vendor/rustix-0.37.6/src/runtime.rs - toolchain/rustc - Git at Google

 //! Low-level implementation details for libc-like runtime libraries such as
 //! [origin].
 //!
 //! These functions are for implementing thread-local storage (TLS), managing
 //! threads, loaded libraries, and other process-wide resources. Most of
 //! `rustix` doesn't care about what other libraries are linked into the
 //! program or what they're doing, but the features in this module generally
 //! can only be used by one entity within a process.
 //!
 //! The API for these functions is not stable, and this module is
 //! `doc(hidden)`.
 //!
 //! [origin]: https://github.com/sunfishcode/mustang/tree/main/origin
 //!
 //! # Safety
 //!
 //! This module is intended to be used for implementing a runtime library such
 //! as libc. Use of these features for any other purpose is likely to create
 //! serious problems.
 #![allow(unsafe_code)]

 use crate::backend;
 #[cfg(linux_raw)]
 use crate::ffi::CStr;
 #[cfg(linux_raw)]
 #[cfg(feature = "fs")]
 use crate::fs::AtFlags;
 #[cfg(linux_raw)]
 use crate::io;
 #[cfg(linux_raw)]
 use crate::process::Pid;
 #[cfg(linux_raw)]
 #[cfg(feature = "fs")]
 use backend::fd::AsFd;
 #[cfg(linux_raw)]
 use core::ffi::c_void;

 #[cfg(linux_raw)]
 #[cfg(target_arch = "x86")]
 #[inline]
 pub unsafe fn set_thread_area(u_info: &mut UserDesc) -> io::Result<()> {
     backend::runtime::syscalls::tls::set_thread_area(u_info)
 }

 #[cfg(linux_raw)]
 #[cfg(target_arch = "arm")]
 #[inline]
 pub unsafe fn arm_set_tls(data: *mut c_void) -> io::Result<()> {
     backend::runtime::syscalls::tls::arm_set_tls(data)
 }

 #[cfg(linux_raw)]
 #[cfg(target_arch = "x86_64")]
 #[inline]
 pub unsafe fn set_fs(data: *mut c_void) {
     backend::runtime::syscalls::tls::set_fs(data)
 }

 #[cfg(linux_raw)]
 #[inline]
 pub unsafe fn set_tid_address(data: *mut c_void) -> Pid {
     backend::runtime::syscalls::tls::set_tid_address(data)
 }

 /// `prctl(PR_SET_NAME, name)`
 ///
 /// # References
 ///  - [Linux]
 ///
 /// # Safety
 ///
 /// This is a very low-level feature for implementing threading libraries.
 /// See the references links above.
 ///
 /// [Linux]: https://man7.org/linux/man-pages/man2/prctl.2.html
 #[cfg(linux_raw)]
 #[inline]
 pub unsafe fn set_thread_name(name: &CStr) -> io::Result<()> {
     backend::runtime::syscalls::tls::set_thread_name(name)
 }

 #[cfg(linux_raw)]
 #[cfg(target_arch = "x86")]
 pub use backend::runtime::tls::UserDesc;

 /// `syscall(SYS_exit, status)`—Exit the current thread.
 ///
 /// # Safety
 ///
 /// This is a very low-level feature for implementing threading libraries.
 #[cfg(linux_raw)]
 #[inline]
 pub unsafe fn exit_thread(status: i32) -> ! {
     backend::runtime::syscalls::tls::exit_thread(status)
 }

 /// Exit all the threads in the current process' thread group.
 ///
 /// This is equivalent to `_exit` and `_Exit` in libc.
 ///
 /// This does not all any `__cxa_atexit`, `atexit`, or any other destructors.
 /// Most programs should use [`std::process::exit`] instead of calling this
 /// directly.
 ///
 /// # References
 ///  - [POSIX `_Exit`]
 ///  - [Linux `exit_group`]
 ///  - [Linux `_Exit`]
 ///
 /// [POSIX `_Exit`]: https://pubs.opengroup.org/onlinepubs/9699919799/functions/_Exit.html
 /// [Linux `exit_group`]: https://man7.org/linux/man-pages/man2/exit_group.2.html
 /// [Linux `_Exit`]: https://man7.org/linux/man-pages/man2/exit.2.html
 #[doc(alias = "_exit")]
 #[doc(alias = "_Exit")]
 #[inline]
 pub fn exit_group(status: i32) -> ! {
     backend::process::syscalls::exit_group(status)
 }

