Is it possible to create a complete SD image in linux without having root privileges (that is, no loopback mount)? I'm looking for a way to automate embedded system image creation. The image should include a specific partition structure and partitions formatted to FAT and ext2 populated with files from the build system.

  • Two ideas come to mind: one would be preconfiguring permission for a specific task, maybe using fuse. Another would be to simulate mounting using the same idea as fakeroot - an LD_PRELOAD to replace the file handling functions, and instead route file operations on a selected directory through an unprivileged userspace filesystem implementation with the image being just an ordinary data file. You might well end up needing the usual fakeroot capability too, to set desired permission bits on the files in the image. – Chris Stratton Jun 11 '12 at 6:43
  • @user1442554 I believe I've correctly answered the question. If you agree, would you please mark my answer as correct? – Catskul Jul 30 '12 at 22:31

I'm trying to do the same thing. My first attempt used the loopback block device, but I have found work-arounds to both steps that require loopback.

Steps with loopback

Here's what I'm doing ( $1 is image file name, $2 is file size):

  1. create zeroed disk image file with dd if=/dev/zero of=$1 bs=512 count=$(($2/512))
  2. create partition table with parted -s $1 mklabel msdos
  3. create partition with parted -s $1 "mkpart primary 0% 100%"
  4. attach partition to loop sudo losetup --find $1 --offset $OFFSET_TO_PARTITION_BYTES
  5. make file system with mkfs.ext4 with mkfs.ext4 -I 128 -L BOOT -b 2048 -O ^has_journal /dev/loop0 $SIZE_IN_2048_BLOCKS
  6. mount /dev/loop0

The loopback is used because

  • in step 4 & 5, mkfs doesn't have an offset option so losetup is used to solve that problem
  • in step 6, mount allows the use of the operating systems ext4 driver

Looback workarounds

Shitty work-around for step 4 & 5:

  • xmount --in dd --out vdi disk.img mnt/
  • vdfuse -f mnt/disk.vdi -r ./mnt2
  • ./mnt2 will now have two files: EntireDisk, and Partition1
  • point mkfs.ext4 at ./mnt2/Partition1

Work-around solution to step 6:

  • follow all steps for step 5 work around
  • use fuseext2 to mount ./mnt2/Partition1


Caveat: ext4 support is not advertised in their documentation, and attempts to mount come with a warning:

This is experimental code, opening rw a real file system could be
dangerous for your data. Please add "-o ro" if you want to open the file
system image in read-only mode, or "-o rw+" if you accept the risk to test
this module


vdfuse should be able to mount a raw image without the help of xmount, but there is a bug which ignores the RAW option.

I tracked down and fixed the bug with a patch here:

  • Have you find a way to make it works? It sounds it comes from years now, but looking at the bug it seems nothing have been done. Does it comes from the version of your tools? – aurelien Aug 25 '17 at 20:03
  • As far as I know, nothing has been done. You can use my patch if you're willing to recompile the tool. – Catskul Aug 26 '17 at 2:35

you might want to look at genextfs, that creates an ext2 filesystem in a regular file without any sort of mounting.

I had this problem and couldn't find a viable solution, so I wrote this utility that we've open-sourced here.

From the README:

$ dd if=/dev/zero of=disk.image bs=1M count=4
4+0 records in
4+0 records out
4194304 bytes (4.2 MB, 4.0 MiB) copied, 0.00470867 s, 891 MB/s
$ parted --script disk.image \
    mktable msdos mkpart primary 2048s 100% set 1 boot on
$ mkdir mntdir
$ partfs -o dev=disk.image mntdir
$ mkfs.ext4 mntdir/p1
mke2fs 1.42.13 (17-May-2015)
Creating filesystem with 3072 1k blocks and 768 inodes

Allocating group tables: done
Writing inode tables: done
Creating journal (1024 blocks): done
Writing superblocks and filesystem accounting information: done

$ fusermount -u mntdir
  • By using: 1. fdisk to create the partitions into a sparse file 2. partfs to access the created partitions individually 3. dd to copy ext4 files generated by build root 4. fallocate to repunch holes to make the file sparse again I could achieve all the things I wanted as non-root, so thank you very much. – ncarrier Sep 27 at 8:58

Minimal runnable sfdisk + mke2fs example without sudo

In this example, we will create, without sudo or setsuid, an image file that contains two ext2 partitions, each populated with files from a host directory.

