'\" t .TH "SYSTEMD\-GPT\-AUTO\-GENERATOR" "8" "" "systemd 252" "systemd-gpt-auto-generator" .\" ----------------------------------------------------------------- .\" * Define some portability stuff .\" ----------------------------------------------------------------- .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .\" http://bugs.debian.org/507673 .\" http://lists.gnu.org/archive/html/groff/2009-02/msg00013.html .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .ie \n(.g .ds Aq \(aq .el .ds Aq ' .\" ----------------------------------------------------------------- .\" * set default formatting .\" ----------------------------------------------------------------- .\" disable hyphenation .nh .\" disable justification (adjust text to left margin only) .ad l .\" ----------------------------------------------------------------- .\" * MAIN CONTENT STARTS HERE * .\" ----------------------------------------------------------------- .SH "NAME" systemd-gpt-auto-generator \- Generator for automatically discovering and mounting root, /home/, /srv/, /var/ and /var/tmp/ partitions, as well as discovering and enabling swap partitions, based on GPT partition type GUIDs .SH "SYNOPSIS" .PP /lib/systemd/system\-generators/systemd\-gpt\-auto\-generator .SH "DESCRIPTION" .PP systemd\-gpt\-auto\-generator is a unit generator that automatically discovers root, /home/, /srv/, /var/, /var/tmp/, the EFI System Partition, the Extended Boot Loader Partition and swap partitions and creates mount and swap units for them, based on the partition type GUIDs of GUID partition tables (GPT), see \m[blue]\fBUEFI Specification\fR\m[]\&\s-2\u[1]\d\s+2, chapter 5\&. It implements the \m[blue]\fBDiscoverable Partitions Specification\fR\m[]\&\s-2\u[2]\d\s+2\&. Note that this generator has no effect on non\-GPT systems, and on specific mount points that are directories already containing files\&. Also, on systems where the units are explicitly configured (for example, listed in \fBfstab\fR(5)), the units this generator creates are overridden, but additional implicit dependencies might be created\&. .PP This generator will only look for the root partition on the same physical disk where the EFI System Partition (ESP) is located\&. Note that support from the boot loader is required: the EFI variable \fILoaderDevicePartUUID\fR of the \fB4a67b082\-0a4c\-41cf\-b6c7\-440b29bb8c4f\fR vendor UUID is used to determine from which partition, and hence the disk from which the system was booted\&. If the boot loader does not set this variable, this generator will not be able to autodetect the root partition\&. See the \m[blue]\fBBoot Loader Interface\fR\m[]\&\s-2\u[3]\d\s+2 for details\&. .PP Similarly, this generator will only look for the other partitions on the same physical disk as the root partition\&. In this case, boot loader support is not required\&. These partitions will not be searched for on systems where the root file system is distributed on multiple disks, for example via btrfs RAID\&. .PP systemd\-gpt\-auto\-generator is useful for centralizing file system configuration in the partition table and making configuration in /etc/fstab or on the kernel command line unnecessary\&. .PP This generator looks for the partitions based on their partition type GUID\&. The following partition type GUIDs are identified: .sp .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .B Table\ \&1.