 /// Return fields from the main executable segment headers ("phdrs") relevant
 /// to initializing TLS provided to the program at startup.
 #[cfg(linux_raw)]
 #[inline]
 pub fn startup_tls_info() -> StartupTlsInfo {
     backend::runtime::tls::startup_tls_info()
 }

 /// `(getauxval(AT_PHDR), getauxval(AT_PHNUM))`—Returns the address and
 /// number of ELF segment headers for the main executable.
 ///
 /// # References
 ///  - [Linux]
 ///
 /// [Linux]: https://man7.org/linux/man-pages/man3/getauxval.3.html
 #[cfg(linux_raw)]
 #[cfg(any(target_os = "android", target_os = "linux"))]
 #[inline]
 pub fn exe_phdrs() -> (*const c_void, usize) {
     backend::param::auxv::exe_phdrs()
 }

 #[cfg(linux_raw)]
 pub use backend::runtime::tls::StartupTlsInfo;

 /// `fork()`—Creates a new process by duplicating the calling process.
 ///
 /// On success, the pid of the child process is returned in the parent, and
 /// `None` is returned in the child.
 ///
 /// Unlike its POSIX and libc counterparts, this `fork` does not invoke any
 /// handlers (such as those registered with `pthread_atfork`).
 ///
 /// The program environment in the child after a `fork` and before an `execve`
 /// is very special. All code that executes in this environment must avoid:
 ///
 ///  - Acquiring any other locks that are held in other threads on the parent
 ///    at the time of the `fork`, as the child only contains one thread, and
 ///    attempting to acquire such locks will deadlock (though this is [not
 ///    considered unsafe]).
 ///
 ///  - Performing any dynamic allocation using the global allocator, since
 ///    global allocators may use locks to ensure thread safety, and their locks
 ///    may not be released in the child process, so attempts to allocate may
 ///    deadlock (as described in the previous point).
 ///
 ///  - Accessing any external state which the parent assumes it has exclusive
 ///    access to, such as a file protected by a file lock, as this could
 ///    corrupt the external state.
 ///
 ///  - Accessing any random-number-generator state inherited from the parent,
 ///    as the parent may have the same state and generate the same random
 ///    numbers, which may violate security invariants.
 ///
 ///  - Accessing any thread runtime state, since this function does not update
 ///    the thread id in the thread runtime, so thread runtime functions could
 ///    cause undefined behavior.
 ///
 ///  - Accessing any memory shared with the parent, such as a [`MAP_SHARED`]
 ///    mapping, even with anonymous or [`memfd_create`] mappings, as this could
 ///    cause undefined behavior.
 ///
 ///  - Calling any C function which isn't known to be [async-signal-safe], as
 ///    that could cause undefined behavior. The extent to which this also
 ///    applies to Rust functions is unclear at this time.
 ///
 /// # Safety
 ///
 /// The child must avoid accessing any memory shared with the parent in a
 /// way that invokes undefined behavior. It must avoid accessing any threading
 /// runtime functions in a way that invokes undefined behavior. And it must
 /// avoid invoking any undefined behavior through any function that is not
 /// guaranteed to be async-signal-safe.
 ///
 /// # References
 ///  - [POSIX]
 ///  - [Linux]
 ///
 /// # Literary interlude
 ///
 /// > Do not jump on ancient uncles.
 /// > Do not yell at average mice.
 /// > Do not wear a broom to breakfast.
 /// > Do not ask a snake’s advice.
 /// > Do not bathe in chocolate pudding.
 /// > Do not talk to bearded bears.
 /// > Do not smoke cigars on sofas.
 /// > Do not dance on velvet chairs.
 /// > Do not take a whale to visit
 /// > Russell’s mother’s cousin’s yacht.
 /// > And whatever else you do do
 /// > It is better you
 /// > Do not.
 ///
 /// - "Rules", by Karla Kuskin
 ///
 /// [`MAP_SHARED`]: https://pubs.opengroup.org/onlinepubs/9699919799/functions/mmap.html
 /// [not considered unsafe]: https://doc.rust-lang.org/reference/behavior-not-considered-unsafe.html#deadlocks
 /// [`memfd_create`]: https://man7.org/linux/man-pages/man2/memfd_create.2.html
 /// [POSIX]: https://pubs.opengroup.org/onlinepubs/9699919799/functions/fork.html
 /// [Linux]: https://man7.org/linux/man-pages/man2/fork.2.html
 /// [async-signal-safe]: https://pubs.opengroup.org/onlinepubs/9699919799/functions/V2_chap02.html#tag_15_04_03
 #[cfg(linux_raw)]
 pub unsafe fn fork() -> io::Result<Option<Pid>> {
     backend::runtime::syscalls::fork()
 }

