I have a homework assignment to do in which I need state possible ways we can recover deleted files from a computer using NTFS. The assignment asks me to think of any pieces of information that may be vital for forensics. However, I don't know how NTFS saves, deletes, and overwrites files in the first place!
Here is something similar we learned in class:
In class we learned that FAT32 saves files in clusters of blocks. When we save a file, it uses up sectors in a cluster, but the file may not use all of the sectors in a cluster, or even all the space in a block.
When a file is "deleted," the file name in the directory has it's first letter changed to a sigma, and then the location of the stored file is considered unallocated (aka may be overwritten). So we can still search for this file (using certain techniques) and recover it! Even if a new file is written in that address, the new file may be smaller than the previous file. In such a case, the remnants of the previous file that was stored there remains because they were not overwritten. We can recover this as well, assuming its not fragmented.
Well, that's what we learned in class. I have to write up a similar piece for the NTFS, but I can't find a simple site that specifically explains how files are saved and deleted in NTFS in the first place. Can anyone give me a link with some valuable reading material?
Thank you very much!
EDIT: I've found the perfect site that explains exactly what I need. I will post it here for future readers: http://wiki.sleuthkit.org/index.php?title=NTFS_File_Recovery