We will then use sudo losetup just to mount the partitions to test that the Linux kernel can actually read them as explained at: How to mount one partition from an image file that contains multiple partitions on Linux?

For more details, see:

The example:

#!/usr/bin/env bash

# Input params.

# Calculated params.
mega="$(echo '2^20' | bc)"
partition_size_1=$(($partition_size_1_megs * $mega))
partition_size_2=$(($partition_size_2_megs * $mega))

# Create a test directory to convert to ext2.
mkdir -p "$root_dir_1"
echo content-1 > "${root_dir_1}/file-1"
mkdir -p "$root_dir_2"
echo content-2 > "${root_dir_2}/file-2"

# Create the 2 raw ext2 images.
rm -f "$partition_file_1"
mke2fs \
  -d "$root_dir_1" \
  -r 1 \
  -N 0 \
  -m 5 \
  -L '' \
  -O ^64bit \
  "$partition_file_1" \
  "${partition_size_1_megs}M" \
rm -f "$partition_file_2"
mke2fs \
  -d "$root_dir_2" \
  -r 1 \
  -N 0 \
  -m 5 \
  -L '' \
  -O ^64bit \
  "$partition_file_2" \
  "${partition_size_2_megs}M" \

# Default offset according to
dd if=/dev/zero of="$img_file" bs="$bs" count=$((($part_table_offset + $partition_size_1 + $partition_size_2)/$bs)) skip="$(($cur_offset/$bs))"
printf "
type=83, size=$(($partition_size_1/$block_size))
type=83, size=$(($partition_size_2/$block_size))
" | sfdisk "$img_file"
cur_offset=$(($cur_offset + $part_table_offset))
# TODO: can we prevent this and use mke2fs directly on the image at an offset?
# Tried -E offset= but could not get it to work.
dd if="$partition_file_1" of="$img_file" bs="$bs" seek="$(($cur_offset/$bs))"
cur_offset=$(($cur_offset + $partition_size_1))
rm "$partition_file_1"
dd if="$partition_file_2" of="$img_file" bs="$bs" seek="$(($cur_offset/$bs))"
cur_offset=$(($cur_offset + $partition_size_2))
rm "$partition_file_2"

# Test the ext2 by mounting it with sudo.
# sudo is only used for testing, the image is completely ready at this point.

# losetup automation functions from:
loop-mount-partitions() (
  set -e
  dev="$(sudo losetup --show -f -P "$img")"
  echo "$dev" | sed -E 's/.*[^[:digit:]]([[:digit:]]+$)/\1/g'
  for part in "${dev}p"*; do
    if [ "$part" = "${dev}p*" ]; then
      # Single partition image.
    dst="/mnt/$(basename "$part")"
    echo "$dst" 1>&2
    sudo mkdir -p "$dst"
    sudo mount "$part" "$dst"
loop-unmount-partitions() (
  set -e
  for loop_id in "$@"; do
    for part in "${dev}p"*; do
      if [ "$part" = "${dev}p*" ]; then
      dst="/mnt/$(basename "$part")"
      sudo umount "$dst"
    sudo losetup -d "$dev"

loop_id="$(loop-mount-partitions "$img_file")"
sudo cmp /mnt/loop0p1/file-1 "${root_dir_1}/file-1"
sudo cmp /mnt/loop0p2/file-2 "${root_dir_2}/file-2"
loop-unmount-partitions "$loop_id"

Tested on Ubuntu 18.04. GitHub upstream.

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