 /// `execveat(dirfd, path.as_c_str(), argv, envp, flags)`—Execute a new
 /// command using the current process.
 ///
 /// # Safety
 ///
 /// The `argv` and `envp` pointers must point to NUL-terminated arrays, and
 /// their contents must be pointers to NUL-terminated byte arrays.
 ///
 /// # References
 ///  - [Linux]
 ///
 /// [Linux]: https://man7.org/linux/man-pages/man2/execveat.2.html
 #[cfg(linux_raw)]
 #[inline]
 #[cfg(feature = "fs")]
 #[cfg_attr(doc_cfg, doc(cfg(feature = "fs")))]
 pub unsafe fn execveat<Fd: AsFd>(
     dirfd: Fd,
     path: &CStr,
     argv: *const *const u8,
     envp: *const *const u8,
     flags: AtFlags,
 ) -> io::Errno {
     backend::runtime::syscalls::execveat(dirfd.as_fd(), path, argv, envp, flags)
 }

 /// `execve(path.as_c_str(), argv, envp)`—Execute a new command using the
 /// current process.
 ///
 /// # Safety
 ///
 /// The `argv` and `envp` pointers must point to NUL-terminated arrays, and
 /// their contents must be pointers to NUL-terminated byte arrays.
 ///
 /// # References
 ///  - [Linux]
 ///
 /// [Linux]: https://man7.org/linux/man-pages/man2/execve.2.html
 #[cfg(linux_raw)]
 #[inline]
 pub unsafe fn execve(path: &CStr, argv: *const *const u8, envp: *const *const u8) -> io::Errno {
     backend::runtime::syscalls::execve(path, argv, envp)
 }
	//! Low-level implementation details for libc-like runtime libraries such as
	//! [origin].
	//!
	//! These functions are for implementing thread-local storage (TLS), managing
	//! threads, loaded libraries, and other process-wide resources. Most of
	//! `rustix` doesn't care about what other libraries are linked into the
	//! program or what they're doing, but the features in this module generally
	//! can only be used by one entity within a process.
	//!
	//! The API for these functions is not stable, and this module is
	//! `doc(hidden)`.
	//!
	//! [origin]: https://github.com/sunfishcode/mustang/tree/main/origin
	//!
	//! # Safety
	//!
	//! This module is intended to be used for implementing a runtime library such
	//! as libc. Use of these features for any other purpose is likely to create
	//! serious problems.
	#![allow(unsafe_code)]

	use crate::backend;
	#[cfg(linux_raw)]
	use crate::ffi::CStr;
	#[cfg(linux_raw)]
	#[cfg(feature = "fs")]
	use crate::fs::AtFlags;
	#[cfg(linux_raw)]
	use crate::io;
	#[cfg(linux_raw)]
	use crate::process::Pid;
	#[cfg(linux_raw)]
	#[cfg(feature = "fs")]
	use backend::fd::AsFd;
	#[cfg(linux_raw)]
	use core::ffi::c_void;

	#[cfg(linux_raw)]
	#[cfg(target_arch = "x86")]
	#[inline]
	pub unsafe fn set_thread_area(u_info: &mut UserDesc) -> io::Result<()> {
	backend::runtime::syscalls::tls::set_thread_area(u_info)
	}

	#[cfg(linux_raw)]
	#[cfg(target_arch = "arm")]
	#[inline]
	pub unsafe fn arm_set_tls(data: *mut c_void) -> io::Result<()> {
	backend::runtime::syscalls::tls::arm_set_tls(data)
	}

	#[cfg(linux_raw)]
	#[cfg(target_arch = "x86_64")]
	#[inline]
	pub unsafe fn set_fs(data: *mut c_void) {
	backend::runtime::syscalls::tls::set_fs(data)
	}

