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// SPDX-License-Identifier: GPL-2.0
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// Copyright (C) 2024 Google LLC.
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//! Files and file descriptors.
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//!
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//! C headers: [`include/linux/fs.h`](srctree/include/linux/fs.h) and
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//! [`include/linux/file.h`](srctree/include/linux/file.h)
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use crate::{
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    bindings,
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    cred::Credential,
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    error::{code::*, to_result, Error, Result},
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    fmt,
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    sync::aref::{ARef, AlwaysRefCounted},
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    types::{NotThreadSafe, Opaque},
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};
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use core::ptr;
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/// Flags associated with a [`File`].
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pub mod flags {
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    /// File is opened in append mode.
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    pub const O_APPEND: u32 = bindings::O_APPEND;
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    /// Signal-driven I/O is enabled.
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    pub const O_ASYNC: u32 = bindings::FASYNC;
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    /// Close-on-exec flag is set.
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    pub const O_CLOEXEC: u32 = bindings::O_CLOEXEC;
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    /// File was created if it didn't already exist.
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    pub const O_CREAT: u32 = bindings::O_CREAT;
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    /// Direct I/O is enabled for this file.
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    pub const O_DIRECT: u32 = bindings::O_DIRECT;
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    /// File must be a directory.
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    pub const O_DIRECTORY: u32 = bindings::O_DIRECTORY;
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    /// Like [`O_SYNC`] except metadata is not synced.
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    pub const O_DSYNC: u32 = bindings::O_DSYNC;
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    /// Ensure that this file is created with the `open(2)` call.
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    pub const O_EXCL: u32 = bindings::O_EXCL;
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    /// Large file size enabled (`off64_t` over `off_t`).
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    pub const O_LARGEFILE: u32 = bindings::O_LARGEFILE;
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    /// Do not update the file last access time.
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    pub const O_NOATIME: u32 = bindings::O_NOATIME;
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    /// File should not be used as process's controlling terminal.
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    pub const O_NOCTTY: u32 = bindings::O_NOCTTY;
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    /// If basename of path is a symbolic link, fail open.
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    pub const O_NOFOLLOW: u32 = bindings::O_NOFOLLOW;
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    /// File is using nonblocking I/O.
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    pub const O_NONBLOCK: u32 = bindings::O_NONBLOCK;
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    /// File is using nonblocking I/O.
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    ///
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    /// This is effectively the same flag as [`O_NONBLOCK`] on all architectures
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    /// except SPARC64.
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    pub const O_NDELAY: u32 = bindings::O_NDELAY;
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    /// Used to obtain a path file descriptor.
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    pub const O_PATH: u32 = bindings::O_PATH;
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    /// Write operations on this file will flush data and metadata.
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    pub const O_SYNC: u32 = bindings::O_SYNC;
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    /// This file is an unnamed temporary regular file.
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    pub const O_TMPFILE: u32 = bindings::O_TMPFILE;
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    /// File should be truncated to length 0.
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    pub const O_TRUNC: u32 = bindings::O_TRUNC;
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    /// Bitmask for access mode flags.
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    ///
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    /// # Examples
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    ///
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    /// ```
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    /// use kernel::fs::file;
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    /// # fn do_something() {}
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    /// # let flags = 0;
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    /// if (flags & file::flags::O_ACCMODE) == file::flags::O_RDONLY {
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    ///     do_something();
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    /// }
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    /// ```
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    pub const O_ACCMODE: u32 = bindings::O_ACCMODE;
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    /// File is read only.
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    pub const O_RDONLY: u32 = bindings::O_RDONLY;
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    /// File is write only.
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    pub const O_WRONLY: u32 = bindings::O_WRONLY;
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    /// File can be both read and written.
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    pub const O_RDWR: u32 = bindings::O_RDWR;
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}
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/// Wraps the kernel's `struct file`. Thread safe.
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///
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/// This represents an open file rather than a file on a filesystem. Processes generally reference
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/// open files using file descriptors. However, file descriptors are not the same as files. A file
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/// descriptor is just an integer that corresponds to a file, and a single file may be referenced
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/// by multiple file descriptors.
