Difference between revisions of "Adding a second hard drive to your HDA"

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<div style="border: 1px solid #A3B1BF; padding: .8em 1em; background-color: #E6F2FF; margin: 0px 1em;">
 
<div style="border: 1px solid #A3B1BF; padding: .8em 1em; background-color: #E6F2FF; margin: 0px 1em;">
  
'''NOTE:'''  In the future, Amahi [https://www.amahi.org/apps/disk-wizard Disk Wizard] application (in ''Development'') will provide this capability from the Dashboard.
+
'''NOTE:'''  The Amahi [https://www.amahi.org/apps/disk-wizard Disk Wizard] application (Amahi 8 or greater '''ONLY''') provides this capability from the Dashboard UI.
  
 
</div>
 
</div>
 
<br />
 
<br />
 
The purpose of this tutorial is to make partitioning, formatting, and mounting hard drives in the Amahi server simple for those new to Linux.  
 
The purpose of this tutorial is to make partitioning, formatting, and mounting hard drives in the Amahi server simple for those new to Linux.  
 
The scenario is to have an HDA with a single hard drive, but want to connect additional hard drive(s) for increased storage.  Examples provided are for adding a single hard drive.
 
  
 
In order to keep this process simple, it's important '''NOT''' to connect additional hard drive(s) until the end of the [[Adding_a_second_hard_drive_to_your_HDA#Preparation|Preparation]] step.   
 
In order to keep this process simple, it's important '''NOT''' to connect additional hard drive(s) until the end of the [[Adding_a_second_hard_drive_to_your_HDA#Preparation|Preparation]] step.   
  
 
=Disclaimer=
 
=Disclaimer=
 +
* [https://www.amahi.org Amahi] cannot be held responsible for any data breakage or destruction arising from the use or misuse of this script. We provide it as a service in good will. You accept this automatically if you use the script.
 +
 +
* [http://en.wikipedia.org/wiki/GUID_Partition_Table GUID-partitioned] hard drives (such as those previously used in a Mac or have GPT partition tables) are not supported in this tutorial.
  
* [https://www.amahi.org Amahi] cannot be held responsible for any data breakage or destruction arising from the use or misuse of this script. We provide it as a service in good will. You accept this automatically if you use the script.
+
* [http://en.wikipedia.org/wiki/GNU_nano nano] is used as the command-line text editor (refer to [https://linuxize.com/post/how-to-use-nano-text-editor/ how to install/use the nano editor] as needed).
* GUID-partitioned drives (such as drives previously in a Mac or have GPT partition tables) are not supported in this tutorial.
 
* ''nano'' is used as the command-line text editor (refer to [http://www.howtogeek.com/howto/42980/the-beginners-guide-to-nano-the-linux-command-line-text-editor/ beginners guide to nano] as needed).
 
  
 
=Prerequisites=
 
=Prerequisites=
Line 27: Line 26:
 
Fedora
 
Fedora
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px; text-align: left">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px; text-align: left">
  yum -y install pmount fuse fuse-libs ntfs-3g util-linux-ng parted nano
+
  dnf -y install pmount fuse fuse-libs ntfs-3g util-linux-ng parted nano
 
</div>
 
</div>
 +
 +
:'''NOTE:'''  <code>yum</code> (deprecated) has been replaced with <code>dnf</code> as the package manager for Fedora 23 and greater.
 
Ubuntu  
 
Ubuntu  
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px; text-align: left">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px; text-align: left">
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</div>
 
</div>
  
:'''NOTE:'''  Drives must be formatted as '''MBR''' not '''GUID/GPT''' for hda-diskmount to recognize the disk.
+
:'''NOTE:'''  Hard drives must be formatted as '''MBR''' not '''GUID/GPT''' for ''hda-diskmount'' to work correctly.
  
 
=Preparation=
 
=Preparation=
Line 41: Line 42:
 
  ls -l /dev/disk/by-id/ > before.txt
 
  ls -l /dev/disk/by-id/ > before.txt
 
  cat before.txt
 
  cat before.txt
</div><br />
+
</div>
  
 
:EXAMPLE:
 
:EXAMPLE:
Line 56: Line 57:
 
  ls -l /dev/disk/by-id/ > after.txt
 
  ls -l /dev/disk/by-id/ > after.txt
 
  cat after.txt
 
  cat after.txt
</div><br />
+
</div>
  
 
:EXAMPLE:
 
:EXAMPLE:
Line 63: Line 64:
 
  lrwxrwxrwx 1 root root  9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65 -> ../../sdb
 
  lrwxrwxrwx 1 root root  9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65 -> ../../sdb
  
 +
:'''FYI:'''  IDE/SATA hard drives will start with '''ata-''' and USB hard drives will start with '''usb-'''.<br/>
  
'''TIP:'''  IDE/SATA hard drives will start with '''ata-''' and USB hard drives will start with '''usb-'''.<br/>
+
=Partition/Format=
 +
Compare the difference between before.txt and after.txt to determine the new hard drive(s) device name.  This can be done automatically.
  
=Partition/Format=
+
[[Open Terminal as root|In a Terminal, as root]], execute the following:
Compare the difference between before.txt and after.txt to determine the new hard drive(s) device name.  This can be done automatically by executing:
 
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  diff before.txt after.txt
 
  diff before.txt after.txt
</div><br />
+
</div>
  
 
:EXAMPLE:
 
:EXAMPLE:
 
  lrwxrwxrwx 1 root root  9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65 -> ../../sdb
 
  lrwxrwxrwx 1 root root  9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65 -> ../../sdb
  
At this point, partition and format the hard drive(s) if they are new.  For hard drive(s) that contain data to be preserved, skip to the [[Adding_Hard_Drives_101#Mount|Mount]] step.
+
At this point, partition and format the hard drive(s) if they are new.  For hard drive(s) that contain data to be preserved, skip to the [[Adding_a_second_hard_drive_to_your_HDA#Mount|Mount]] step.
  
