vfs: properly and reliably lock f_pos in fdget_pos()
fdget_pos() is used by file operations that will read and update f_pos: things like "read()", "write()" and "lseek()" (but not, for example, "pread()/pwrite" that get their file positions elsewhere). However, it had two separate escape clauses for this, because not everybody wants or needs serialization of the file position. The first and most obvious case is the "file descriptor doesn't have a position at all", ie a stream-like file. Except we didn't actually use FMODE_STREAM, but instead used FMODE_ATOMIC_POS. The reason for that was that FMODE_STREAM didn't exist back in the days, but also that we didn't want to mark all the special cases, so we only marked the ones that _required_ position atomicity according to POSIX - regular files and directories. The case one was intentionally lazy, but now that we _do_ have FMODE_STREAM we could and should just use it. With the change to use FMODE_STREAM, there are no remaining uses for FMODE_ATOMIC_POS, and all the code to set it is deleted. Any cases where we don't want the serialization because the driver (or subsystem) doesn't use the file position should just be updated to do "stream_open()". We've done that for all the obvious and common situations, we may need a few more. Quoting Kirill Smelkov in the original FMODE_STREAM thread (see link below for full email): "And I appreciate if people could help at least somehow with "getting rid of mixed case entirely" (i.e. always lock f_pos_lock on !FMODE_STREAM), because this transition starts to diverge from my particular use-case too far. To me it makes sense to do that transition as follows: - convert nonseekable_open -> stream_open via stream_open.cocci; - audit other nonseekable_open calls and convert left users that truly don't depend on position to stream_open; - extend stream_open.cocci to analyze alloc_file_pseudo as well (this will cover pipes and sockets), or maybe convert pipes and sockets to FMODE_STREAM manually; - extend stream_open.cocci to analyze file_operations that use no_llseek or noop_llseek, but do not use nonseekable_open or alloc_file_pseudo. This might find files that have stream semantic but are opened differently; - extend stream_open.cocci to analyze file_operations whose .read/.write do not use ppos at all (independently of how file was opened); - ... - after that remove FMODE_ATOMIC_POS and always take f_pos_lock if !FMODE_STREAM; - gather bug reports for deadlocked read/write and convert missed cases to FMODE_STREAM, probably extending stream_open.cocci along the road to catch similar cases i.e. always take f_pos_lock unless a file is explicitly marked as being stream, and try to find and cover all files that are streams" We have not done the "extend stream_open.cocci to analyze alloc_file_pseudo" as well, but the previous commit did manually handle the case of pipes and sockets. The other case where we can avoid locking f_pos is the "this file descriptor only has a single user and it is us, and thus there is no need to lock it". The second test was correct, although a bit subtle and worth just re-iterating here. There are two kinds of other sources of references to the same file descriptor: file descriptors that have been explicitly shared across fork() or with dup(), and file tables having elevated reference counts due to threading (or explicit file sharing with clone()). The first case would have incremented the file count explicitly, and in the second case the previous __fdget() would have incremented it for us and set the FDPUT_FPUT flag. But in both cases the file count would be greater than one, so the "file_count(file) > 1" test catches both situations. Also note that if file_count is 1, that also means that no other thread can have access to the file table, so there also cannot be races with concurrent calls to dup()/fork()/clone() that would increment the file count any other way. Link: https://lore.kernel.org/linux-fsdevel/20190413184404.GA13490@deco.navytux.spb.ru Cc: Kirill Smelkov <kirr@nexedi.com> Cc: Eic Dumazet <edumazet@google.com> Cc: Al Viro <viro@zeniv.linux.org.uk> Cc: Alan Stern <stern@rowland.harvard.edu> Cc: Marco Elver <elver@google.com> Cc: Andrea Parri <parri.andrea@gmail.com> Cc: Paul McKenney <paulmck@kernel.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
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