GUID Partition Table
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GUID Partition Table (GPT) is a new style of partitioning which is part of the Unified Extensible Firmware Interface Specification, using the globally unique identifier for devices. It is different from the Master Boot Record (the more commonly used partitioning style) in many aspects and has many advantages.
To understand GPT, it is important to understand what is MBR and what are its disadvantages.
For any partitioning style, the number of partitions that can be defined is based on the total space allotted for the partition table and the space required for storing the information of a single partition.
Master Boot Record
The MBR partition table stores the partitions info in the first sector of a hard disk as follows
|Location in the HDD||Purpose of the Code|
|First 440 bytes||MBR boot code that is launched by the BIOS.|
|441-446 bytes||MBR disk signature.|
|447-510 bytes||Actual partition table with info about primary and extended partitions. (Note that logical partitions are not listed here)|
|511-512 bytes||MBR boot signature 0xAA55.|
The entire information about the primary partitions is limited to the 64 bytes allotted. To extend this, extended partitions were used. An extended partition is simply a primary partition in the MBR which acts like a container for other partitions called logical partitions. So one is limited to either 4 primary partitions, or 3 primary and 1 extended partitions with many logical partitions inside it.
Problems with MBR
- Only 4 primary partitions or 3 primary + 1 extended partitions (with arbitrary number of logical partitions within the extended partition) can be defined. If you have 3 primary + 1 extended partitions, and you have some free space outside the extended partition area, you cannot create a new partition over that free space.
- Within the extended partition, the logical partitions meta-data is stored in a linked-list structure. If one link is lost, all the logical partitions following that metadata is lost.
- MBR supports only 1 byte partition type codes which leads to many collisions.
- MBR stores partition sector information using 32-bit LBA values. This LBA length along with 512 byte sector size (more commonly used) limits the maximum addressable size of the disk to be 2 TiB. Any space beyond 2 TiB cannot be defined as a partition if MBR partitioning is used.
GUID Partition Table
GUID Partition Table (GPT) uses GUIDs (or UUIDs in linux world) to define partitions and its types, hence the name. The GPT consists of a:
|Location in the HDD||Purpose|
|First logical sector of the disk or First 512 bytes||Protective MBR - Same as a normal MBR but the 64-byte area contains a single 0xEE type Primary partition entry defined over the entire size of the disk or in case of >2 TiB, upto a partition size of 2 TiB.|
|Second logical sector of the disk or Next 512 bytes||Primary GPT Header - Contains the Unique Disk GUID, Location of the Primary Partition Table, Number of possible entries in partition table, CRC32 checksums of itself and the Primary Partition Table, Location of the Secondary (or Backup) GPT Header|
|16 KiB (by default) following the second logical sector of the disk||Primary GPT Table - 128 Partition entries (by default, can be higher), each with an entry of size 128 bytes (hence total of 16 KiB for 128 partition entries). Sector numbers are stored as 64-bit LBA and each partition has a Partition Type GUID and a Unique Partition GUID.|
|16 KiB (by default) before the last logical sector of the disk||Secondary GPT table - It is byte-for-byte identical to the Primary table. Used mainly for recovery in case the primary partition table is damaged.|
|Last logical sector of the disk or Last 512 bytes||Secondary GPT Header - Contains the Unique Disk GUID, Location of the Secondary Partition Table, Number of possible entries in the partition table, CRC32 checksums of itself and the Secondary Partition Table, Location of the Primary GPT Header. This header can be used to recover GPT info in case the primary header is corrupted.|
Advantages of GPT
- Uses GUIDs (UUIDs) to identify partition types - No collisions.
- Provides a unique disk GUID and unique partition GUID for each partition - A good filesystem-independent way of referencing partitions and disks.
- Arbitary number of partitions - depends on space allocated for the partition table (maximum of 128 partitions) - No need for extended and logical partitions.
- Uses 64-bit LBA for storing Sector numbers - maximum addressable disk size is 2 ZiB.
- Stores a backup header and partition table at the end of the disk that aids in recovery in case the primary ones are damaged.
- CRC32 checksums to detect errors and corruption of the header and partition table.
CONFIG_EFI_PARTITION option in the kernel config enables GPT support in the kernel (despite the name EFI PARTITION). This options must be built-in the kernel and not compiled as a loadable module. This option is required even if GPT disks are used only for data storage and not for booting. This option is enabled by default in Arch's and kernels in [core] repo. In case of a custom kernel enable this option by doing
All UEFI Bootloaders support GPT disks since GPT is a part of UEFI Specification and thus mandatory for UEFI boot. See UEFI_Bootloaders for more info.
- GRUB(2) requires a 2 MiB "BIOS Boot Partition" (EF02 type code in gdisk and bios_grub flag in GNU Parted) in BIOS systems to embed its
core.imgfile due to lack of post-MBR embed gap in GPT disks. Runtime GPT support in GRUB(2) is provided by the
part_gptmodule. See GRUB#GPT_specific_instructions for more information.
- Syslinux requires the
/bootpartition to be marked as "Legacy BIOS Bootable" GPT attribute (legacy_boot flag in GNU Parted) to identify the partition containing the Syslinux boot files by its MBR boot code
gptmbr.bin. See Syslinux#GUID_Partition_Table_aka_GPT for more information.
- GRUB Legacy, present in the AUR as AUR, does not support GPT disks. Fedora's heavily patched GRUB Legacy fork AUR contains GPT patches from Intel (tested in Fedora, not tested in Arch).
- LILO's GPT support has not been tested so it is unclear whether it has issues booting in GPT disks.
GPT fdisk is a set of text-mode utilities for editing GPT disks. It consists of gdisk, sgdisk and cgdisk which are equivalent to respective tools from util-linux fdisk (used for MBR disks). It is available in the [extra] repository as.
Convert from MBR to GPT
One of the best features of gdisk (and sgdisk and cgdisk too) is its ability to convert MBR and BSD disklabels to GPT without data loss. Upon conversion, all the MBR primary partitions and the logical partitions become GPT partitions with the correct partition type GUIDs and Unique partition GUIDs created for each partition.
Just open the MBR disk using gdisk and exit with "w" option to write the changes back to the disk (similar to fdisk) to convert the MBR disk to GPT. Watch out for any error and fix them before writing any change to disk because you may risk losing data. See http://www.rodsbooks.com/gdisk/mbr2gpt.html for more info. After conversion, the bootloaders will need to be reinstalled to configure them to boot from GPT.
In GNU Parted >=3.0, the
parted command-line utility does not support any filesystem related operation, and most of the FS related code has been removed from the libparted, leaving only minimal code required by external applications like gparted. The upstream recommends using the filesystem specific tools or one of the parted's GUI wrappers like gparted (which calls these external tools) for filesystem related operations.
- Wikipedia's Page on GPT and MBR
- Homepage of Rod Smith's GPT fdisk tool and its Sourceforge.net Project page - gptfdisk
- Rod Smith's page on Converting MBR to GPT and Booting OSes from GPT
- Rod Smith's page on the New Partition Type GUID for Linux data partitions
- System Rescue CD's page on GPT
- Wikipedia page on BIOS Boot Partition
- Make the most of large drives with GPT and Linux - IBM Developer Works
- Microsoft's Windows and GPT FAQ