 
==Command-line (Fedora)==
 
==Command-line (Fedora)==
To partition the hard drive(s), execute the applicable commands (substitute sdX with hard drive device name, such as ''sdb''):
+
To partition the hard drive(s), substitute sdX with hard drive device name, such as ''sdb'':
  
 +
[[Open Terminal as root|In a Terminal, as root]], execute the following:
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  parted /dev/sdX
 
  parted /dev/sdX
</div></blockquote><br />
+
</div></blockquote>
* Up to 2TB, at the ''(parted)'' prompt, enter:
+
Up to 2TB, at the ''(parted)'' prompt, enter:
:# mklabel (answer ''yes'' when prompted)
+
# mklabel msdos (answer ''yes'' if prompted)
:# mkpart primary 0% 100%
+
# mkpart primary 0% 100%
:# quit<br />
+
# quit
* Greater than 2TB, at the ''(parted)'' prompt, enter:
+
<br />
:# mklabel gpt (answer ''yes'' when prompted)
+
Greater than 2TB, at the ''(parted)'' prompt, enter:
:# mkpart primary 0% 100%
+
# mklabel gpt (answer ''yes'' if prompted)
:# quit<br />
+
# mkpart primary 0% 100%
 
+
# quit
 +
<br />
 
Verify the new partition was created:
 
Verify the new partition was created:
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
  ls -l /dev/disk/by-uuid/
+
  ls -l /dev/disk/by-id/
</div><br />
+
</div>
 
:EXAMPLE:
 
:EXAMPLE:
  lrwxrwxrwx 1 root root 10 Dec 29 18:10 1b8597e0-5d95-4474-b093-53099c8c81c9 -> ../../sda1
+
  lrwxrwxrwx 1 root root 9 2010-02-18 03:24  ata-Hitachi_HDS722020ALA330_JK1131YAGDU37V -> ../../sda
  lrwxrwxrwx 1 root root 10 Dec 29 18:10 1c161033-c695-4291-aba1-257d3987edf7 -> ../../dm-0
+
  lrwxrwxrwx 1 root root 10 2010-02-18 03:24 ata-Hitachi_HDS722020ALA330_JK1131YAGDU37V-part1 -> ../../sda1
lrwxrwxrwx 1 root root 10 Dec 29 18:10 b7017251-cb54-438b-92a3-781537c565e6 -> ../../sdb
+
  lrwxrwxrwx 1 root root 9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65 -> ../../sdb
  lrwxrwxrwx 1 root root 10 Dec 29 18:10 c1fe62b3-41dc-4a67-8a6b-09f90b7893ba -> ../../dm-1
+
  <span style="color:#FF0000">'''lrwxrwxrwx 1 root root 9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65-part1 -> ../../sdb1'''</span>
lrwxrwxrwx 1 root root 10 Dec 29 18:10 e0f5a9bd-f52b-431e-89af-61da70659bdd -> ../../dm-2
 
  <span style="color:#FF0000">'''lrwxrwxrwx 1 root root 10 Dec 29 18:10 547b073d-e591-4913-b4fb-7c5084353979 -> ../../sdb1'''</span>
 
  
 
The new partition is named sdX1 (i.e. sdb1 in <span style="color:#FF0000">'''RED'''</span>).
 
The new partition is named sdX1 (i.e. sdb1 in <span style="color:#FF0000">'''RED'''</span>).
Line 109: Line 111:
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  mkfs.ext4 -j /dev/sdX1
 
  mkfs.ext4 -j /dev/sdX1
</div></blockquote><br />
+
</div></blockquote>
  
 
Repeat the [[Adding_a_second_hard_drive_to_your_HDA#Partition/Format|Partition/Format]] step for each hard drive to be partitioned and formatted.
 
Repeat the [[Adding_a_second_hard_drive_to_your_HDA#Partition/Format|Partition/Format]] step for each hard drive to be partitioned and formatted.
  
==[http://gparted.org GParted] (Ubuntu)==
+
==GParted (Ubuntu)==
 
From the HDA desktop (or using VNC), [[Open_Terminal_as_root|In a terminal as root]] and type '''gparted''' to launch the application.
 
From the HDA desktop (or using VNC), [[Open_Terminal_as_root|In a terminal as root]] and type '''gparted''' to launch the application.
  
Line 122: Line 124:
 
* Select Device > Create Partition Table... > Advanced > (Choose 'gpt')
 
* Select Device > Create Partition Table... > Advanced > (Choose 'gpt')
 
* Create partition
 
* Create partition
 +
  
 
:<b>NOTE:</b>  [http://gparted.org GParted] supports GUID-partitioned drives, however, the hda-mount script do not support currently.
 
:<b>NOTE:</b>  [http://gparted.org GParted] supports GUID-partitioned drives, however, the hda-mount script do not support currently.
Line 130: Line 133:
 
Mount the hard drive(s)/partition(s) for use in the HDA.
 
Mount the hard drive(s)/partition(s) for use in the HDA.
  
Execute the following command.  It will create drive1, drive2, etc  and mount the hard drive(s) automatically:
+
:'''NOTE:'''  If you prefer not to use ''hda-diskmount'', refer to [[Adding_a_second_hard_drive_to_your_HDA#hda-diskmount|Troubleshooting ''hda-diskmount]].
 +
 
 +
[[Open Terminal as root|In a Terminal, as root]], execute the following(it will create drive1, drive2, etc  and mount the hard drive(s) automatically):
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  hda-diskmount
 
  hda-diskmount
</div><br />
+
</div>
  
 
:EXAMPLE:
 
:EXAMPLE:
Line 155: Line 160:
 
Host '''ALL''' shares on the new hard drive.
 
Host '''ALL''' shares on the new hard drive.
  
Move all the shares data to the new drive by executing the following command (replace path in '''<span style="color: red;">RED</span>''' with the path from the ''hda-diskmount'' output line in <span style="color:#0000FF">'''BLUE'''</span>):
+
Move all the shares data to the new drive, replacing path in '''<span style="color: red;">RED</span>''' with the path from the ''hda-diskmount'' output line in <span style="color:#0000FF">'''BLUE'''</span>.<br />
 +
 
 +
[[Open Terminal as root|In a Terminal, as root]], execute the following:
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
  mv /var/hda/files/* <strong style="color:red">/var/hda/files/drives/drive1/</strong>
 
  mv /var/hda/files/* <strong style="color:red">/var/hda/files/drives/drive1/</strong>
 
</div>
 
</div>
  
:'''NOTE:'''  There may be a '''WARNING''' indicating ''/var/hda/files/drives cannot be moved to a subdirectory of itself'' which should be ignored.
+
:'''NOTE:'''  There may be a '''WARNING''' that can be ignored indicating ''/var/hda/files/drives cannot be moved to a subdirectory of itself''.
  
 
Unmount the new hard drive:
 
Unmount the new hard drive:
Line 166: Line 173:
 
  umount /var/hda/files/drives/drive1/
 
  umount /var/hda/files/drives/drive1/
 
</div>
 
</div>
Mount the new hard drive permanently as ''/var/hda/files'', using the ''nano'' command line editor:
+
Mount the new hard drive permanently as ''/var/hda/files'' by editing ''/etc/fstab'':
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  nano /etc/fstab
 
  nano /etc/fstab
Line 198: Line 205:
  
 
==Some Shares==
 
==Some Shares==
 +
Host '''SOME''' shares on the new hard drive.
  
