Reduce the size of a Linux VM data disk - azure

My Linux VMs each have two disk (OS + Data)
The data disks are currently set to 1024Gb but only contain <15Gb of content
In have two environments (test and production). The production data disk is premium the test data disk is standard.
I want to reduce the size of the production data disk because as I discovered Premium disks are changed on the full size, not just the amount being used as standard disks are.
So before doing this in production, I wanted to try in test. I stop the VM then try to change the size of the disk through the Azure portal but I get an error stating that the new size must be greater than the current - it won't let me reduce the size.
Is that a constraint of premium disks as tell? Is it a constraint of the Azure portal, or can I run CLI/powershell commands that can do this? Or am I forced to create a new disk, copy data, then remove the old disk?

You can't reduce the size of a disk, so you have to attach another disk and copy the content over using robocopy or other method.

Related

Azure will not let me swap to my new smaller OS disk

Good Morning, Fellow Stack Overflow-ers,
I have a Windows 2019 DC Virtual Machine with a 127GiB OS Disk with MS Azure. The WM image is Standard B2s (2 vcpus, 4 GiB memory)
I want to swap this with a smaller 8GiB OS disk - having successfully created this in my portal and labelled useastOS - Azure is failing to allow me to swap from the previous 127GiB disk to the smaller 8GiB Disk. On the "Swap OS Disk" menu illustrated, you will see there is no option to use the useastOS disk.
Puzzling.
This is a managed disk and so there is no reason whatsoever as to why Azure is not giving me the option.
So my question is there any valid reason as to why Azure is not allowing me to swap to the smaller useastOS or is this bug within Azure that I need to make Azure aware of?
When you are creating a Managed Disk like this, there is no SO installed, it is an empty disk, that's why Azure assumes it is a data disk, not a SO disk.
Now, when you upload your VHD disk to blob storage, you can tell Azure that this disk is OS and not a data disk like this.
Looking for upload VHD to Azure blob, here it is an example https://learn.microsoft.com/en-us/azure/virtual-machines/windows/prepare-for-upload-vhd-image.
Your question is how to swap SO disk to a new one smaller, this is what I understood, in case you just want to add a second disk as a data disk, you can go to VM overview, from blade disk, you can add it easily.
Anyway, I hope that I could help in any :)
Just in case, confirm that you selected an operation system when you created this disk useastOS. For example, in my case it is Windows, but disk can be either Windows or Linux, when you don't select anything, Azure assumes it is a data disk, not an operation system.

What are the data disks used for?

I need to know the difference between the SSD disk and the data disk. According to this capture, this virtual machine has a hard disk ssd 16gb, and 4 disks data. But these 4 disks, how much do they have? Are they ssd? what are they for?
enter image description here
data disks can be ssd or not, depending on how you set them up. they are used to store data :)
amount of data disks you can attach depends on the vm sku. you dont always have to attach 4 data disks (or whatever vm supports, you can have 0 - VM SKU maximum data disks).
The 16gb ssd is local ssd (local to the host machine hosting your vm) attached to the VM (not OS disk). its a temporary drive - meaning it can go away when you reboot vm, so content will be lost and you will get a new temporary drive. it can be used to store throw away logs, for example, or temporary files. IO operations on this disk do not count towards IO limit and this drive is completely free (you pay for the VM SKU and it is part of that cost).
you can learn about data disk prices here: https://azure.microsoft.com/en-us/pricing/details/managed-disks/. Storage prices do not take into account os or data disks. they just bill you for storage.
reference:
https://learn.microsoft.com/en-us/azure/virtual-machines/windows/attach-managed-disk-portal
https://learn.microsoft.com/en-us/azure/virtual-machines/windows/attach-disk-ps
It means in addition to the OS disk, you can connect 4 data disks to the VM.
It does not mean there are 4 disks, just that you can add 4 if you want.
You should discuss the VM requirements with your client. Maybe he needs an additional data disk, maybe not.
The capture you posted, specifies that this VM can take up to 4 data disks. The price does not include them. Also, you should check the Azure price calculator to generate more accurate offers.

How to expand detached data disk in Azure RM

This link describes how to expand attached VM OS or data disks in an Azure resource group. I want to know how can I extend a detached data disk so that I could perform this action without restarting the machine. Is that achievable?
https://azure.microsoft.com/en-gb/documentation/articles/virtual-machines-windows-expand-os-disk/
You should be able to use the Get-AzureDisk PowerShell command to obtain a reference to the unattached disk. From there you can call Update-AzureDisk to increase the size of the disk.
Two notes which you may already know; you can't shrink a disk (without recreating it from the underlying blob) once you increase its size and generally you should avoid putting data on an OS disk so if you need more space just add another data disk.

