Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have doubts regarding Disk Sector and Block . A sector is a unit normally 512 bytes or 1k, 2k, 4k ect.. depends on hardware. Filesystem block size is group of sector size.

Suppose I am storing a file which is 5KB, how this will be written onto disk if a sector is 512 bytes and block is 4KB?

4KB of that File is written into one block and another 1KB of file is written into antoher 4KB Block. Now 3KB of that second Block is unusable.

Will it be usable in future or will it be wasted? If I write the 10 5KB file to disk, 30KB of size will be wasted, or this 30KB is used in disk usage?

share|improve this question
add comment

2 Answers

First thing to note, is that the block size is almost always larger than your sector size


To determine your sector size run the following command

root@ubuntu:~# fdisk -l | grep -E "Sector size"
Sector size (logical/physical): 512 bytes / 512 bytes

Sector size will almost always be either 512 bytes or 4096 bytes, depending on when you purchased your drive


To determine your block size, run the following command

root@ubuntu:~# blockdev --getbsz /dev/sda
4096

The block size will often be 4096 on most modern OSes. You can change this if desired


Any files that do not completely fill a block, will result in wasted space. This is normal and expected.

http://linux.die.net/man/8/blockdev

http://serverfault.com/questions/29887/how-do-i-determine-the-block-size-of-an-ext3-partition-on-linux

http://www.linuxforums.org/forum/miscellaneous/5654-linux-disk-block-size-help-please.html

share|improve this answer
add comment

Its a well established fact that files are stored on disk in multiples of "block" size.

File-size ~ Linux

File-size on disk ~ Linux

File size vs. File-size on disk ~ Windows

The concept of a block began as a simple way for physical sectors on disk to be represented logically in the filesystem. Each sector had its own header, data area and ECC which made it the smallest piece of disk that could be independently represented logically.

As time went by, with the advent of caches on the HDD controller it became easier to have logical blocks which were of the size of multiple physical sectors. This way on-disk sequential I/O increased resulting in better throughput.

Today, a block is the smallest piece of disk-space available. Typically files are stored using 1 or more block(s) on disk.

Files stored in blocks on disk

For each file, the leftover space(if any) in the last block is used whenever changes are made to the file and it "grows", requiring additional disk-space to store the newly added content.

Additional space requirement(beyond what the free space in the current last block can accommodate) is satisfied by requesting additional blocks on the disk and logically linking the new set of blocks to continue following the current last block of the file. File A illustrates the above scenario.

Advantage of allocating blocks in advance is that fragmentation is reduced. Consider the alternative where there is no concept of blocks on disk and disk-space is allocated as required i.e the amount of disk space allocated is exactly the file size.

In such a setup, each time even a single character is added to the file, one would need to :

  • Allocate additional memory (1 more character).
  • Setup a link between the area containing the initial area of the file and this new byte.

All this meta-data i.e. additional formation about the "links" requires disk-space too. This constitutes a fixed overhead for each such "link" and hence its imperative that such "links" be kept to a minimal number. The concept of allocating disk size in "blocks" limits the overhead to a pre-determined amount.

Guaranteed number of files on disk = Raw disk-space / block-size

Also such random seeking reduces throughput as repositioning the disk head is the most time-consuming task involved in disk I/O. Frequent random seeking is also likely to wear out the disk faster (remember dancing HDDs?) and must be avoided as much as possible.


Further advantages of this approach :

1. Faster reads

Using blocks, disk reads are sequential upto the block size. Less seeks = higher read throughput.

2. Faster Writes

Blocks provide a simple implementation that can be mapped to pages which results in higher write throughput as well.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.