If you want only some of your shares to be on your new hard drive, here's how to do that.
+
Move some shares data to the new drive by executing the following command (replace path in '''<span style="color: red;">RED</span>''' with the path from the ''hda-diskmount'' output line in <span style="color:#0000FF">'''BLUE'''</span>; sharename will be the share to move to the new drive).<br />
  
First, you'll want to move your previous shares data, if any, into your new drive.<br/>
+
[[Open Terminal as root|In a Terminal, as root]], execute the following:
You only need to do this next command if you have data that you care about in the /var/hda/files/* folders (that you want on the new drive).<br/>
 
[[Open Terminal as root|In a Terminal, as root]], type the following command. Replace the path in red with the path you received when you ran hda-diskmount. Replace '''something''' with the name of the share you want to have on your new drive (the share should already exist).
 
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
  mv /var/hda/files/<strong>something</strong> <strong style="color:red">/var/hda/files/drives/drive1/</strong>
+
  mv /var/hda/files/<strong>sharename</strong> <strong style="color:red">/var/hda/files/drives/drive1/</strong>
 
</div>
 
</div>
 +
Repeat the process with every share to be moved to the new drive.
  
Repeat with every share you want on your new drive.
+
Unmount the new hard drive:
 
 
Next, you'll need to make the mount permanent
 
 
 
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
  umount /var/hda/files/drives/drive1<br/>
+
  umount /var/hda/files/drives/drive1
nano /etc/fstab
 
 
</div>
 
</div>
  
In nano, you'll need to add a new line at the bottom. Take the line that hda-diskmount gave you, and insert that.<br/>
+
Mount the new hard drive permanently by editing ''/etc/fstab'':  
 
+
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
So, following previous examples, I should add this:
+
  nano /etc/fstab
 
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px; text-align: left;">
 
  <span style="color: blue;">UUID=9d972abc-1639-44df-a60e-668618d40236 /var/hda/files/drives/drive1 ext4 defaults 1 2</span>
 
 
</div>
 
</div>
 +
Add the line to ''/etc/fstab'' provided in the ''hda-diskmount'' output in '''<span style="color: blue;">BLUE</span>'''.
 +
:EXAMPLE /etc/fstab:
 +
#
 +
# /etc/fstab
 +
# Created by anaconda on Sat Nov  9 01:46:39 2013
 +
#
 +
# 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=1ebbf241-528c-465e-889f-acc15400dd8c /                      ext4    defaults        1 1
 +
UUID=087b15a5-c3ca-4615-b6ee-bf5f399a803e /boot                  ext4    defaults        1 2
 +
UUID=75346b8e-b162-458c-b0e9-a8d48ec2bc82 swap                    swap    defaults        0 0
 +
UUID=ad85eeb9-18f0-4b85-9bfa-b88a5d1489b3 swap                    swap    defaults        0 0
 +
<span style="color:#0000FF">'''UUID=547b073d-e591-4913-b4fb-7c5084353979 /var/hda/files/drives/drive1 ext4 defaults 1 2'''</span>
 +
Verify the hard drive(s)/partition(s) configuration is correct in ''/etc/fstab''.
  
Save and exit nano (CTRL-X, Y, ENTER), and try your new mount:
+
Next, execute the following:
 
 
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
  mount -a
 
  mount -a
 
  ls /var/hda/files/drives/drive1
 
  ls /var/hda/files/drives/drive1
 
</div>
 
</div>
 +
The last command will display contents of the new hard drive.  All shares are now located on the new hard drive.
  
That last command should show you the content of you new hard drive.
+
'''<u>HDA Dashboard Update</u><br />'''
 +
The location of each share that was moved to the new hard drive will need updated.  Select ''Setup'' followed by the ''Shares'' section. Expand each share that was  moved individually and change the location (path) accordingly.  
  
Now, you need to update the location of the moved shares within Amahi. Go to your <strong>Amahi Dashboard</strong>, click on <strong>Setup</strong>, then <strong>Shares</strong>.  
+
For example, the original movies location was <span style="color:red">/var/hda/files/movies</span> but the new location might be <span style="color:blue">/var/hda/files/drives/drive1/movies</span>.
  
Click on one of the shares that you have moved. This will open a panel revealing the share settings. Click on the location (the bit that is shown with a dotted underline) and it will change to an edit box. Update the location to match the new share location.  
+
Repeat for any other shares that you have moved to the new hard drive. Verify these shares are accessible from another machine within your network.
  
For example, the original movies location was: <span style="color:red">/var/hda/files/movies</span><br/>
+
'''NOTE:'''  If any services depend on the location of a moved share, ensure they are configured to use the new share location. For example, if [https://www.amahi.org/apps/dlna DLNA] is  installed, check the configuration file to verify it can find the new share location. Secondly, validate that that all such services start correctly and behave as expected. If the service doesn't start, it may be that it's looking for a specific share location during the service start up.
The new location might be: <span style="color:blue">/var/hda/files/drives/drive1/movies</span>
 
 
 
Repeat for any other shares that you have moved. Check that you can access these shares from another machine within your network.
 
 
 
Finally, if you have any services that depend on the location of these shares, make sure they are configured to use the new share location. For example, if you have a DLNA server installed, check its configuration files to make sure that it can find any media folders that have been moved. Secondly, <em>check that all such services start correctly and behave as expected</em>. If the service doesn't start, it may be that it is testing for a specific location during the service startup. Check the startup files in <strong>/etc/init.d</strong> to see if this is the case.
 
 
 
That's it. Your share(s) are now on your new hard drive.
 
  
 
==Greyhole Storage Pool==
 
==Greyhole Storage Pool==
USe new hard drive for Greyhole Storage Pool.
+
Use new hard drive for [[Storage_pooling|Greyhole Storage Pool]].
  
[[Open Terminal as root|In a Terminal, as root]], edit ''/etc/fstab'':
+
[[Open Terminal as root|In a Terminal, as root]], mount the new hard drive permanently  by editing ''/etc/fstab'':
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  nano /etc/fstab
 
  nano /etc/fstab
</div><br />
+
</div>
Add the line to ''/etc/fstab'' provided in the ''hda-diskmount'' output in '''<span style="color: blue;">BLUE</span>'''
+
Add the line to ''/etc/fstab'' provided in the ''hda-diskmount'' output in '''<span style="color: blue;">BLUE</span>'''.
 
:EXAMPLE /etc/fstab:
 
:EXAMPLE /etc/fstab:
 
  #
 
  #
Line 273: Line 282:
  
 
=Verify/Test=
 
=Verify/Test=
Verify the hard drive/partition is mounted:
+
Verify the hard drive/partition is mounted.
 +
 
 +
[[Open Terminal as root|In a Terminal, as root]], execute the following:
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  df -h
 
  df -h
</div><br />
+
</div>
  
 
:EXAMPLE:
 
:EXAMPLE:
Line 294: Line 305:
 
=Tips=
 
=Tips=
 
==Mount Order==
 
==Mount Order==
The following will outline how to manually order your disks and mount drives automatically on boot.
+
The following guide will outline how to manually order hard drives and mount them automatically on boot.
  
