dev/sda3 Extending logical volume root to 28.90 GiB Logical volume root successfully resizedThere is then one final step which is to resize the file system so that it can take advantage of this additional space, this is done using the resize2fs command. Note that this may take some time to complete, it took about 30 seconds for my additional space.
root@Mega:~# resize2fs /dev/Mega/root resize2fs 1.41.12 (17-May-2010) Filesystem at /dev/Mega/root is mounted on /; on-line resizing required old desc_blocks = 2, new_desc_blocks = 2 Performing an on-line resize of /dev/Mega/root to 7576576 (4k) blocks. The filesystem on /dev/Mega/root is now 7576576 blocks long.That’s it, now with the ‘df’ command we can see that the total available disk space has been increased.
Summary
With this method we have increased the virtual disk drive through VMware, created a new partition out of this newly unallocated space within the guest OS, turned it into a physical volume, extended the volume group, and then finally extended the original logical volume over the newer physical volume resulting in overall disk space being increased successfully.found at: http://www.rootusers.com/how-to-increase-the-size-of-a-linux-lvm-by-expanding-the-virtual-machine-disk/
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