\ \&Partition Type GUIDs .TS allbox tab(:); lB lB lB lB. T{ Partition Type GUID T}:T{ Name T}:T{ Mount Point T}:T{ Explanation T} .T& l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l. T{ \fBSD_GPT_ROOT_X86_64\fR \fB4f68bce3\-e8cd\-4db1\-96e7\-fbcaf984b709\fR T}:T{ Root Partition (x86\-64) T}:T{ / T}:T{ The first partition with this type UUID, located on the same disk as the ESP, is used as the root file system / on AMD64 / 64\-bit x86 systems\&. T} T{ \fBSD_GPT_ROOT_ARM64\fR \fBb921b045\-1df0\-41c3\-af44\-4c6f280d3fae\fR T}:T{ Root Partition (64\-bit ARM) T}:T{ / T}:T{ The first partition with this type UUID, located on the same disk as the ESP, is used as the root file system / on AArch64 / 64\-bit ARM systems\&. T} T{ \fBSD_GPT_ROOT_ALPHA\fR \fBSD_GPT_ROOT_ARC\fR \fBSD_GPT_ROOT_ARM\fR \fBSD_GPT_ROOT_ARM64\fR \fBSD_GPT_ROOT_IA64\fR \fBSD_GPT_ROOT_LOONGARCH64\fR \fBSD_GPT_ROOT_MIPS_LE\fR \fBSD_GPT_ROOT_MIPS64_LE\fR \fBSD_GPT_ROOT_PARISC\fR \fBSD_GPT_ROOT_PPC\fR \fBSD_GPT_ROOT_PPC64\fR \fBSD_GPT_ROOT_PPC64_LE\fR \fBSD_GPT_ROOT_RISCV32\fR \fBSD_GPT_ROOT_RISCV64\fR \fBSD_GPT_ROOT_S390\fR \fBSD_GPT_ROOT_S390X\fR \fBSD_GPT_ROOT_TILEGX\fR \fBSD_GPT_ROOT_X86\fR \fBSD_GPT_ROOT_X86_64\fR \fBSD_GPT_USR_ALPHA\fR \fBSD_GPT_USR_ARC\fR \fBSD_GPT_USR_ARM\fR \fBSD_GPT_USR_IA64\fR \fBSD_GPT_USR_LOONGARCH64\fR \fBSD_GPT_USR_MIPS_LE\fR \fBSD_GPT_USR_MIPS64_LE\fR \fBSD_GPT_USR_PARISC\fR \fBSD_GPT_USR_PPC\fR \fBSD_GPT_USR_PPC64\fR \fBSD_GPT_USR_PPC64_LE\fR \fBSD_GPT_USR_RISCV32\fR \fBSD_GPT_USR_RISCV64\fR \fBSD_GPT_USR_S390\fR \fBSD_GPT_USR_S390X\fR \fBSD_GPT_USR_TILEGX\fR \fBSD_GPT_USR_X86\fR T}:T{ root partitions for other architectures T}:T{ / T}:T{ The first partition with the type UUID matching the architecture, located on the same disk as the ESP, is used as the root file system /\&. For the full list and constant values, see \m[blue]\fBDiscoverable Partitions Specification\fR\m[]\&\s-2\u[2]\d\s+2\&. T} T{ \fBSD_GPT_HOME\fR \fB933ac7e1\-2eb4\-4f13\-b844\-0e14e2aef915\fR T}:T{ Home Partition T}:T{ /home/ T}:T{ The first partition with this type UUID on the same disk as the ESP is mounted to /home/\&. T} T{ \fBSD_GPT_SRV\fR \fB3b8f8425\-20e0\-4f3b\-907f\-1a25a76f98e8\fR T}:T{ Server Data Partition T}:T{ /srv/ T}:T{ The first partition with this type UUID on the same disk as the ESP is mounted to /srv/\&. T} T{ \fBSD_GPT_VAR\fR \fB4d21b016\-b534\-45c2\-a9fb\-5c16e091fd2d\fR T}:T{ Variable Data Partition T}:T{ /var/ T}:T{ The first partition with this type UUID on the same disk as the ESP is mounted to /var/ \(em under the condition its partition UUID matches the first 128 bit of the HMAC\-SHA256 of the GPT type uuid of this partition keyed by the machine ID of the installation stored in \fBmachine-id\fR(5)\&. T} T{ \fBSD_GPT_TMP\fR \fB7ec6f557\-3bc5\-4aca\-b293\-16ef5df639d1\fR T}:T{ Temporary Data Partition T}:T{ /var/tmp/ T}:T{ The first partition with this type UUID on the same disk as the ESP is mounted to /var/tmp/\&. T} T{ \fBSD_GPT_SWAP\fR \fB0657fd6d\-a4ab\-43c4\-84e5\-0933c84b4f4f\fR T}:T{ Swap T}:T{ n/a T}:T{ All partitions with this type UUID on the same disk as the ESP are used as swap\&. T} T{ \fBSD_GPT_ESP\fR \fBc12a7328\-f81f\-11d2\-ba4b\-00a0c93ec93b\fR T}:T{ EFI System Partition (ESP) T}:T{ /efi/ or /boot/ T}:T{ The first partition with this type UUID located on the same disk as the root partition is mounted to /boot/ or /efi/, see below\&. T} T{ \fBSD_GPT_XBOOTLDR\fR \fBbc13c2ff\-59e6\-4262\-a352\-b275fd6f7172\fR T}:T{ Extended Boot Loader Partition T}:T{ /boot/ T}:T{ The first partition with this type UUID located on the same disk as the root partition is mounted to /boot/, see below\&. T} .TE .sp 1 .PP This generator understands the following attribute flags for partitions: .sp .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .B Table\ \&2.