1.  First, get the UUID for each drive by opening a terminal and entering command
+
[[Open Terminal as root|In a Terminal, as root]], executing the following command to obtain the UUID for each hard drive:
 +
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 +
blkid
 +
</div>
 +
:EXAMPLE:
 +
/dev/sda1: LABEL="Seagate-Alpha2TB" UUID="55d9333f-d801-425a-b2af-d65c5966d56f" TYPE="ext4"
 +
/dev/sdb1: LABEL="Seagate-Beta2TB" UUID="5bd5498f-30c1-4780-948e-ca46656507d2" TYPE="ext4"
 +
/dev/sdc1: LABEL="WD-Charlie2TB" UUID="a7337504-376a-4d36-9f7a-1a24c0f55fbd" TYPE="ext4"
 +
/dev/sdd1: LABEL="WD-Delta2TB" UUID="8d881dcb-8de3-4621-b9bd-00025196868a" TYPE="ext4"
 +
/dev/sde1: LABEL="root" UUID="4d6f8004-d190-4234-a03b-b68de988abf0" TYPE="ext4"
 +
/dev/sde3: LABEL="home" UUID="d0531fa1-9311-4d53-b838-f35898adbd98" TYPE="ext4"
 +
/dev/sde5: LABEL="swap" UUID="3c39206c-ba60-47ff-a1fe-f5821b2ab543" TYPE="swap"
  
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;"><pre>
+
In this case, there are four data drives (sda1, sdb1, sdc1, sdd1) and the Operating system assigned to a fifth drive, sde.
gstreet@gstreet-MicroServer:~$ sudo blkid
 
[sudo] password for gstreet:
 
/dev/sda1: LABEL="Seagate-Alpha2TB" UUID="55d9333f-d801-425a-b2af-d65c5966d56f" TYPE="ext4"
 
/dev/sdb1: LABEL="Seagate-Beta2TB" UUID="5bd5498f-30c1-4780-948e-ca46656507d2" TYPE="ext4"
 
/dev/sdc1: LABEL="WD-Charlie2TB" UUID="a7337504-376a-4d36-9f7a-1a24c0f55fbd" TYPE="ext4"
 
/dev/sdd1: LABEL="WD-Delta2TB" UUID="8d881dcb-8de3-4621-b9bd-00025196868a" TYPE="ext4"
 
/dev/sde1: LABEL="root" UUID="4d6f8004-d190-4234-a03b-b68de988abf0" TYPE="ext4"
 
/dev/sde3: LABEL="home" UUID="d0531fa1-9311-4d53-b838-f35898adbd98" TYPE="ext4"
 
/dev/sde5: LABEL="swap" UUID="3c39206c-ba60-47ff-a1fe-f5821b2ab543" TYPE="swap"
 
</pre></div>
 
  
In this case, the user has four data drives (sda1, sdb1, sdc1, sdd1) and the Operating system assigned to a fifth drive, sde.
+
Take note of the UUID's for each drive.  Easiest to cut and paste UUID's straight from the terminal.
 
 
Take note of the UUID's for each drive.  Easiest to cut and paste UUID's straight from the terminal - no typo's!
 
 
 
2. Then edit /etc/fstab to mount each drive - for novices, easiest to do this using a graphical editor.  You might consider first making a copy called fstab.bak (use the "save as" command, close file and then gedit the original fstab again) so that you can recover the original fstab file if you make mistakes.
 
  
 +
Edit ''/etc/fstab'' to mount each drive:
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
  sudo nano /etc/fstab
+
  nano /etc/fstab
 
</div>
 
</div>
 +
Then '''very carefully''' add the following line for each disk into the end of the fstab file.  Ensure correct UUID, hard drive number and hard drive file system (ext4 in this case) are added.
  
3.  Then '''very carefully''' add the following line for each disk into the end of the fstab file.  Make sure you paste in the right UUID, drive number and drive file system (ext4 in this case).
+
:EXAMPLE:
 
+
UUID=55d9333f-d801-425a-b2af-d65c5966d56f /var/hda/files/drives/drive1 ext4 defaults 1 2
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
UUID=55d9333f-d801-425a-b2af-d65c5966d56f /var/hda/files/drives/drive1 ext4 defaults 1 2
 
</div>
 
  
It should look something like the following when lines are added for each of the five drives in this example.    Note lines beginning with # are comments  where the remainder of the line is ignored)
+
It should look something like the following when lines are added for each of the five drives in this example.     
  
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
+
:EXAMPLE:
 
  #  Mounting Greyhole Drives for Drive Pool.   
 
  #  Mounting Greyhole Drives for Drive Pool.   
 
  #
 
  #
Line 347: Line 354:
 
  #
 
  #
 
  #
 
  #
</div>
 
  
Save the file and quit the editor. To see if that will work at boot time, try with:
+
:'''NOTE:'''  Lines beginning with # are comments  where the remainder of the line is ignored
 +
 
 +
Verify there are no issues by executing the following:
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
  mount -a
 
  mount -a
 
</div>
 
</div>
 +
If there are errors,most likely a line was not added properly.  If this is not corrected, the machine may not boot and hang trying to mount the hard drives!
  
If that gives you errors, there is a good chance that this line was not added properly and your machine may not reboot and get stuck mounting the drives!
+
Once there are no errors, reboot machine:
 +
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 +
reboot
 +
</div>
 +
Verify the hard drives have successfully mounted in the '''HDA Dashboard'''.
  
Note that the hda-diskmount command had already added lines to mount my OS drive which had two partitions (root or /, and home).  Save file and close.
+
If all drives mounted successfully, it should look something like this (Ubuntu):
 
 
4. Save file and reboot machine.
 
 
 
5. Check that drives have successfully mounted in Amahi hda (Setup - Shares - Storage Pool)
 
 
 
In this case, if all drives mounted successfully, it should look like (Ubuntu):
 
  
 +
:EXAMPLE:
 
[[File:Gstreet_greyhole_pool.png|options|caption]]
 
[[File:Gstreet_greyhole_pool.png|options|caption]]
  
Line 371: Line 379:
 
:'''NOTE:''' This can take a ''long'' time to complete! Recommend starting it in the evening so it will be completed the next day.
 
:'''NOTE:''' This can take a ''long'' time to complete! Recommend starting it in the evening so it will be completed the next day.
  
