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I wonder about an efficient way to copy files (on Linux, on a FS which supports copy-on-write (COW)). Specifically, I want that my implementation uses copy-on-write if possible, but otherwise falls back to other efficient variants. Specifically, I also care about server-side copy (supported by SMB, NFS and others), and also zero-copy (i.e. bypassing the CPU or memory if possible).

(This question is not really specific to any programming language. It could be C or C++, but also any other like Python, Go or whatever has bindings to the OS syscalls, or has any way to do a syscall. If this is confusing to you, just answer in C.)

It looks like ioctl_ficlonerange, ioctl_ficlone (i.e. ioctl with FICLONE or FICLONERANGE) support copy-on-write (COW). Specifically FICLONE is used by GNU cp (here, via --reflink).

Then there is also copy_file_range, which also seems to support COW, and server-side-copy. (LWN about copy_file_range.)

It sounds as if copy_file_range is more generic (e.g. it supports server-side-copy; not sure if that is supported by FICLONE).

However, copy_file_range seems to have some issues. E.g. here, Paul Eggert comments:

[copy_file_range]'s man page says it uses a size_t (not off_t) to count the number of bytes to be copied, which is a strange choice for a file-copying API.

Are there situations where FICLONE would work better/different than copy_file_range?

Are there situations where FICLONE would work better/different than FICLONERANGE?

Specifically, assuming the underlying FS supports this, and assume you want to copy a file. I ask about the support of these functions for the functionality of:

Are they (FICLONE, FICLONERANGE, copy_file_range) always performing exactly the same operation? (Assuming the underlying FS supports copy-on-write, and/or server-side copy.)

Or are there situations where it make sense to use copy_file_range instead of FICLONE? (E.g. COW only works with copy_file_range but not with FICLONE. Or the other way around. Or can this never happen?)

Or formulating the same question differently: Would copy_file_range always be fine, or are there situations where I would want to use FICLONE instead?

Why does GNU cp use FICLONE and not copy_file_range? (Is there a technical reason, or is this just historic?)

Related: GNU cp originally did not use reflink by default (see comment by the GNU coreutils maintainer Pádraig Brady). However, that was changed recently (this commit, bug report 24400), i.e. COW behavior is the default now (if possible) (--reflink=auto).

Related question about Python for COW support.

Related discussion about FICLONE vs copy_file_range by Python developers. I.e. this seems to be a valid question, and it's not totally clear whether to use FICLONE or copy_file_range.

Related Syncthing documentation about the choice of methods for copying data between files, and Syncthing issue about copy_file_range and others for efficient file copying, e.g. with COW support. It also suggests that it is not so clear that FICLONE would do the same as copy_file_range, so their solution is to just try all of them, and fallback to the next, in this order: ioctl (with FICLONE), copy_file_range, sendfile, duplicate_extents, standard.

Related issue by Go developers on the usage of copy_file_range. It sounds as if they agree that copy_file_range is always to be preferred over sendfile.

(Question copied from here but I don't see how this is too less focused. This question is very focused and asks a very specific thing (whether FICLONE and copy_file_range behave the same), and should be extremely clear. I formulated the question in multiple different ways, to make the question even more clear. This question is also extremely well researched, and should already be very valuable to the community as-is with all the references. I would have been very happy if I would have found such a question by itself, even without answers, when I started researching about the differences between FICLONE and copy_file_range.)

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See the Linux vfs doc about copy_file_range, remap_file_range, FICLONERANGE, FICLONE and FIDEDUPERANGE.

Then see vfs_copy_file_range. This first tries to call remap_file_range if possible.

FICLONE calls ioctl_file_clone (here), and FICLONERANGE calls ioctl_file_clone_range. ioctl_file_clone_range calls the more generic ioctl_file_clone (here). ioctl_file_clone calls vfs_clone_file_range (here). vfs_clone_file_range calls do_clone_file_range and that calls remap_file_range (here).

I.e. that answers the question. copy_file_range is more generic, and anyway tries to call remap_file_range (i.e. the same as FICLONE/FICLONERANGE) first internally.

I think the copy_file_range syscall is slightly newer than FICLONE though, i.e. it might be possible that copy_file_range is not available in your kernel but FICLONE is.

In any case, if copy_file_range is available, it should be the best solution.

The order done by Syncthing (ioctl (with FICLONE), copy_file_range, sendfile, duplicate_extents, standard) makes sense.

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