I'm thinking about ways for my application to detect a partially-written record after a program or OS crash. Since records are only ever appended to a file (never overwritten), is a crash while writing guaranteed to yield a file size that is shorter than it should be? Is this guaranteed even if the file was opened in read-write mode instead of append mode, so long as writes are always at the end of the file? This would greatly simplify crash recovery, since comparing the last record's expected size and position with the actual file size would be enough to detect a partial write.
I understand that random-access writes can be reordered by the filesystem, but I'm having trouble finding information on whether this can happen when appending. I imagine an out-of-order append would require the filesystem to create a "hole" at the tail of the (sparse) file, write blocks beyond the hole, and then fill in the blocks in between, but I'm hoping that such an approach would be so inefficient that nobody would ever implement their filesystem that way.
I suppose another problem might be a filesystem updating the directory entry's file size field before appending the new blocks to to the file, and the OS crashing in between. Does this ever happen in practice? (ext4, perhaps?) Is there a quick way to detect it? (And what happens when trying to read the unwritten blocks that should exist according to the file's size?)
Is there anything else, such as write reordering performed by a disk/flash drive, that would get in the way of using file size as a way to detect a partial append? I don't expect to be able to compensate for this sort of drive trickery in my application, but it would be good to know about.