Hi! I noticed something that I think does not currently cause any significant security issues, but could be problematic in the future: io_uring sometimes processes task work in the middle of syscalls, including between fdget() and fdput(). My understanding of task work is that it is expected to run in a context similar to directly at syscall entry/exit: task context, no locks held, sleeping is okay, and it doesn't execute in the middle of some syscall that expects private state of the task_struct to stay the same. An example of another user of task work is the keyring subsystem, which does task_work_add() in keyctl_session_to_parent() to change the cred pointers of another task. Several places in io_uring process task work while holding an fdget() reference to some file descriptor. For example, the io_uring_enter syscall handler calls io_iopoll_check() while the io_ring_ctx is only referenced via fdget(). This means that if there were another kernel subsystem that uses task work to close file descriptors, io_uring would become unsafe. And io_uring does _almost_ that itself, I think: io_queue_worker_create() can be run on a workqueue, and uses task work to launch a worker thread from the context of a userspace thread; and this worker thread can then accept commands to close file descriptors. Except it doesn't accept commands to close io_uring file descriptors. A closer miss might be io_sync_cancel(), which holds a reference to some normal file with fdget()/fdput() while calling into io_run_task_work_sig(). However, from what I can tell, the only things that are actually done with this file pointer are pointer comparisons, so this also shouldn't have significant security impact. Would it make sense to use fget()/fput() instead of fdget()/fdput() in io_sync_cancel(), io_uring_enter and io_uring_register? These functions probably usually run in multithreaded environments anyway (thanks to the io_uring worker threads), so I would think fdget() shouldn't bring significant performance savings here?