\ \&Partition Attribute Flags .TS allbox tab(:); lB lB lB. T{ Flag T}:T{ Applicable to T}:T{ Explanation T} .T& l l l l l l l l l. T{ \fBSD_GPT_FLAG_READ_ONLY\fR \fB0x1000000000000000\fR T}:T{ /, /home/, /srv/, /var/, /var/tmp/, Extended Boot Loader Partition T}:T{ Partition is mounted read\-only T} T{ \fBSD_GPT_FLAG_NO_AUTO\fR \fB0x8000000000000000\fR T}:T{ /, /home/, /srv/, /var/, /var/tmp/, Extended Boot Loader Partition T}:T{ Partition is not mounted automatically T} T{ \fBSD_GPT_FLAG_NO_BLOCK_IO_PROTOCOL\fR \fB0x0000000000000002\fR T}:T{ EFI System Partition (ESP) T}:T{ Partition is not mounted automatically T} .TE .sp 1 .PP The /home/, /srv/, /var/ and /var/tmp/ partitions may be encrypted in LUKS format\&. In this case, a device mapper device is set up under the names /dev/mapper/home, /dev/mapper/srv, /dev/mapper/var and /dev/mapper/tmp\&. Note that this might create conflicts if the same partition is listed in /etc/crypttab with a different device mapper device name\&. .PP When systemd is running in the initrd the / partition may be encrypted in LUKS format as well\&. In this case, a device mapper device is set up under the name /dev/mapper/root, and a sysroot\&.mount is set up that mounts the device under /sysroot\&. For more information, see \fBbootup\fR(7)\&. .PP The root partition can be specified by symlinking /run/systemd/volatile\-root to /dev/block/$major:$minor\&. This is especially useful if the root mount has been replaced by some form of volatile file system (overlayfs)\&. .PP Mount and automount units for the EFI System Partition (ESP) are generated on EFI systems\&. The ESP is mounted to /boot/ (except if an Extended Boot Loader partition exists, see below), unless a mount point directory /efi/ exists, in which case it is mounted there\&. Since this generator creates an automount unit, the mount will only be activated on\-demand, when accessed\&. On systems where /boot/ (or /efi/ if it exists) is an explicitly configured mount (for example, listed in \fBfstab\fR(5)) or where the /boot/ (or /efi/) mount point is non\-empty, no mount units are generated\&. .PP If the disk contains an Extended Boot Loader partition, as defined in the \m[blue]\fBBoot Loader Specification\fR\m[]\&\s-2\u[4]\d\s+2, it is made available at /boot/ (by means of an automount point, similar to the ESP, see above)\&. If both an EFI System Partition and an Extended Boot Loader partition exist the latter is preferably mounted to /boot/\&. Make sure to create both /efi/ and /boot/ to ensure both partitions are mounted\&. .PP When using this generator in conjunction with btrfs file systems, make sure to set the correct default subvolumes on them, using \fBbtrfs subvolume set\-default\fR\&. .PP systemd\-gpt\-auto\-generator implements \fBsystemd.generator\fR(7)\&. .SH "KERNEL COMMAND LINE" .PP systemd\-gpt\-auto\-generator understands the following kernel command line parameters: .PP \fIsystemd\&.gpt_auto\fR, \fIrd\&.systemd\&.gpt_auto\fR .RS 4 Those options take an optional boolean argument, and default to yes\&. The generator is enabled by default, and a negative value may be used to disable it\&. .RE .PP \fIroot=\fR .RS 4 When used with the special value "gpt\-auto", automatic discovery of the root partition based on the GPT partition type is enabled\&. Any other value disables this generator\&. .RE .PP \fIrw\fR, \fIro\fR .RS 4 Mount the root partition read\-write or read\-only \fIinitially\fR\&. .sp Note that unlike most kernel command line options these settings do not override configuration in the file system, and the file system may be remounted later\&. See \fBsystemd-remount-fs.service\fR(8)\&. .RE .SH "SEE ALSO" .PP \fBsystemd\fR(1), \fBsystemd.mount\fR(5), \fBsystemd.swap\fR(5), \fBsystemd-fstab-generator\fR(8), \fBsystemd-cryptsetup@.service\fR(8), \fBmachine-id\fR(5), \fBcryptsetup\fR(8), \fBfstab\fR(5), \fBbtrfs\fR(8) .SH "NOTES" .IP " 1." 4 UEFI Specification .RS 4 \%https://uefi.org/specifications .RE .IP " 2." 4 Discoverable Partitions Specification .RS 4 \%https://systemd.io/DISCOVERABLE_PARTITIONS .RE .IP " 3." 4 Boot Loader Interface .RS 4 \%https://systemd.io/BOOT_LOADER_INTERFACE .RE .IP " 4." 4 Boot Loader Specification .RS 4 \%https://systemd.io/BOOT_LOADER_SPECIFICATION .RE