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title | date | draft | tags | authors | |||||
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Faster Partitioning With sgdisk | 2019-02-11T04:23:52-08:00 | false |
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date: 2019-02-11T04:23:52-08:00
Disclaimer
If any of this is wrong, let me know so I can fix it. No actual hard drives were harmed in the production of this blog post.
The examples are easier to read if you turn your smart phone sideways.
Command Line Is Faster
Sure you can partition your discs using a GUI disk management application or an interactive, menu-driven terminal interface. But the command line is faster.
gdisk vs sgdisk
sgdisk
is the scriptable version of gdisk
(gptfdisk).
what the manpage says{target=_blank}
If you’re familiar with gdisk
, you probably know how to interactively set the partition size and type.
If you look at the man page for sgdisk
you see that the relevant flags are -n
and -t
. The beginning and ending numbers
are absolute, unless you prepend them with a +
or -
sign, in which case they become relative.
# For New Partition:
-n, --new=partnum:start:end
# Change partition type:
-t, --typecode=partnum:{hexcode|GUID}
Example with Separate EFI and / Partitions
BTW, gdisk
is a partitioning tool intended to be used with a gpt partition table, so the assumption is that you would want an efi partition,
(although the efi partition does not have to be on the disk you are partitioning or even on the same disk where your other system partitions are).
- Wipe any leftover filesystem metadata with wipefs.
wipefs --all /dev/sdx
- Create a new GPT partition table.
sgdisk /dev/sdx -o
- Create an efi partition of 512MB by specifying the end of the partition (relative) and the partition type,
ef00
.
sgdisk /dev/sdx -n 1::+512MiB -t 1:ef00
- Create an
/
partition using the remainder of the disk, by not specifying the end or the beginning or partition type, which defaults to 8300.
sgdisk /dev/sdx -n 2
- Format the efi partition fat 32.
mkfs.vfat -F32 /dev/sdx1
- Format the
/
partition ext4.
mkfs.ext4 /dev/sdx2
Practice With A Sparse Image
If you don’t want to partition a real hard drive, you can practice using an sparse image file, instead.
# create a sparse image file
truncate -S 100G practiceImage.img
# partition the image file with sgdisk
sgdisk practiceImage.img -o
# etc
Example with Separate /boot, EFI, and luks-encrypted / Partitions
- Wipe any leftover filesystem metadata with
wipefs
.
wipefs --all /dev/sdx
- Create a new GPT partition table.
sgdisk /dev/sdx -o
- Create an efi partition of 512MB by specifying the end of the partition (relative) and the partition type,
ef00
.
sgdisk /dev/sdx -n 1::+512MiB -t 1:ef00
- Create a
/boot
partition of 1GB, by specifying the end of the partition (relative), but not specifying the partition type which defaults to8300
.
sgdisk /dev/sdx -n 2::+1GiB
- Create an
/
partition using the remainder of the disk, by not specifying the end or the beginning or partition type, which defaults to8300
.
sgdisk /dev/sdx -n 3
- Format the efi partition fat 32.
mkfs.vfat -F32 /dev/sdx1
- Format the
/boot
partition ext4.
mkfs.ext4 /dev/sdx2
- Encrypt the
/
partition.
cryptsetup -y -v luksFormat --type luks2 /dev/sdx3
- Decrypt the
/
device.
cryptsetup open /dev/sdx3 cryptroot
- Format the
/
device.
mkfs.xfs /dev/mapper/cryptroot
What About Swap?
I prefer to use a swap file inside the luks-encrypted / partition. But you can make a separate swap partition if you like.
Example with 2GB swap partition
- Wipe the disc.
wipefs --all /dev/sdx
- Create a new GPT partition table.
sgdisk /dev/sdx -o
- Create an EFI partition.
sgdisk /dev/sdx -n 1::+512MiB -t 1:ef00
- Create a
/boot
partition.
sgdisk /dev/sdx -n 2::+1GiB
- Create a
/
partition with a relative negative end.
sgdisk /dev/sdx -n 3::-2GiB
- Create a swap partion type
8200
.
sgdisk /dev/sdx -n 4 -t 4:8200
- format the partitions.
mkfs.vfat -F32 /dev/sdx1
mkfs.ext4 /dev/sdx2
mkfs.xfs /dev/sdx3
mkswap /dev/sdx4
Conclusion
- Good luck to you.
- Backup your data first.
- Kind Regards, Trent