zero.rst (1703B)
1======= 2dm-zero 3======= 4 5Device-Mapper's "zero" target provides a block-device that always returns 6zero'd data on reads and silently drops writes. This is similar behavior to 7/dev/zero, but as a block-device instead of a character-device. 8 9Dm-zero has no target-specific parameters. 10 11One very interesting use of dm-zero is for creating "sparse" devices in 12conjunction with dm-snapshot. A sparse device reports a device-size larger 13than the amount of actual storage space available for that device. A user can 14write data anywhere within the sparse device and read it back like a normal 15device. Reads to previously unwritten areas will return a zero'd buffer. When 16enough data has been written to fill up the actual storage space, the sparse 17device is deactivated. This can be very useful for testing device and 18filesystem limitations. 19 20To create a sparse device, start by creating a dm-zero device that's the 21desired size of the sparse device. For this example, we'll assume a 10TB 22sparse device:: 23 24 TEN_TERABYTES=`expr 10 \* 1024 \* 1024 \* 1024 \* 2` # 10 TB in sectors 25 echo "0 $TEN_TERABYTES zero" | dmsetup create zero1 26 27Then create a snapshot of the zero device, using any available block-device as 28the COW device. The size of the COW device will determine the amount of real 29space available to the sparse device. For this example, we'll assume /dev/sdb1 30is an available 10GB partition:: 31 32 echo "0 $TEN_TERABYTES snapshot /dev/mapper/zero1 /dev/sdb1 p 128" | \ 33 dmsetup create sparse1 34 35This will create a 10TB sparse device called /dev/mapper/sparse1 that has 3610GB of actual storage space available. If more than 10GB of data is written 37to this device, it will start returning I/O errors.