[[Open Terminal as root|In a Terminal, as root]], type the following command. Replace <strong style="color:green">sdb1</strong> with the (green) value you received from hda-diskmount.
+
[[Open Terminal as root|In a Terminal, as root]], execute following command (replace '''sdb1''' with the (<strong style="color:blue">BLUE</strong>) value you received from ''hda-diskmount''):
 
 
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
 
<div style="border: 1px solid #A3B1BF; padding: .5em 1em; color: #000; background-color: #E6F2FF; margin: 3px 3px 1em 3px;">
e2fsck -cn /dev/<strong style="color:green">sdb1</strong>
+
e2fsck -cn /dev/'''sdb1'''
 
</div>
 
</div>
 +
You'll receive a message stating '''WARNING!!!'''  ''Running e2fsck on a mounted filesystem may cause SEVERE filesystem damage. Do you really want to continue (y/n)?''<br/>
 +
 +
Answer ''yes''. The <code>-cn</code> option we're using can safely be used on mounted file systems.
 +
==Spin Down Hard Drives==
 +
 +
Low power is a good thing to have in servers. If you do not use your server very often, you may want to force the hard drives to spin down faster than the default. Here is how.
 +
 +
First ensure ''hdparm'' package is installed:
 +
sudo dnf install hdparm
  
You'll receive a warning that says "WARNING!!!  Running e2fsck on a mounted filesystem may cause SEVERE filesystem damage. Do you really want to continue (y/n)?"<br/>
+
To force to spin down after 10 minutes of being idle, add these lines to <code>/etc/rc.local</code>:
Answer ''yes''. The -cn option we're using can safely be used on mounted filesystems.
+
<pre>
 +
# power drives down after 10 minutes idle
 +
/sbin/hdparm -S120 /dev/sda
 +
/sbin/hdparm -S120 /dev/sdb
 +
...
 +
</pre>
 +
 
 +
Most drives will power down on their own without doing this.
 +
 
 +
Once stopped, the drive may take as long as 30 seconds to respond to a subsequent disk access, though most drives are much quicker.  The encoding of the -S timeout value is somewhat peculiar.  A value of zero means "timeouts are disabled": the device will not automatically enter standby mode.  Values from 1 to 240 specify multiples of 5 seconds, yielding  timeouts  from 5 seconds to 20 minutes.  Values from 241 to 251 specify from 1 to 11 units of 30 minutes, yielding timeouts from 30 minutes to 5.5 hours.  A value of 252 signifies a timeout of 21 minutes. A value of 253 sets a vendor-defined timeout period between 8 and 12 hours, and the value 254 is reserved.  255 is interpreted as 21 minutes plus 15 seconds.  Note that some  older  drives  may  have very different interpretations of these values.
 +
 
 +
It may make the system run cooler and power efficient (especially on a Home Server you are rarely using all of the pool drives at the same time).
  
 
=Troubleshooting=
 
=Troubleshooting=
If ''hda-diskmount'' does not mount the hard drive, you can manually do it
+
==hda-diskmount==
 +
If ''hda-diskmount'' does not mount the hard drive or you prefer to do it manually, complete the following steps:
  
Complete the following steps:
+
Create the mount point (choose one '''NOT''' in use) [[Open Terminal as root|in a Terminal, as root]] by executing the following:
 
 
* Create the mount point (choose one '''NOT''' in use)
 
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  mkdir -p /var/hda/files/drives/drive1
 
  mkdir -p /var/hda/files/drives/drive1
</div></blockquote><br />
+
</div></blockquote>
* Identify the hard drive to mount and copy the UUID from the output that corresponds to the hard drive (i.e. sdb)
+
Identify the hard drive to mount and copy the UUID from the output that corresponds to the hard drive (i.e. sdb)
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  ls -l /dev/disk/by-uuid/
 
  ls -l /dev/disk/by-uuid/
</div></blockquote><br />
+
</div></blockquote>
  
 
:EXAMPLE:
 
:EXAMPLE:
Line 403: Line 429:
  
 
:The UUID for sdX1 (i.e. sdb1 is <span style="color:#FF0000">'''RED'''</span>).
 
:The UUID for sdX1 (i.e. sdb1 is <span style="color:#FF0000">'''RED'''</span>).
* Add the following to the end of ''/etc/fstab'', replacing the UUID as captured in the previous step
+
Add the following to the end of ''/etc/fstab'', replacing the UUID as captured in the previous step
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  nano /etc/fstab
 
  nano /etc/fstab
</div></blockquote><br />
+
</div></blockquote>
 
:EXAMPLE:
 
:EXAMPLE:
 
  #
 
  #
Line 423: Line 449:
 
:The new entry will be mounted as ''/var/hda/files/drives/drive1'' (i.e. sdb1 in '''<span style="color:#0000FF">BLUE</span>''')
 
:The new entry will be mounted as ''/var/hda/files/drives/drive1'' (i.e. sdb1 in '''<span style="color:#0000FF">BLUE</span>''')
  
* Mount the hard drive
+
Mount the hard drive
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
<blockquote><div style="border: 1px solid #A3B1BF; padding: .5em 1em; background-color: #E6F2FF; margin:  3px 3px 1em 3px;">
 
  mount -a
 
  mount -a
</div></blockquote><br />
+
</div></blockquote>
 
:If all goes well, there should not be any output. If there are errors, stop and diagnose the problem.
 
:If all goes well, there should not be any output. If there are errors, stop and diagnose the problem.
  
* Accomplish [[Adding_Hard_Drives_101#Verify/Test|Verify/Test]] step to ensure the hard drive is properly mounted.
+
Accomplish [[Adding_Hard_Drives_101#Verify/Test|Verify/Test]] step to ensure the hard drive is properly mounted.<br />
<br />
+
 
 
Repeat this process for each hard drive to be mounted.
 
Repeat this process for each hard drive to be mounted.
 +
 +
==Partitions > 2.1TB==
 +
If by following this tutorial you are unable to mount hard drives with partitions > 2.1TB, refer to the [[Partitions_Over_2.1_TB|Partitions over 2.1TB]] guidance.
  
 
=Help=
 
=Help=
 
If you need assistance, please post in the [https://forums.amahi.org Amahi Forums] or receive '''LIVE''' support on the [http://talk.amahi.org Amahi IRC channel].
 
If you need assistance, please post in the [https://forums.amahi.org Amahi Forums] or receive '''LIVE''' support on the [http://talk.amahi.org Amahi IRC channel].

Latest revision as of 08:30, 24 October 2024

Warning.png WARNING
This is recommended only for Advanced users, proceed with caution.


NOTE: The Amahi Disk Wizard application (Amahi 8 or greater ONLY) provides this capability from the Dashboard UI.


The purpose of this tutorial is to make partitioning, formatting, and mounting hard drives in the Amahi server simple for those new to Linux.

In order to keep this process simple, it's important NOT to connect additional hard drive(s) until the end of the Preparation step.