	#[cfg(linux_raw)]
	#[inline]
	pub unsafe fn set_tid_address(data: *mut c_void) -> Pid {
	backend::runtime::syscalls::tls::set_tid_address(data)
	}

	/// `prctl(PR_SET_NAME, name)`
	///
	/// # References
	/// - [Linux]
	///
	/// # Safety
	///
	/// This is a very low-level feature for implementing threading libraries.
	/// See the references links above.
	///
	/// [Linux]: https://man7.org/linux/man-pages/man2/prctl.2.html
	#[cfg(linux_raw)]
	#[inline]
	pub unsafe fn set_thread_name(name: &CStr) -> io::Result<()> {
	backend::runtime::syscalls::tls::set_thread_name(name)
	}

	#[cfg(linux_raw)]
	#[cfg(target_arch = "x86")]
	pub use backend::runtime::tls::UserDesc;

	/// `syscall(SYS_exit, status)`—Exit the current thread.
	///
	/// # Safety
	///
	/// This is a very low-level feature for implementing threading libraries.
	#[cfg(linux_raw)]
	#[inline]
	pub unsafe fn exit_thread(status: i32) -> ! {
	backend::runtime::syscalls::tls::exit_thread(status)
	}

	/// Exit all the threads in the current process' thread group.
	///
	/// This is equivalent to `_exit` and `_Exit` in libc.
	///
	/// This does not all any `__cxa_atexit`, `atexit`, or any other destructors.
	/// Most programs should use [`std::process::exit`] instead of calling this
	/// directly.
	///
	/// # References
	/// - [POSIX `_Exit`]
	/// - [Linux `exit_group`]
	/// - [Linux `_Exit`]
	///
	/// [POSIX `_Exit`]: https://pubs.opengroup.org/onlinepubs/9699919799/functions/_Exit.html
	/// [Linux `exit_group`]: https://man7.org/linux/man-pages/man2/exit_group.2.html
	/// [Linux `_Exit`]: https://man7.org/linux/man-pages/man2/exit.2.html
	#[doc(alias = "_exit")]
	#[doc(alias = "_Exit")]
	#[inline]
	pub fn exit_group(status: i32) -> ! {
	backend::process::syscalls::exit_group(status)
	}

	/// Return fields from the main executable segment headers ("phdrs") relevant
	/// to initializing TLS provided to the program at startup.
	#[cfg(linux_raw)]
	#[inline]
	pub fn startup_tls_info() -> StartupTlsInfo {
	backend::runtime::tls::startup_tls_info()
	}

	/// `(getauxval(AT_PHDR), getauxval(AT_PHNUM))`—Returns the address and
	/// number of ELF segment headers for the main executable.
	///
	/// # References
	/// - [Linux]
	///
	/// [Linux]: https://man7.org/linux/man-pages/man3/getauxval.3.html
	#[cfg(linux_raw)]
	#[cfg(any(target_os = "android", target_os = "linux"))]
	#[inline]
	pub fn exe_phdrs() -> (*const c_void, usize) {
	backend::param::auxv::exe_phdrs()
	}

	#[cfg(linux_raw)]
	pub use backend::runtime::tls::StartupTlsInfo;

