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- // SPDX-License-Identifier: GPL-2.0
- // Copyright (C) 2025 Google LLC.
- //! Logic for closing files in a deferred manner.
- //!
- //! This file could make sense to have in `kernel::fs`, but it was rejected for being too
- //! Binder-specific.
- use core::mem::MaybeUninit;
- use kernel::{
- alloc::{AllocError, Flags},
- bindings,
- prelude::*,
- };
- /// Helper used for closing file descriptors in a way that is safe even if the file is currently
- /// held using `fdget`.
- ///
- /// Additional motivation can be found in commit 80cd795630d6 ("binder: fix use-after-free due to
- /// ksys_close() during fdget()") and in the comments on `binder_do_fd_close`.
- pub(crate) struct DeferredFdCloser {
- inner: KBox<DeferredFdCloserInner>,
- }
- /// SAFETY: This just holds an allocation with no real content, so there's no safety issue with
- /// moving it across threads.
- unsafe impl Send for DeferredFdCloser {}
- /// SAFETY: This just holds an allocation with no real content, so there's no safety issue with
- /// moving it across threads.
- unsafe impl Sync for DeferredFdCloser {}
- /// # Invariants
- ///
- /// If the `file` pointer is non-null, then it points at a `struct file` and owns a refcount to
- /// that file.
- #[repr(C)]
- struct DeferredFdCloserInner {
- twork: MaybeUninit<bindings::callback_head>,
- file: *mut bindings::file,
- }
- impl DeferredFdCloser {
- /// Create a new [`DeferredFdCloser`].
- pub(crate) fn new(flags: Flags) -> Result<Self, AllocError> {
- Ok(Self {
- // INVARIANT: The `file` pointer is null, so the type invariant does not apply.
- inner: KBox::new(
- DeferredFdCloserInner {
- twork: MaybeUninit::uninit(),
- file: core::ptr::null_mut(),
- },
- flags,
- )?,
- })
- }
- /// Schedule a task work that closes the file descriptor when this task returns to userspace.
- ///
- /// Fails if this is called from a context where we cannot run work when returning to
- /// userspace. (E.g., from a kthread.)
- pub(crate) fn close_fd(self, fd: u32) -> Result<(), DeferredFdCloseError> {
- use bindings::task_work_notify_mode_TWA_RESUME as TWA_RESUME;
- // In this method, we schedule the task work before closing the file. This is because
- // scheduling a task work is fallible, and we need to know whether it will fail before we
- // attempt to close the file.
- // Task works are not available on kthreads.
- let current = kernel::current!();
- // Check if this is a kthread.
- // SAFETY: Reading `flags` from a task is always okay.
- if unsafe { ((*current.as_ptr()).flags & bindings::PF_KTHREAD) != 0 } {
- return Err(DeferredFdCloseError::TaskWorkUnavailable);
- }
- // Transfer ownership of the box's allocation to a raw pointer. This disables the
- // destructor, so we must manually convert it back to a KBox to drop it.
- //
- // Until we convert it back to a `KBox`, there are no aliasing requirements on this
- // pointer.
- let inner = KBox::into_raw(self.inner);
- // The `callback_head` field is first in the struct, so this cast correctly gives us a
- // pointer to the field.
- let callback_head = inner.cast::<bindings::callback_head>();
- // SAFETY: This pointer offset operation does not go out-of-bounds.
- let file_field = unsafe { core::ptr::addr_of_mut!((*inner).file) };
- let current = current.as_ptr();
- // SAFETY: This function currently has exclusive access to the `DeferredFdCloserInner`, so
- // it is okay for us to perform unsynchronized writes to its `callback_head` field.
- unsafe { bindings::init_task_work(callback_head, Some(Self::do_close_fd)) };
- // SAFETY: This inserts the `DeferredFdCloserInner` into the task workqueue for the current
- // task. If this operation is successful, then this transfers exclusive ownership of the
- // `callback_head` field to the C side until it calls `do_close_fd`, and we don't touch or
- // invalidate the field during that time.
- //
- // When the C side calls `do_close_fd`, the safety requirements of that method are
- // satisfied because when a task work is executed, the callback is given ownership of the
- // pointer.