Disclaimer

  • Amahi cannot be held responsible for any data breakage or destruction arising from the use or misuse of this script. We provide it as a service in good will. You accept this automatically if you use the script.
  • GUID-partitioned hard drives (such as those previously used in a Mac or have GPT partition tables) are not supported in this tutorial.

Prerequisites

In a Terminal, as root, verify disk tools are installed by executing:

Fedora

dnf -y install pmount fuse fuse-libs ntfs-3g util-linux-ng parted nano
NOTE: yum (deprecated) has been replaced with dnf as the package manager for Fedora 23 and greater.

Ubuntu

sudo apt-get -y install gparted
NOTE: Hard drives must be formatted as MBR not GUID/GPT for hda-diskmount to work correctly.

Preparation

In terminal as root, execute the following to capture current hard drive configuration:

ls -l /dev/disk/by-id/ > before.txt
cat before.txt
EXAMPLE:
lrwxrwxrwx 1 root root  9 2010-02-18 03:24  ata-Hitachi_HDS722020ALA330_JK1131YAGDU37V -> ../../sda
lrwxrwxrwx 1 root root 10 2010-02-18 03:24 ata-Hitachi_HDS722020ALA330_JK1131YAGDU37V-part1 -> ../../sda1

Power OFF the HDA and install/connect any additional hard drive(s).

Identify

Power ON the HDA and collect data about the new hard drive configuration. Again, save this to a text file for reference.

In a terminal as root, execute the following to capture current hard drive configuration:

ls -l /dev/disk/by-id/ > after.txt
cat after.txt
EXAMPLE:
lrwxrwxrwx 1 root root  9 2010-02-18 03:24  ata-Hitachi_HDS722020ALA330_JK1131YAGDU37V -> ../../sda
lrwxrwxrwx 1 root root 10 2010-02-18 03:24 ata-Hitachi_HDS722020ALA330_JK1131YAGDU37V-part1 -> ../../sda1
lrwxrwxrwx 1 root root  9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65 -> ../../sdb
FYI: IDE/SATA hard drives will start with ata- and USB hard drives will start with usb-.

Partition/Format

Compare the difference between before.txt and after.txt to determine the new hard drive(s) device name. This can be done automatically.

In a Terminal, as root, execute the following:

diff before.txt after.txt
EXAMPLE:
lrwxrwxrwx 1 root root  9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65 -> ../../sdb

At this point, partition and format the hard drive(s) if they are new. For hard drive(s) that contain data to be preserved, skip to the Mount step.

Command-line (Fedora)

To partition the hard drive(s), substitute sdX with hard drive device name, such as sdb:

In a Terminal, as root, execute the following:

parted /dev/sdX

Up to 2TB, at the (parted) prompt, enter:

  1. mklabel msdos (answer yes if prompted)
  2. mkpart primary 0% 100%
  3. quit


Greater than 2TB, at the (parted) prompt, enter:

  1. mklabel gpt (answer yes if prompted)
  2. mkpart primary 0% 100%
  3. quit


Verify the new partition was created:

ls -l /dev/disk/by-id/
EXAMPLE:
lrwxrwxrwx 1 root root  9 2010-02-18 03:24  ata-Hitachi_HDS722020ALA330_JK1131YAGDU37V -> ../../sda
lrwxrwxrwx 1 root root 10 2010-02-18 03:24 ata-Hitachi_HDS722020ALA330_JK1131YAGDU37V-part1 -> ../../sda1
lrwxrwxrwx 1 root root  9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65 -> ../../sdb
lrwxrwxrwx 1 root root  9 2010-02-18 03:24 ata-ST31000528AS_6VP08W65-part1 -> ../../sdb1

The new partition is named sdX1 (i.e. sdb1 in RED).

Format the partition, execute (can substitute ext3):

mkfs.ext4 -j /dev/sdX1

Repeat the Partition/Format step for each hard drive to be partitioned and formatted.

GParted (Ubuntu)

From the HDA desktop (or using VNC), In a terminal as root and type gparted to launch the application.

Here's a general introduction on YouTube. Just use ext3 or ext4 instead of fat32 if you follow that tutorial.

For drives > 2.0 TB, following these steps:

  • Choose hard disk in the dropdown menu (top right)
  • Select Device > Create Partition Table... > Advanced > (Choose 'gpt')
  • Create partition


NOTE: GParted supports GUID-partitioned drives, however, the hda-mount script do not support currently.

Repeat the Partition/Format step for each hard drive to be partitioned and formatted.

Mount

Mount the hard drive(s)/partition(s) for use in the HDA.

NOTE: If you prefer not to use hda-diskmount, refer to Troubleshooting hda-diskmount.

In a Terminal, as root, execute the following(it will create drive1, drive2, etc and mount the hard drive(s) automatically):

hda-diskmount
EXAMPLE:
****************************************************************
Ignoring /dev/sda1 - already in /etc/fstab or mounted
****************************************************************
Mounted /dev/sdb1 as '/var/hda/files/drives/drive1' (read-write)
You may want your system to mount it every time you boot.
To do so, add this line VERY CAREFULLY to /etc/fstab and reboot:
UUID=547b073d-e591-4913-b4fb-7c5084353979 /var/hda/files/drives/drive1 ext4 defaults 1 2
****************************************************************
All Linux, Windows and Mac partitions on non-removable disks have been mounted

The line in BLUE is what you need to copy and add to the bottom of /etc/fstab. This is REQUIRED for the hard drive(s) to be permanently mounted.

There will be multiple lines for multiple hard drive(s) added. Ensure you copy and add ONLY those which were not present in the before.txt file.

The new hard drive storage space can be used for All Shares, Some Shares, or the Greyhole Storage Pool. Follow the guidance below based on desired usage for each hard drive.

All Shares

Host ALL shares on the new hard drive.

Move all the shares data to the new drive, replacing path in RED with the path from the hda-diskmount output line in BLUE.

In a Terminal, as root, execute the following:

mv /var/hda/files/* /var/hda/files/drives/drive1/
NOTE: There may be a WARNING that can be ignored indicating /var/hda/files/drives cannot be moved to a subdirectory of itself.

Unmount the new hard drive:

umount /var/hda/files/drives/drive1/

Mount the new hard drive permanently as /var/hda/files by editing /etc/fstab:

nano /etc/fstab

Add the line to /etc/fstab provided in the hda-diskmount output in BLUE and change the second value (path) to /var/hda/files.