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///
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/// # Refcounting
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///
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/// Instances of this type are reference-counted. The reference count is incremented by the
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/// `fget`/`get_file` functions and decremented by `fput`. The Rust type `ARef<File>` represents a
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/// pointer that owns a reference count on the file.
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///
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/// Whenever a process opens a file descriptor (fd), it stores a pointer to the file in its fd
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/// table (`struct files_struct`). This pointer owns a reference count to the file, ensuring the
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/// file isn't prematurely deleted while the file descriptor is open. In Rust terminology, the
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/// pointers in `struct files_struct` are `ARef<File>` pointers.
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///
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/// ## Light refcounts
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///
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/// Whenever a process has an fd to a file, it may use something called a "light refcount" as a
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/// performance optimization. Light refcounts are acquired by calling `fdget` and released with
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/// `fdput`. The idea behind light refcounts is that if the fd is not closed between the calls to
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/// `fdget` and `fdput`, then the refcount cannot hit zero during that time, as the `struct
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/// files_struct` holds a reference until the fd is closed. This means that it's safe to access the
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/// file even if `fdget` does not increment the refcount.
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///
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/// The requirement that the fd is not closed during a light refcount applies globally across all
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/// threads - not just on the thread using the light refcount. For this reason, light refcounts are
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/// only used when the `struct files_struct` is not shared with other threads, since this ensures
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/// that other unrelated threads cannot suddenly start using the fd and close it. Therefore,
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/// calling `fdget` on a shared `struct files_struct` creates a normal refcount instead of a light
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/// refcount.
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///
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/// Light reference counts must be released with `fdput` before the system call returns to
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/// userspace. This means that if you wait until the current system call returns to userspace, then
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/// all light refcounts that existed at the time have gone away.
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///
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/// ### The file position
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///
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/// Each `struct file` has a position integer, which is protected by the `f_pos_lock` mutex.
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/// However, if the `struct file` is not shared, then the kernel may avoid taking the lock as a
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/// performance optimization.
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///
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/// The condition for avoiding the `f_pos_lock` mutex is different from the condition for using
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/// `fdget`. With `fdget`, you may avoid incrementing the refcount as long as the current fd table
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/// is not shared; it is okay if there are other fd tables that also reference the same `struct
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/// file`. However, `fdget_pos` can only avoid taking the `f_pos_lock` if the entire `struct file`
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/// is not shared, as different processes with an fd to the same `struct file` share the same
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/// position.
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///
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/// To represent files that are not thread safe due to this optimization, the [`LocalFile`] type is
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/// used.
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///
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/// ## Rust references
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///
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/// The reference type `&File` is similar to light refcounts:
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///
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/// * `&File` references don't own a reference count. They can only exist as long as the reference
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///   count stays positive, and can only be created when there is some mechanism in place to ensure
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///   this.
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///
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/// * The Rust borrow-checker normally ensures this by enforcing that the `ARef<File>` from which
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///   a `&File` is created outlives the `&File`.
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///
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/// * Using the unsafe [`File::from_raw_file`] means that it is up to the caller to ensure that the
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///   `&File` only exists while the reference count is positive.
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///
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/// * You can think of `fdget` as using an fd to look up an `ARef<File>` in the `struct
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///   files_struct` and create an `&File` from it. The "fd cannot be closed" rule is like the Rust
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///   rule "the `ARef<File>` must outlive the `&File`".
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///
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/// # Invariants
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///
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/// * All instances of this type are refcounted using the `f_count` field.
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/// * There must not be any active calls to `fdget_pos` on this file that did not take the
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///   `f_pos_lock` mutex.
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#[repr(transparent)]
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pub struct File {
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    inner: Opaque<bindings::file>,
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}
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// SAFETY: This file is known to not have any active `fdget_pos` calls that did not take the
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// `f_pos_lock` mutex, so it is safe to transfer it between threads.
