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Difference between revisions of "RDB"

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== Introduction ==
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The Rigid Disk Block (RDB) is the Amiga way to store information about mass storage geometries and partitioning. Compared to the old, but still widely in used PC standard Master Boot Record (MBR) its a flexible structure with a linked list for the partitions.
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It is also able to store complete filesystem binaries and boot code, tough this is not used on AmigaOS 4 anymore.
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=== Limits ===
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It can store as much partitions as can fit in the reserved area for the RDB. There is no distinction between primary and logical partitions like in the Master Boot Record (MBR) standard for the PC platform.
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==== Disk size ====
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The RDB has a quite high limit on the maximum device size, but note that currently each filesystem interprets the partition layout by itself.
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The raw limit on the maximum device capacity is about 2^105 bytes:
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32 bit rdb_Cylinders * 32 bit rdb_Heads * 32 bit rdb_Sectors * 512 bytes/sector for the HD size in struct RigidDiskBlock
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It's even much more if the sector size (rdb_BlockBytes and de_SizeBlock) is larger than 512 bytes, but AmigaOS 4.1 doesn't support anything but 512 bytes/sector HDs yet.
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==== Partition size ====
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For the partitions the maximum size is:
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32 bit (de_HighCyl + 1 - de_LowCyl) (to get the partition size) * 32 bit de_Surfaces * 32 bit de_SectorsPerTrack * 512 bytes/sector in struct DosEnvec (=pb_Environment[]) in struct PartitionBlock.
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That's from the physical drive part, the actual disk size limit for the partitions may be much smaller depending on the partitioning software, if it's only using the logical sizes instead, which is likely the case, it's only 8 ZiB with 512 bytes/sector: 32 bit rdb_HiCylinder * 32 bit rdb_CylBlocks * 512 bytes/sector = 2^73 bytes. For using the logical sizes using simple uint64 calculations
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(with some overflow checks) should be enough, for more a math library with support for larger integers needs to be used which probably no partitioning software does.
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But note: Nothing in struct RigiDiskBlock is used by the file systems for mounting the partitions, they only get the information from the struct PartitionBlock blocks, it's only a problem for the partitioning software creating the partitions correctly - as soon as there are HDs larger than 8 ZB while still using 512 bytes/sector if that ever happens.

Revision as of 21:06, 18 June 2012

Introduction

The Rigid Disk Block (RDB) is the Amiga way to store information about mass storage geometries and partitioning. Compared to the old, but still widely in used PC standard Master Boot Record (MBR) its a flexible structure with a linked list for the partitions.

It is also able to store complete filesystem binaries and boot code, tough this is not used on AmigaOS 4 anymore.

Limits

It can store as much partitions as can fit in the reserved area for the RDB. There is no distinction between primary and logical partitions like in the Master Boot Record (MBR) standard for the PC platform.

Disk size

The RDB has a quite high limit on the maximum device size, but note that currently each filesystem interprets the partition layout by itself.

The raw limit on the maximum device capacity is about 2^105 bytes:

32 bit rdb_Cylinders * 32 bit rdb_Heads * 32 bit rdb_Sectors * 512 bytes/sector for the HD size in struct RigidDiskBlock

It's even much more if the sector size (rdb_BlockBytes and de_SizeBlock) is larger than 512 bytes, but AmigaOS 4.1 doesn't support anything but 512 bytes/sector HDs yet.

Partition size

For the partitions the maximum size is:

32 bit (de_HighCyl + 1 - de_LowCyl) (to get the partition size) * 32 bit de_Surfaces * 32 bit de_SectorsPerTrack * 512 bytes/sector in struct DosEnvec (=pb_Environment[]) in struct PartitionBlock.

That's from the physical drive part, the actual disk size limit for the partitions may be much smaller depending on the partitioning software, if it's only using the logical sizes instead, which is likely the case, it's only 8 ZiB with 512 bytes/sector: 32 bit rdb_HiCylinder * 32 bit rdb_CylBlocks * 512 bytes/sector = 2^73 bytes. For using the logical sizes using simple uint64 calculations (with some overflow checks) should be enough, for more a math library with support for larger integers needs to be used which probably no partitioning software does.

But note: Nothing in struct RigiDiskBlock is used by the file systems for mounting the partitions, they only get the information from the struct PartitionBlock blocks, it's only a problem for the partitioning software creating the partitions correctly - as soon as there are HDs larger than 8 ZB while still using 512 bytes/sector if that ever happens.