This page (revision-24) was last changed on 2021-04-21 06:16 by Murray Altheim

This page was created on 2021-03-27 21:00 by Murray Altheim

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This page describes using the "dd" command on Linux to create an exact copy of an SD card, storing it in a disk image ("img") file, then restoring from a disk image file. It also describes using the __BalenaEtcher__ program to clone SD cards, and __pishrink__ to shrink the size of disk image files.
If you're using Linux, a more complete but complex method of creating an image of an SD card is described below, namely using the "shrink" application, which both copies the SD card and shrinks its stored size smaller than the full size of the SD card.
This page describes using the "dd" command on Linux to create an exact copy of an SD card, storing it in an "img" file, then restoring from an "img" file.
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[{TableOfContents}]
The Raspberry Pi uses an SD card to contain its [operating system]. Once you've gone to the trouble of getting your Pi to the point where it's perfect, wouldn't it be great to do a backup copy? And be able to restore from that backup? Because there's always the chance that something will go wrong, it's generally good to make backups anyway.
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Doing a backup of an SD card isn't just a matter of copying a bunch of file, because the SD card on a Pi is split up into multiple __partitions__, and the copy must duplicate not just the files and file structure but the type and layout of those partitions. This is called "cloning".
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The Raspberry Pi uses an SD card to contain its [operating system]. Once you've gone to the trouble of getting your Pi to the point where it's ''perfect'', wouldn't it be great to do a backup copy? And be able to restore from that backup? Because there's always the chance that something will go wrong, it's generally good to make backups anyway.
If you're using a Linux or Mac OS computer this page applies. If you're using Windows you can do this on the Windows Subsystem for Linux (WSL), an Ubuntu-in-situ application. If you want to use Windows, there are many web pages describing how to use Windows applications to copy cards. (We don't use Windows around here.)
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Doing a backup of an SD card isn't just a matter of copying a bunch of files, because the SD card on a Pi is split up into multiple __partitions__, and the copy must duplicate not just the file structure and files, ownership and permissions, but the type and layout of the partitions. Copying an entire drive is called "cloning".
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!!! How to Clone an SD Card
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This page describes how to clone an SD card to an "img" file. If you want to copy (clone) an SD card directly to another SD card (i.e., no backup file) the [BalenaEtcher|https://www.balena.io/etcher/] has a Clone feature that does just that. The upside to this is that cloning card-to-card is easier, faster, and more fool-proof. The downside is that you'll need the ability to mount two SD cards to your desktop computer, and you won't end up with a backup file. Backup files are good!
This describes how to clone an SD card to an "img" file.
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This page is applicable if your desktop computer uses Linux or Mac OS. If you're using Windows you can do this using the ''Windows Subsystem for Linux'' (WSL), an Ubuntu-as-an-application that can be installed — with some effort — on Windows 10, or using a specialised Windows application. If you want to use Windows, there are many web pages describing how to use Windows applications to copy cards. We don't use Windows around here.
! Determining the Mount Point of Your SD Card
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!!! How to Clone an SD Card
! Find Your SD Card
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Once you've unmounted the partitions, you can then use the "{{dd}}" command to make the copy. I'll be storing it on my Desktop ("/home/altheim/Desktop") directory as a file named "rpi-backup-20210328.img". I generally add a timestamp to my backups so I can figure out when I made them. If you're using both 32- and 64-bit OS, that's a good thing to add. If the backup is of a particular state of the OS (e.g., before or after a big change) I might include that too.
Once you've unmounted the partitions, you can then use the "{{dd}}" command to make the copy. I'll be storing it on my Desktop ("/home/altheim/Desktop") directory as a file named "rpi-backup-20210328.img". I generally add a timestamp to my backups so I can figure out when I made them.
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Note that you __must__ alter the "if" (input file) argument to match the drive of the SD card you found using fdisk, otherwise you may damage an existing drive — particularly when performing a restore (as below). It won't necessarily be the same drive designation as what I found, and an SD card won't even always mount at the same location. ''Check it every time''.
Note that you __must__ alter the "if" (input file) argument to match the drive of the SD card you found using fdisk, otherwise you may damage an existing drive. If won't necessarily be the same as what I found, and an SD card won't even always mount at the same location. ''Check it every time''.
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As a point of reference, on my desktop computer (an "Intel® Core™ i5-3570K CPU @ 3.40GHz × 4"), backing up my 16GB SD card using the above command line took 877.819 seconds (almost 15 minutes) to complete. Bumping up the block size from 4MB to 32MB the copy took 887.095 seconds, i.e., it made no noticeable difference.
As a point of reference, on my desktop computer ("Intel® Core™ i5-3570K CPU @ 3.40GHz × 4"), backing up my 16GB SD card using the above command line took 877.819 seconds (almost 15 minutes) to complete.
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!! Shrinking the Image
!! How To Restore an SD Card From an Image File
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If you're using Ubuntu Linux as your normal desktop I'd recommend using the __shrink tool__ found at: [https://github.com/qrti/shrink]
which works very well. Instructions for installation can be found at its home page.