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unsafe impl Send for File {}
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// SAFETY: This file is known to not have any active `fdget_pos` calls that did not take the
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// `f_pos_lock` mutex, so it is safe to access its methods from several threads in parallel.
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unsafe impl Sync for File {}
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// SAFETY: The type invariants guarantee that `File` is always ref-counted. This implementation
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// makes `ARef<File>` own a normal refcount.
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unsafe impl AlwaysRefCounted for File {
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    #[inline]
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    fn inc_ref(&self) {
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        // SAFETY: The existence of a shared reference means that the refcount is nonzero.
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        unsafe { bindings::get_file(self.as_ptr()) };
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    }
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    #[inline]
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    unsafe fn dec_ref(obj: ptr::NonNull<File>) {
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        // SAFETY: To call this method, the caller passes us ownership of a normal refcount, so we
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        // may drop it. The cast is okay since `File` has the same representation as `struct file`.
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        unsafe { bindings::fput(obj.cast().as_ptr()) }
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    }
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}
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/// Wraps the kernel's `struct file`. Not thread safe.
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///
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/// This type represents a file that is not known to be safe to transfer across thread boundaries.
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/// To obtain a thread-safe [`File`], use the [`assume_no_fdget_pos`] conversion.
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///
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/// See the documentation for [`File`] for more information.
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///
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/// # Invariants
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///
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/// * All instances of this type are refcounted using the `f_count` field.
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/// * If there is an active call to `fdget_pos` that did not take the `f_pos_lock` mutex, then it
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///   must be on the same thread as this file.
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///
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/// [`assume_no_fdget_pos`]: LocalFile::assume_no_fdget_pos
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#[repr(transparent)]
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pub struct LocalFile {
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    inner: Opaque<bindings::file>,
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}
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// SAFETY: The type invariants guarantee that `LocalFile` is always ref-counted. This implementation
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// makes `ARef<LocalFile>` own a normal refcount.
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unsafe impl AlwaysRefCounted for LocalFile {
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    #[inline]
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    fn inc_ref(&self) {
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        // SAFETY: The existence of a shared reference means that the refcount is nonzero.
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        unsafe { bindings::get_file(self.as_ptr()) };
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    }
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    #[inline]
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    unsafe fn dec_ref(obj: ptr::NonNull<LocalFile>) {
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        // SAFETY: To call this method, the caller passes us ownership of a normal refcount, so we
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        // may drop it. The cast is okay since `LocalFile` has the same representation as
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        // `struct file`.
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        unsafe { bindings::fput(obj.cast().as_ptr()) }
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    }
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}
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impl LocalFile {
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    /// Constructs a new `struct file` wrapper from a file descriptor.
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    ///
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    /// The file descriptor belongs to the current process, and there might be active local calls
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    /// to `fdget_pos` on the same file.
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    ///
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    /// To obtain an `ARef<File>`, use the [`assume_no_fdget_pos`] function to convert.
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    ///
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    /// [`assume_no_fdget_pos`]: LocalFile::assume_no_fdget_pos
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    #[inline]
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    pub fn fget(fd: u32) -> Result<ARef<LocalFile>, BadFdError> {
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        // SAFETY: FFI call, there are no requirements on `fd`.
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        let ptr = ptr::NonNull::new(unsafe { bindings::fget(fd) }).ok_or(BadFdError)?;
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        // SAFETY: `bindings::fget` created a refcount, and we pass ownership of it to the `ARef`.
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        //
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        // INVARIANT: This file is in the fd table on this thread, so either all `fdget_pos` calls
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        // are on this thread, or the file is shared, in which case `fdget_pos` calls took the
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        // `f_pos_lock` mutex.
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        Ok(unsafe { ARef::from_raw(ptr.cast()) })
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    }
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    /// Creates a reference to a [`LocalFile`] from a valid pointer.
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    ///
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    /// # Safety
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    ///
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    /// * The caller must ensure that `ptr` points at a valid file and that the file's refcount is
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    ///   positive for the duration of `'a`.
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    /// * The caller must ensure that if there is an active call to `fdget_pos` that did not take
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    ///   the `f_pos_lock` mutex, then that call is on the current thread.
