I plan on writing software to restore deleted photos and I'm in knowledge gathering phase currently.
Based on my limited filesystem knowledge, file deletion and quick format works by cutting links to the files in file information tables or marking them as deleted (by modifying the link information or file itself). As files remain intact, file restore software can read raw bytes from the storage device, apply patterns to search for known magic header/footer bytes and "carve" out files between them.
Given this context, my questions are these:
Do filesystems differ in the way they journal, implement partition tables or do they differ in the way files are written to the disk too? I've read that scalpel is FS independant and supports FAT, NTFS, EXT family and HFS+. Are all of these filesystems similar in the way they write files to disk?
Data alignment and fragmentation - I understand that data on disk is not guaranteed to be block aligned (any other alignment issues) and can be fragmented. Any suggestions on how to counter that? It's my understanding that I'd need to find pairs of matching magic bytes for headers and footers, but given multiple files of same type they'd match for different files too?
I understand that filenames are simply labels not stored with file content, so for a deleted file most restore software randomizes names. Any possible way to retrieve original filename after the file was deleted? I plan to fallback on EXIF data (if present) for filenames of images.
What books or reading material would you recommend before attempting something like this? I've spent time looking though source code of scalpel (C and other C based tools) , hachoir (Python, rather abstract) .
 - http://hachoir.org/