	/// `fork()`—Creates a new process by duplicating the calling process.
	///
	/// On success, the pid of the child process is returned in the parent, and
	/// `None` is returned in the child.
	///
	/// Unlike its POSIX and libc counterparts, this `fork` does not invoke any
	/// handlers (such as those registered with `pthread_atfork`).
	///
	/// The program environment in the child after a `fork` and before an `execve`
	/// is very special. All code that executes in this environment must avoid:
	///
	/// - Acquiring any other locks that are held in other threads on the parent
	/// at the time of the `fork`, as the child only contains one thread, and
	/// attempting to acquire such locks will deadlock (though this is [not
	/// considered unsafe]).
	///
	/// - Performing any dynamic allocation using the global allocator, since
	/// global allocators may use locks to ensure thread safety, and their locks
	/// may not be released in the child process, so attempts to allocate may
	/// deadlock (as described in the previous point).
	///
	/// - Accessing any external state which the parent assumes it has exclusive
	/// access to, such as a file protected by a file lock, as this could
	/// corrupt the external state.
	///
	/// - Accessing any random-number-generator state inherited from the parent,
	/// as the parent may have the same state and generate the same random
	/// numbers, which may violate security invariants.
	///
	/// - Accessing any thread runtime state, since this function does not update
	/// the thread id in the thread runtime, so thread runtime functions could
	/// cause undefined behavior.
	///
	/// - Accessing any memory shared with the parent, such as a [`MAP_SHARED`]
	/// mapping, even with anonymous or [`memfd_create`] mappings, as this could
	/// cause undefined behavior.
	///
	/// - Calling any C function which isn't known to be [async-signal-safe], as
	/// that could cause undefined behavior. The extent to which this also
	/// applies to Rust functions is unclear at this time.
	///
	/// # Safety
	///
	/// The child must avoid accessing any memory shared with the parent in a
	/// way that invokes undefined behavior. It must avoid accessing any threading
	/// runtime functions in a way that invokes undefined behavior. And it must
	/// avoid invoking any undefined behavior through any function that is not
	/// guaranteed to be async-signal-safe.
	///
	/// # References
	/// - [POSIX]
	/// - [Linux]
	///
	/// # Literary interlude
	///
	/// > Do not jump on ancient uncles.
	/// > Do not yell at average mice.
	/// > Do not wear a broom to breakfast.
	/// > Do not ask a snake’s advice.
	/// > Do not bathe in chocolate pudding.
	/// > Do not talk to bearded bears.
	/// > Do not smoke cigars on sofas.
	/// > Do not dance on velvet chairs.
	/// > Do not take a whale to visit
	/// > Russell’s mother’s cousin’s yacht.
	/// > And whatever else you do do
	/// > It is better you
	/// > Do not.
	///
	/// - "Rules", by Karla Kuskin
	///
	/// [`MAP_SHARED`]: https://pubs.opengroup.org/onlinepubs/9699919799/functions/mmap.html
	/// [not considered unsafe]: https://doc.rust-lang.org/reference/behavior-not-considered-unsafe.html#deadlocks
	/// [`memfd_create`]: https://man7.org/linux/man-pages/man2/memfd_create.2.html
	/// [POSIX]: https://pubs.opengroup.org/onlinepubs/9699919799/functions/fork.html
	/// [Linux]: https://man7.org/linux/man-pages/man2/fork.2.html
	/// [async-signal-safe]: https://pubs.opengroup.org/onlinepubs/9699919799/functions/V2_chap02.html#tag_15_04_03
	#[cfg(linux_raw)]
	pub unsafe fn fork() -> io::Result<Option<Pid>> {
	backend::runtime::syscalls::fork()
	}

	/// `execveat(dirfd, path.as_c_str(), argv, envp, flags)`—Execute a new
	/// command using the current process.
	///
	/// # Safety
	///
	/// The `argv` and `envp` pointers must point to NUL-terminated arrays, and
	/// their contents must be pointers to NUL-terminated byte arrays.
	///
	/// # References
	/// - [Linux]
	///
	/// [Linux]: https://man7.org/linux/man-pages/man2/execveat.2.html
	#[cfg(linux_raw)]
	#[inline]
	#[cfg(feature = "fs")]
	#[cfg_attr(doc_cfg, doc(cfg(feature = "fs")))]
	pub unsafe fn execveat<Fd: AsFd>(
	dirfd: Fd,
	path: &CStr,
	argv: const const u8,
	envp: const const u8,
	flags: AtFlags,
	) -> io::Errno {
	backend::runtime::syscalls::execveat(dirfd.as_fd(), path, argv, envp, flags)
	}

	/// `execve(path.as_c_str(), argv, envp)`—Execute a new command using the
	/// current process.
	///
	/// # Safety
	///
	/// The `argv` and `envp` pointers must point to NUL-terminated arrays, and
	/// their contents must be pointers to NUL-terminated byte arrays.
	///
	/// # References
	/// - [Linux]
	///
	/// [Linux]: https://man7.org/linux/man-pages/man2/execve.2.html
	#[cfg(linux_raw)]
	#[inline]
	pub unsafe fn execve(path: &CStr, argv: const const u8, envp: const const u8) -> io::Errno {
	backend::runtime::syscalls::execve(path, argv, envp)
	}