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    #[inline]
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    pub unsafe fn from_raw_file<'a>(ptr: *const bindings::file) -> &'a LocalFile {
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        // SAFETY: The caller guarantees that the pointer is not dangling and stays valid for the
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        // duration of `'a`. The cast is okay because `LocalFile` is `repr(transparent)`.
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        //
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        // INVARIANT: The caller guarantees that there are no problematic `fdget_pos` calls.
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        unsafe { &*ptr.cast() }
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    }
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    /// Assume that there are no active `fdget_pos` calls that prevent us from sharing this file.
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    ///
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    /// This makes it safe to transfer this file to other threads. No checks are performed, and
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    /// using it incorrectly may lead to a data race on the file position if the file is shared
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    /// with another thread.
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    ///
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    /// This method is intended to be used together with [`LocalFile::fget`] when the caller knows
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    /// statically that there are no `fdget_pos` calls on the current thread. For example, you
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    /// might use it when calling `fget` from an ioctl, since ioctls usually do not touch the file
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    /// position.
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    ///
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    /// # Safety
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    ///
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    /// There must not be any active `fdget_pos` calls on the current thread.
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    #[inline]
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    pub unsafe fn assume_no_fdget_pos(me: ARef<LocalFile>) -> ARef<File> {
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        // INVARIANT: There are no `fdget_pos` calls on the current thread, and by the type
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        // invariants, if there is a `fdget_pos` call on another thread, then it took the
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        // `f_pos_lock` mutex.
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        //
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        // SAFETY: `LocalFile` and `File` have the same layout.
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        unsafe { ARef::from_raw(ARef::into_raw(me).cast()) }
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    }
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    /// Returns a raw pointer to the inner C struct.
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    #[inline]
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    pub fn as_ptr(&self) -> *mut bindings::file {
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        self.inner.get()
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    }
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    /// Returns the credentials of the task that originally opened the file.
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    pub fn cred(&self) -> &Credential {
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        // SAFETY: It's okay to read the `f_cred` field without synchronization because `f_cred` is
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        // never changed after initialization of the file.
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        let ptr = unsafe { (*self.as_ptr()).f_cred };
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        // SAFETY: The signature of this function ensures that the caller will only access the
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        // returned credential while the file is still valid, and the C side ensures that the
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        // credential stays valid at least as long as the file.
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        unsafe { Credential::from_ptr(ptr) }
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    }
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    /// Returns the flags associated with the file.
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    ///
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    /// The flags are a combination of the constants in [`flags`].
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    #[inline]
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    pub fn flags(&self) -> u32 {
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        // This `read_volatile` is intended to correspond to a READ_ONCE call.
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        //
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        // SAFETY: The file is valid because the shared reference guarantees a nonzero refcount.
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        //
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        // FIXME(read_once): Replace with `read_once` when available on the Rust side.
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        unsafe { core::ptr::addr_of!((*self.as_ptr()).f_flags).read_volatile() }
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    }
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}
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impl File {
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    /// Creates a reference to a [`File`] from a valid pointer.
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    ///
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    /// # Safety
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    ///
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    /// * The caller must ensure that `ptr` points at a valid file and that the file's refcount is
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    ///   positive for the duration of `'a`.
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    /// * The caller must ensure that if there are active `fdget_pos` calls on this file, then they
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    ///   took the `f_pos_lock` mutex.
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    #[inline]
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    pub unsafe fn from_raw_file<'a>(ptr: *const bindings::file) -> &'a File {
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        // SAFETY: The caller guarantees that the pointer is not dangling and stays valid for the
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        // duration of `'a`. The cast is okay because `File` is `repr(transparent)`.
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        //
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        // INVARIANT: The caller guarantees that there are no problematic `fdget_pos` calls.
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        unsafe { &*ptr.cast() }
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    }
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}
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// Make LocalFile methods available on File.
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impl core::ops::Deref for File {
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    type Target = LocalFile;
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    #[inline]
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    fn deref(&self) -> &LocalFile {
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        // SAFETY: The caller provides a `&File`, and since it is a reference, it must point at a
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        // valid file for the desired duration.