- //
- // The file pointer is currently null. If it is changed to be non-null before `do_close_fd`
- // is called, then that change happens due to the write at the end of this function, and
- // that write has a safety comment that explains why the refcount can be dropped when
- // `do_close_fd` runs.
- let res = unsafe { bindings::task_work_add(current, callback_head, TWA_RESUME) };
- if res != 0 {
- // SAFETY: Scheduling the task work failed, so we still have ownership of the box, so
- // we may destroy it.
- unsafe { drop(KBox::from_raw(inner)) };
- return Err(DeferredFdCloseError::TaskWorkUnavailable);
- }
- // This removes the fd from the fd table in `current`. The file is not fully closed until
- // `filp_close` is called. We are given ownership of one refcount to the file.
- //
- // SAFETY: This is safe no matter what `fd` is. If the `fd` is valid (that is, if the
- // pointer is non-null), then we call `filp_close` on the returned pointer as required by
- // `file_close_fd`.
- let file = unsafe { bindings::file_close_fd(fd) };
- if file.is_null() {
- // We don't clean up the task work since that might be expensive if the task work queue
- // is long. Just let it execute and let it clean up for itself.
- return Err(DeferredFdCloseError::BadFd);
- }
- // Acquire a second refcount to the file.
- //
- // SAFETY: The `file` pointer points at a file with a non-zero refcount.
- unsafe { bindings::get_file(file) };
- // This method closes the fd, consuming one of our two refcounts. There could be active
- // light refcounts created from that fd, so we must ensure that the file has a positive
- // refcount for the duration of those active light refcounts. We do that by holding on to
- // the second refcount until the current task returns to userspace.
- //
- // SAFETY: The `file` pointer is valid. Passing `current->files` as the file table to close
- // it in is correct, since we just got the `fd` from `file_close_fd` which also uses
- // `current->files`.
- //
- // Note: fl_owner_t is currently a void pointer.
- unsafe { bindings::filp_close(file, (*current).files as bindings::fl_owner_t) };
- // We update the file pointer that the task work is supposed to fput. This transfers
- // ownership of our last refcount.
- //
- // INVARIANT: This changes the `file` field of a `DeferredFdCloserInner` from null to
- // non-null. This doesn't break the type invariant for `DeferredFdCloserInner` because we
- // still own a refcount to the file, so we can pass ownership of that refcount to the
- // `DeferredFdCloserInner`.
- //
- // When `do_close_fd` runs, it must be safe for it to `fput` the refcount. However, this is
- // the case because all light refcounts that are associated with the fd we closed
- // previously must be dropped when `do_close_fd`, since light refcounts must be dropped
- // before returning to userspace.
- //
- // SAFETY: Task works are executed on the current thread right before we return to
- // userspace, so this write is guaranteed to happen before `do_close_fd` is called, which
- // means that a race is not possible here.
- unsafe { *file_field = file };
- Ok(())
- }
- /// # Safety
- ///
- /// The provided pointer must point at the `twork` field of a `DeferredFdCloserInner` stored in
- /// a `KBox`, and the caller must pass exclusive ownership of that `KBox`. Furthermore, if the
- /// file pointer is non-null, then it must be okay to release the refcount by calling `fput`.
- unsafe extern "C" fn do_close_fd(inner: *mut bindings::callback_head) {
- // SAFETY: The caller just passed us ownership of this box.
- let inner = unsafe { KBox::from_raw(inner.cast::<DeferredFdCloserInner>()) };
- if !inner.file.is_null() {
- // SAFETY: By the type invariants, we own a refcount to this file, and the caller
- // guarantees that dropping the refcount now is okay.
- unsafe { bindings::fput(inner.file) };
- }
- // The allocation is freed when `inner` goes out of scope.
- }
- }
- /// Represents a failure to close an fd in a deferred manner.
- #[derive(Copy, Clone, Debug, Eq, PartialEq)]
- pub(crate) enum DeferredFdCloseError {
- /// Closing the fd failed because we were unable to schedule a task work.
- TaskWorkUnavailable,
- /// Closing the fd failed because the fd does not exist.
- BadFd,
- }
- impl From<DeferredFdCloseError> for Error {
- fn from(err: DeferredFdCloseError) -> Error {
- match err {
- DeferredFdCloseError::TaskWorkUnavailable => ESRCH,
- DeferredFdCloseError::BadFd => EBADF,
- }
- }
- }
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