EXAMPLE hda-diskmount output (Original):
UUID=547b073d-e591-4913-b4fb-7c5084353979 /var/hda/files/drives/drive1 ext4 defaults 1 2
EXAMPLE hda-diskmount output (Modified):
UUID=547b073d-e591-4913-b4fb-7c5084353979 /var/hda/files ext4 defaults 1 2
EXAMPLE /etc/fstab:
#
# /etc/fstab
# Created by anaconda on Sat Nov  9 01:46:39 2013
#
# 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=1ebbf241-528c-465e-889f-acc15400dd8c /                       ext4    defaults        1 1
UUID=087b15a5-c3ca-4615-b6ee-bf5f399a803e /boot                   ext4    defaults        1 2
UUID=75346b8e-b162-458c-b0e9-a8d48ec2bc82 swap                    swap    defaults        0 0
UUID=ad85eeb9-18f0-4b85-9bfa-b88a5d1489b3 swap                    swap    defaults        0 0
UUID=547b073d-e591-4913-b4fb-7c5084353979 /var/hda/files ext4 defaults 1 2

Finally, execute the following:

mount -a
ls /var/hda/files/

The last command will display contents of the new hard drive. All shares are now located on the new hard drive.

Some Shares

Host SOME shares on the new hard drive.

Move some shares data to the new drive by executing the following command (replace path in RED with the path from the hda-diskmount output line in BLUE; sharename will be the share to move to the new drive).

In a Terminal, as root, execute the following:

mv /var/hda/files/sharename /var/hda/files/drives/drive1/

Repeat the process with every share to be moved to the new drive.

Unmount the new hard drive:

umount /var/hda/files/drives/drive1

Mount the new hard drive permanently by editing /etc/fstab:

nano /etc/fstab

Add the line to /etc/fstab provided in the hda-diskmount output in BLUE.

EXAMPLE /etc/fstab:
#
# /etc/fstab
# Created by anaconda on Sat Nov  9 01:46:39 2013
#
# 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=1ebbf241-528c-465e-889f-acc15400dd8c /                       ext4    defaults        1 1
UUID=087b15a5-c3ca-4615-b6ee-bf5f399a803e /boot                   ext4    defaults        1 2
UUID=75346b8e-b162-458c-b0e9-a8d48ec2bc82 swap                    swap    defaults        0 0
UUID=ad85eeb9-18f0-4b85-9bfa-b88a5d1489b3 swap                    swap    defaults        0 0
UUID=547b073d-e591-4913-b4fb-7c5084353979 /var/hda/files/drives/drive1 ext4 defaults 1 2

Verify the hard drive(s)/partition(s) configuration is correct in /etc/fstab.

Next, execute the following:

mount -a
ls /var/hda/files/drives/drive1

The last command will display contents of the new hard drive. All shares are now located on the new hard drive.

HDA Dashboard Update
The location of each share that was moved to the new hard drive will need updated. Select Setup followed by the Shares section. Expand each share that was moved individually and change the location (path) accordingly.

For example, the original movies location was /var/hda/files/movies but the new location might be /var/hda/files/drives/drive1/movies.

Repeat for any other shares that you have moved to the new hard drive. Verify these shares are accessible from another machine within your network.

NOTE: If any services depend on the location of a moved share, ensure they are configured to use the new share location. For example, if DLNA is installed, check the configuration file to verify it can find the new share location. Secondly, validate that that all such services start correctly and behave as expected. If the service doesn't start, it may be that it's looking for a specific share location during the service start up.

Greyhole Storage Pool

Use new hard drive for Greyhole Storage Pool.

In a Terminal, as root, mount the new hard drive permanently by editing /etc/fstab:

nano /etc/fstab

Add the line to /etc/fstab provided in the hda-diskmount output in BLUE.

EXAMPLE /etc/fstab:
#
# /etc/fstab
# Created by anaconda on Sat Nov  9 01:46:39 2013
#
# 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=1ebbf241-528c-465e-889f-acc15400dd8c /                       ext4    defaults        1 1
UUID=087b15a5-c3ca-4615-b6ee-bf5f399a803e /boot                   ext4    defaults        1 2
UUID=75346b8e-b162-458c-b0e9-a8d48ec2bc82 swap                    swap    defaults        0 0
UUID=ad85eeb9-18f0-4b85-9bfa-b88a5d1489b3 swap                    swap    defaults        0 0
UUID=547b073d-e591-4913-b4fb-7c5084353979 /var/hda/files/drives/drive1 ext4 defaults 1 2

Verify the hard drive(s)/partition(s) configuration is correct in /etc/fstab.

Refer to Greyhole (Amahi 6) for Ubuntu or Greyhole (Amahi 7) for Fedora to configure the Greyhole Storage Pool.

Verify/Test

Verify the hard drive/partition is mounted.

In a Terminal, as root, execute the following:

df -h
EXAMPLE:
Filesystem                  Size  Used Avail Use% Mounted on
/dev/sda5        16G  4.3G   11G  30% /
devtmpfs        493M     0  493M   0% /dev
tmpfs           498M   84K  498M   1% /dev/shm
tmpfs           498M  364K  498M   1% /run
tmpfs           498M     0  498M   0% /sys/fs/cgroup
tmpfs           498M  1.1M  497M   1% /tmp
/dev/sda1       190M   75M  102M  43% /boot
/dev/sdb1       917G  398G  473G  46% /var/hda/files/drives/drive1

The hard drive(s) and the mount point (path) should be listed for each hard drive added. If not, then further investigation will be needed to determine the problem.

Tips

Mount Order

The following guide will outline how to manually order hard drives and mount them automatically on boot.

In a Terminal, as root, executing the following command to obtain the UUID for each hard drive:

blkid
EXAMPLE:
/dev/sda1: LABEL="Seagate-Alpha2TB" UUID="55d9333f-d801-425a-b2af-d65c5966d56f" TYPE="ext4" 
/dev/sdb1: LABEL="Seagate-Beta2TB" UUID="5bd5498f-30c1-4780-948e-ca46656507d2" TYPE="ext4" 
/dev/sdc1: LABEL="WD-Charlie2TB" UUID="a7337504-376a-4d36-9f7a-1a24c0f55fbd" TYPE="ext4" 
/dev/sdd1: LABEL="WD-Delta2TB" UUID="8d881dcb-8de3-4621-b9bd-00025196868a" TYPE="ext4" 
/dev/sde1: LABEL="root" UUID="4d6f8004-d190-4234-a03b-b68de988abf0" TYPE="ext4" 
/dev/sde3: LABEL="home" UUID="d0531fa1-9311-4d53-b838-f35898adbd98" TYPE="ext4" 
/dev/sde5: LABEL="swap" UUID="3c39206c-ba60-47ff-a1fe-f5821b2ab543" TYPE="swap"

In this case, there are four data drives (sda1, sdb1, sdc1, sdd1) and the Operating system assigned to a fifth drive, sde.

Take note of the UUID's for each drive. Easiest to cut and paste UUID's straight from the terminal.