Should I use c: or d: on azure VM?

I have an Azure VM and I can see two drives c: and d:(says temp storage). Both drive allow me to create projects folders and use from Visual Studio. I would like to know which drive I get billed ie which one is the reliable drive which I should be using - Any one having idea?
Thanks
PL
In Azure VMs
C:\ drive comes along with the VM which 127 GB, no more no less. So this is the root volume and OS is also installed here, so might 127 GB - 40 GB so roughly 70 GB free space you can use.
C:\ - Cost : No Additional Cost, comes with compute charges
D:\ Is called the temporary drive, it is not persistent and when you stop and start the machine, this volume would be recycled. This drive operates at very high speed, this is good for temporary file storage etc. You can use this for logging as well, if you need to persist those logs, you can run a background job to push it Azure Blob or stuff etc.
D:\ - Cost : No Additional Cost, comes with compute charges
E:\ F:\ G:\ H:\ ... etc all can be used for all practical purposes. You will essentially attach a blob.
One suggestion what I can provide is you can attach a blank drive directly of 1TB ( for Azure 1023 GB). You will not be billed for the whole 1023 GB but only for volume of data being stored in the drive.
This drive would relatively slower than the C:\ & D:\, for the reasons of latency. It takes relatively longer to write over the wire and then to blob, than directly to the self attached disk. But that is the trade off which you need to choose for the size vs. speed.
E:\ F:\ G:\ H:\ ... - Cost : Additional Cost for storage,
transactions / operation
In a Windows Azure VM any data written to C: will be persisted across shutdowns, any data written to D: will be lost if the machine is shut down (from the management portal). So you should be using C:\ to store your data. Although it is recommended to have a separate disk drive to be attached for any in VM storage like application data etc.
If you need any additional drives on which data should be persisted across shutdowns/de-allocations you can add additional data disks to the Virtual Machine. There is a cap/limit on the number of data disks, which depends on the size of the virtual machine you have created.
You get billed for VM instance and not the temp storage.

How do I increase the size of an Azure CloudDrive?

I have an existing Azure CloudDrive that I want to make bigger. The simplist way I can think of is to creating a new drive and copying everything over. I cannot see anyway to just increase the size of the vhd. Is there a way?
Since an Azure drive is essentially a page blob, you can resize it. You'll find this blog post by Windows Azure Storage team useful regarding that: http://blogs.msdn.com/b/windowsazurestorage/archive/2010/04/11/using-windows-azure-page-blobs-and-how-to-efficiently-upload-and-download-page-blobs.aspx. Please read the section titled "Advanced Functionality – Clearing Pages and Changing Page Blob Size" for sample code.
yes you can,
please i know this program, is ver easy for use, you can connect with you VHD and create new, upload VHD and connect with azure, upload to download files intro VHD http://azuredriveexplorer.codeplex.com/
I have found these methods so far:
“the soft way”: increase the size of the page blob and fix the
VHD data structure (the last 512 bytes).
Theoretically this creates unpartitioned disk space after the
current partition. But if the partition table also expects
metadata at the end of the disk (GPT? or Dynamic disks), that
should be fixed as well.
I'm aware of only one tool
that can do this in-place modification. Unfortunately this tool is
not much more than a one-weekend hack (at the time of this writing)
and thus it is fragile. (See the disclaimer of the author.) But fast.
Please notify me (or edit this post) if this tool gets improved significantly.
create a larger disk and copy everything over, as you've suggested.
This may be enough if you don't need to preserve NTFS features like
junctions, soft/hard links etc.
plan for the potential expansion and start with a huge (say 1TB) dynamic VHD,
comprised of a small partition and lots of unpartitioned (reserved) space.
Windows Disk Manager will see the unpartitioned space in the VHD, and can expand the
partition to it whenever you want -- an in-place operation. The subtle point is
that the unpartitioned area, as long as unparitioned, won't be billed, because
isn't written to. (Note that either formatting or defragmenting does allocate
the area and causes billing.)
However it'll count against the quota of your Azure Subscription (100TB).
“the hard way”: download the VHD file, use a VHD-resizer program to insert unpartitioned disk space, mount the
VHD locally, extend the partition to the unpartitioned space, unmount,
upload.
This preserves everything, even works for an OS partition, but is very
slow due to the download/upload and software installations involved.
same as above but performed on a secondary VM in Azure. This speeds up
downloading/uploading a lot. Step-by-step instructions are available here.
Unfortunately all these techniques require unmounting the drive for quite a lot of time, i.e. cannot be performed in high-available manner.

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