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        //
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        // By the type invariants, there are no `fdget_pos` calls that did not take the
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        // `f_pos_lock` mutex.
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        unsafe { LocalFile::from_raw_file(core::ptr::from_ref(self).cast()) }
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    }
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}
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/// A file descriptor reservation.
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///
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/// This allows the creation of a file descriptor in two steps: first, we reserve a slot for it,
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/// then we commit or drop the reservation. The first step may fail (e.g., the current process ran
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/// out of available slots), but commit and drop never fail (and are mutually exclusive).
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///
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/// Dropping the reservation happens in the destructor of this type.
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///
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/// # Invariants
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///
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/// The fd stored in this struct must correspond to a reserved file descriptor of the current task.
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pub struct FileDescriptorReservation {
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    fd: u32,
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    /// Prevent values of this type from being moved to a different task.
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    ///
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    /// The `fd_install` and `put_unused_fd` functions assume that the value of `current` is
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    /// unchanged since the call to `get_unused_fd_flags`. By adding this marker to this type, we
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    /// prevent it from being moved across task boundaries, which ensures that `current` does not
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    /// change while this value exists.
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    _not_send: NotThreadSafe,
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}
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impl FileDescriptorReservation {
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    /// Creates a new file descriptor reservation.
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    #[inline]
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    pub fn get_unused_fd_flags(flags: u32) -> Result<Self> {
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        // SAFETY: FFI call, there are no safety requirements on `flags`.
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        let fd: i32 = unsafe { bindings::get_unused_fd_flags(flags) };
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        to_result(fd)?;
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        Ok(Self {
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            fd: fd as u32,
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            _not_send: NotThreadSafe,
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        })
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    }
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    /// Returns the file descriptor number that was reserved.
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    #[inline]
413
    pub fn reserved_fd(&self) -> u32 {
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        self.fd
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    }
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417
    /// Commits the reservation.
418
    ///
419
    /// The previously reserved file descriptor is bound to `file`. This method consumes the
420
    /// [`FileDescriptorReservation`], so it will not be usable after this call.
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    #[inline]
422
    pub fn fd_install(self, file: ARef<File>) {
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        // SAFETY: `self.fd` was previously returned by `get_unused_fd_flags`. We have not yet used
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        // the fd, so it is still valid, and `current` still refers to the same task, as this type
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        // cannot be moved across task boundaries.
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        //
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        // Furthermore, the file pointer is guaranteed to own a refcount by its type invariants,
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        // and we take ownership of that refcount by not running the destructor below.
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        // Additionally, the file is known to not have any non-shared `fdget_pos` calls, so even if
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        // this process starts using the file position, this will not result in a data race on the
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        // file position.
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        unsafe { bindings::fd_install(self.fd, file.as_ptr()) };
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        // `fd_install` consumes both the file descriptor and the file reference, so we cannot run
435
        // the destructors.
436
        core::mem::forget(self);
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        core::mem::forget(file);
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    }
439
}
440

441
impl Drop for FileDescriptorReservation {
442
    #[inline]
443
    fn drop(&mut self) {
444
        // SAFETY: By the type invariants of this type, `self.fd` was previously returned by
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        // `get_unused_fd_flags`. We have not yet used the fd, so it is still valid, and `current`
446
        // still refers to the same task, as this type cannot be moved across task boundaries.
447
        unsafe { bindings::put_unused_fd(self.fd) };
448
    }
449
}
450

451
/// Represents the `EBADF` error code.
452
///
453
/// Used for methods that can only fail with `EBADF`.
454
#[derive(Copy, Clone, Eq, PartialEq)]
455
pub struct BadFdError;
456

457
impl From<BadFdError> for Error {
458
    #[inline]
459
    fn from(_: BadFdError) -> Error {
460
        EBADF
461
    }
462
}
463

464
impl fmt::Debug for BadFdError {
465
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
466
        f.pad("EBADF")
467
    }
468
}
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