Edit /etc/fstab to mount each drive:

nano /etc/fstab

Then very carefully add the following line for each disk into the end of the fstab file. Ensure correct UUID, hard drive number and hard drive file system (ext4 in this case) are added.

EXAMPLE:
UUID=55d9333f-d801-425a-b2af-d65c5966d56f /var/hda/files/drives/drive1 ext4 defaults 1 2

It should look something like the following when lines are added for each of the five drives in this example.

EXAMPLE:
#  Mounting Greyhole Drives for Drive Pool.  
#
# Drive1 = Seagate-Alpha2TB in Microserver Bay 1 from left 
UUID=55d9333f-d801-425a-b2af-d65c5966d56f /var/hda/files/drives/drive1 ext4 defaults 1 2
#
# Drive2 = Seagate-Beta2TB in Microserver Bay 2 from left 
UUID=5bd5498f-30c1-4780-948e-ca46656507d2 /var/hda/files/drives/drive2 ext4 defaults 1 2
#
# Drive3 = WD-Charlie2TB in Microserver Bay 3 from left 
UUID=a7337504-376a-4d36-9f7a-1a24c0f55fbd /var/hda/files/drives/drive3 ext4 defaults 1 2
#
# Drive4 = WD-Delta2TB in Microserver Bay 4 from left 
UUID=8d881dcb-8de3-4621-b9bd-00025196868a /var/hda/files/drives/drive4 ext4 defaults 1 2
#
# Drive5 = 250GB OS Drive mounted in Optical Drive bay
UUID="4d6f8004-d190-4234-a03b-b68de988abf0 /var/hda/files/drives/drive5 ext4 defaults 1 2
#
#
NOTE: Lines beginning with # are comments where the remainder of the line is ignored

Verify there are no issues by executing the following:

mount -a

If there are errors,most likely a line was not added properly. If this is not corrected, the machine may not boot and hang trying to mount the hard drives!

Once there are no errors, reboot machine:

reboot

Verify the hard drives have successfully mounted in the HDA Dashboard.

If all drives mounted successfully, it should look something like this (Ubuntu):

EXAMPLE:

caption

Bad Blocks

Optionally, you can test your new drive for bad blocks.

NOTE: This can take a long time to complete! Recommend starting it in the evening so it will be completed the next day.

In a Terminal, as root, execute following command (replace sdb1 with the (BLUE) value you received from hda-diskmount):

e2fsck -cn /dev/sdb1

You'll receive a message stating WARNING!!! Running e2fsck on a mounted filesystem may cause SEVERE filesystem damage. Do you really want to continue (y/n)?

Answer yes. The -cn option we're using can safely be used on mounted file systems.

Spin Down Hard Drives

Low power is a good thing to have in servers. If you do not use your server very often, you may want to force the hard drives to spin down faster than the default. Here is how.

First ensure hdparm package is installed:

sudo dnf install hdparm

To force to spin down after 10 minutes of being idle, add these lines to /etc/rc.local:

# power drives down after 10 minutes idle
/sbin/hdparm -S120 /dev/sda
/sbin/hdparm -S120 /dev/sdb
...

Most drives will power down on their own without doing this.

Once stopped, the drive may take as long as 30 seconds to respond to a subsequent disk access, though most drives are much quicker. The encoding of the -S timeout value is somewhat peculiar. A value of zero means "timeouts are disabled": the device will not automatically enter standby mode. Values from 1 to 240 specify multiples of 5 seconds, yielding timeouts from 5 seconds to 20 minutes. Values from 241 to 251 specify from 1 to 11 units of 30 minutes, yielding timeouts from 30 minutes to 5.5 hours. A value of 252 signifies a timeout of 21 minutes. A value of 253 sets a vendor-defined timeout period between 8 and 12 hours, and the value 254 is reserved. 255 is interpreted as 21 minutes plus 15 seconds. Note that some older drives may have very different interpretations of these values.

It may make the system run cooler and power efficient (especially on a Home Server you are rarely using all of the pool drives at the same time).

Troubleshooting

hda-diskmount

If hda-diskmount does not mount the hard drive or you prefer to do it manually, complete the following steps:

Create the mount point (choose one NOT in use) in a Terminal, as root by executing the following:

mkdir -p /var/hda/files/drives/drive1

Identify the hard drive to mount and copy the UUID from the output that corresponds to the hard drive (i.e. sdb)

ls -l /dev/disk/by-uuid/

EXAMPLE:
lrwxrwxrwx 1 root root 10 Dec 29 18:10 1b8597e0-5d95-4474-b093-53099c8c81c9 -> ../../sda1
lrwxrwxrwx 1 root root 10 Dec 29 18:10 1c161033-c695-4291-aba1-257d3987edf7 -> ../../dm-0
lrwxrwxrwx 1 root root 10 Dec 29 18:10 b7017251-cb54-438b-92a3-781537c565e6 -> ../../sdb
lrwxrwxrwx 1 root root 10 Dec 29 18:10 c1fe62b3-41dc-4a67-8a6b-09f90b7893ba -> ../../dm-1
lrwxrwxrwx 1 root root 10 Dec 29 18:10 e0f5a9bd-f52b-431e-89af-61da70659bdd -> ../../dm-2
lrwxrwxrwx 1 root root 10 Dec 29 18:10 547b073d-e591-4913-b4fb-7c5084353979 -> ../../sdb1
The UUID for sdX1 (i.e. sdb1 is RED).

Add the following to the end of /etc/fstab, replacing the UUID as captured in the previous step

nano /etc/fstab

EXAMPLE:
#
# /etc/fstab
# Created by anaconda on Sat Nov  9 01:46:39 2013
#
# 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=1ebbf241-528c-465e-889f-acc15400dd8c /                       ext4    defaults        1 1
UUID=087b15a5-c3ca-4615-b6ee-bf5f399a803e /boot                   ext4    defaults        1 2
UUID=75346b8e-b162-458c-b0e9-a8d48ec2bc82 swap                    swap    defaults        0 0
UUID=ad85eeb9-18f0-4b85-9bfa-b88a5d1489b3 swap                    swap    defaults        0 0
UUID=547b073d-e591-4913-b4fb-7c5084353979 /var/hda/files/drives/drive1 ext4 defaults 1 2
The new entry will be mounted as /var/hda/files/drives/drive1 (i.e. sdb1 in BLUE)

Mount the hard drive

mount -a

If all goes well, there should not be any output. If there are errors, stop and diagnose the problem.

Accomplish Verify/Test step to ensure the hard drive is properly mounted.

Repeat this process for each hard drive to be mounted.

Partitions > 2.1TB

If by following this tutorial you are unable to mount hard drives with partitions > 2.1TB, refer to the Partitions over 2.1TB guidance.

Help

If you need assistance, please post in the Amahi Forums or receive LIVE support on the Amahi IRC channel.