__shrink__ automatically opens the GParted Partition Editor, instructs you what to do, and effectively manages the creation and shrinking of the produced copy of your SD card as an *.image file.
This describes how to restore an SD card from an "img" file.
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There's a bit of a problem in that the Raspberry Pi OS is automatically expanded to the size of the
SD card the first time it's used, meaning that the image is always the same size as the SD card. This means
that sometimes when you try to write the image to an SD card it is just ''slightly'' too big and you
end up with an "out of space" error.
TBD.
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The way to fix this is to run a free bash script called "__pishrink__" to shrink the image. This only
runs on Linux or Mac OS (since it has a BSD Unix command line).
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You can find a copy of PiShrink from its github page at: [https://github.com/Drewsif/PiShrink]
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Note that you'll have to make the program executable after downloading it via:
{{{
chmod 744 pishrink.sh
}}}
It has command line help and even has an option for using multiple cores of your computer to speed things
up, if you've installed the "pigz" library (using {{sudo apt install pigz}}).
!!! How To Restore an SD Card From a Backup
%%information
This describes how to restore an SD card from an "img" file. You can use the Linux "dd" command as described below, or one of the existing UI applications like the [BalenaEtcher|https://www.balena.io/etcher/] or the [Raspberry Pi Imager|https://www.raspberrypi.org/blog/raspberry-pi-imager-imaging-utility/]. The UI applications are friendlier, handle the SD card formatting, and provide error messages and validation, so are __recommended__. The "dd" method is included here for completeness.
%%
! Find Your SD Card (Again)
Using the instructions [above|#section-HowToBackupAnSdCard-FindYourSDCard] with fdisk, locate your SD card.
In my case, it turns out that the new card mounted at {{/dev/sdd}}.
! Format Your New SD Card
From a Linux desktop you can use the __Disks__ utility to reformat the entire drive (not simply its partitions), first unmounting and then deleting all partitions, then using "Format Volume" with an Ext4 format. Alternately, you can use __gparted__ (the Gnome Partition Editor), installed via: {{sudo apt install gparted}}. It's a bit beyond the scope here to describe how to reformat the drive using these GUI tools but we'll cover the command line approach because ''it's actually easier'' if you know what you're doing. If not, there's a slight learning curve but I'd probably recommend installing and using gparted. It's a good skill to have anyway.
So we delete any partitions on the SD card (we'll use "/dev/sdd" but you should substitute the mount point you found):
{{{
sudo fdisk /dev/sdd
}}}
This responds with a prompt, where you type "d":
{{{
Command (m for help): d
Selected partition 1
Partition 1 has been deleted.
}}}
If you have multiple partitions on the SD card you can select the partitions or simply repeat the command until the SD card has no more partitions.
Now check to see what your SD card looks like:
{{{
Disk /dev/sdd: 14.6 GiB, 15665725440 bytes, 30597120 sectors
Units: sectors of 1 * 512 = 512 bytes
Sector size (logical/physical): 512 bytes / 512 bytes
I/O size (minimum/optimal): 512 bytes / 512 bytes
Disklabel type: dos
Disk identifier: 0x334dade7
}}}
Now, to create a single FAT32 partition, type "n", selected "p" for primary, then accepted all the defaults:
{{{
Command (m for help): n
Partition type
p primary (0 primary, 0 extended, 4 free)
e extended (container for logical partitions)
Select (default p): p
Partition number (1-4, default 1): 1
First sector (2048-30597119, default 2048):
Last sector, +sectors or +size{K,M,G,T,P} (2048-30597119, default 30597119):
Created a new partition 1 of type 'Linux' and of size 14.6 GiB.
}}}
Now we'll set the partition type to FAT32. The command is "t", and you can list all the available types with "L". The label for "W95 FAT32" is "b" so we'll respond with "b":
{{{
Hex code (type L to list all codes): b
Changed type of partition 'Linux' to 'W95 FAT32'.
}}}
Now, write the changes you've made to the SD card:
{{{
Command (m for help): w
The partition table has been altered.
Calling ioctl() to re-read partition table.
Syncing disks.
}}}
So, we've created a partition but it's not net formatted. So let's format our new partition using the {{mkfs.vfat}} according to the specifications you've configured:
{{{
sudo mkfs.vfat /dev/sdd1
}}}
You'll note we're using "sdd1" rather than "sdd" because we're formatting the first (and only) ''partition'', not the ''drive'' itself.
! Copy the Raspberry Pi OS Image to the SD Card
Now that you've got a freshly-formatted SD card mounted (we'll assume here at {{/dev/sdd}} but may be different for you), we can restore our image file to that SD card using the {{dd}} command:
{{{
sudo dd if=/home/altheim/Desktop/rpi-backup-20210328.img of=/dev/sdd bs=4M status=progress
}}}
The awake among you will note that this reverses the {{if}} and {{of}} argument values from when we made the backup, since we're just reversing the process.
And yes, this will take a ''long'' time so take your cat for another walk.
As a point of reference, this process is writing to rather than reading from the SD card, so it's a bit slower at ~16.0MB/second. To restore the Raspberry Pi OS image back to my 16GB SD card took over 1000 seconds (16 minutes).