library/std/src/os/unix/io/mod.rs - toolchain/rustc - Git at Google

 //! Unix-specific extensions to general I/O primitives.
 //!
 //! Just like raw pointers, raw file descriptors point to resources with
 //! dynamic lifetimes, and they can dangle if they outlive their resources
 //! or be forged if they're created from invalid values.
 //!
 //! This module provides three types for representing file descriptors,
 //! with different ownership properties: raw, borrowed, and owned, which are
 //! analogous to types used for representing pointers:
 //!
 //! | Type               | Analogous to |
 //! | ------------------ | ------------ |
 //! | [`RawFd`]          | `*const _`   |
 //! | [`BorrowedFd<'a>`] | `&'a _`      |
 //! | [`OwnedFd`]        | `Box<_>`     |
 //!
 //! Like raw pointers, `RawFd` values are primitive values. And in new code,
 //! they should be considered unsafe to do I/O on (analogous to dereferencing
 //! them). Rust did not always provide this guidance, so existing code in the
 //! Rust ecosystem often doesn't mark `RawFd` usage as unsafe. Once the
 //! `io_safety` feature is stable, libraries will be encouraged to migrate,
 //! either by adding `unsafe` to APIs that dereference `RawFd` values, or by
 //! using to `BorrowedFd` or `OwnedFd` instead.
 //!
 //! Like references, `BorrowedFd` values are tied to a lifetime, to ensure
 //! that they don't outlive the resource they point to. These are safe to
 //! use. `BorrowedFd` values may be used in APIs which provide safe access to
 //! any system call except for:
 //!  - `close`, because that would end the dynamic lifetime of the resource
 //!    without ending the lifetime of the file descriptor.
 //!  - `dup2`/`dup3`, in the second argument, because this argument is
 //!    closed and assigned a new resource, which may break the assumptions
 //!    other code using that file descriptor.
 //! This list doesn't include `mmap`, since `mmap` does do a proper borrow of
 //! its file descriptor argument. That said, `mmap` is unsafe for other
 //! reasons: it operates on raw pointers, and it can have undefined behavior if
 //! the underlying storage is mutated. Mutations may come from other processes,
 //! or from the same process if the API provides `BorrowedFd` access, since as
 //! mentioned earlier, `BorrowedFd` values may be used in APIs which provide
 //! safe access to any system call. Consequently, code using `mmap` and
 //! presenting a safe API must take full responsibility for ensuring that safe
 //! Rust code cannot evoke undefined behavior through it.
 //!
 //! Like boxes, `OwnedFd` values conceptually own the resource they point to,
 //! and free (close) it when they are dropped.
 //!
 //! [`BorrowedFd<'a>`]: crate::os::unix::io::BorrowedFd

 #![stable(feature = "rust1", since = "1.0.0")]

 mod fd;
 mod raw;

 #[unstable(feature = "io_safety", issue = "87074")]
 pub use fd::*;
 #[stable(feature = "rust1", since = "1.0.0")]
 pub use raw::*;
	//! Unix-specific extensions to general I/O primitives.
	//!
	//! Just like raw pointers, raw file descriptors point to resources with
	//! dynamic lifetimes, and they can dangle if they outlive their resources
	//! or be forged if they're created from invalid values.
	//!
	//! This module provides three types for representing file descriptors,
	//! with different ownership properties: raw, borrowed, and owned, which are
	//! analogous to types used for representing pointers:
	//!
	//! \| Type \| Analogous to \|
	//! \| ------------------ \| ------------ \|
	//! \| [`RawFd`] \| `*const _` \|
	//! \| [`BorrowedFd<'a>`] \| `&'a _` \|
	//! \| [`OwnedFd`] \| `Box<_>` \|
	//!
	//! Like raw pointers, `RawFd` values are primitive values. And in new code,
	//! they should be considered unsafe to do I/O on (analogous to dereferencing
	//! them). Rust did not always provide this guidance, so existing code in the
	//! Rust ecosystem often doesn't mark `RawFd` usage as unsafe. Once the
	//! `io_safety` feature is stable, libraries will be encouraged to migrate,
	//! either by adding `unsafe` to APIs that dereference `RawFd` values, or by
	//! using to `BorrowedFd` or `OwnedFd` instead.
	//!
	//! Like references, `BorrowedFd` values are tied to a lifetime, to ensure
	//! that they don't outlive the resource they point to. These are safe to
	//! use. `BorrowedFd` values may be used in APIs which provide safe access to
	//! any system call except for:
	//! - `close`, because that would end the dynamic lifetime of the resource
	//! without ending the lifetime of the file descriptor.
	//! - `dup2`/`dup3`, in the second argument, because this argument is
	//! closed and assigned a new resource, which may break the assumptions
	//! other code using that file descriptor.
	//! This list doesn't include `mmap`, since `mmap` does do a proper borrow of
	//! its file descriptor argument. That said, `mmap` is unsafe for other
	//! reasons: it operates on raw pointers, and it can have undefined behavior if
	//! the underlying storage is mutated. Mutations may come from other processes,
	//! or from the same process if the API provides `BorrowedFd` access, since as
	//! mentioned earlier, `BorrowedFd` values may be used in APIs which provide
	//! safe access to any system call. Consequently, code using `mmap` and
	//! presenting a safe API must take full responsibility for ensuring that safe
	//! Rust code cannot evoke undefined behavior through it.
	//!
	//! Like boxes, `OwnedFd` values conceptually own the resource they point to,
	//! and free (close) it when they are dropped.
	//!
	//! [`BorrowedFd<'a>`]: crate::os::unix::io::BorrowedFd

	#![stable(feature = "rust1", since = "1.0.0")]

	mod fd;
	mod raw;

	#[unstable(feature = "io_safety", issue = "87074")]
	pub use fd::*;
	#[stable(feature = "rust1", since = "1.0.0")]
	pub use raw::*;