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rust/src/libstd/lib.rs
bors 1fa54ad968 Auto merge of #73441 - alexcrichton:backtrace-gimli, r=Mark-Simulacrum 
std: Switch from libbacktrace to gimli

This commit is a proof-of-concept for switching the standard library's
backtrace symbolication mechanism on most platforms from libbacktrace to
gimli. The standard library's support for `RUST_BACKTRACE=1` requires
in-process parsing of object files and DWARF debug information to
interpret it and print the filename/line number of stack frames as part
of a backtrace.

Historically this support in the standard library has come from a
library called "libbacktrace". The libbacktrace library seems to have
been extracted from gcc at some point and is written in C. We've had a
lot of issues with libbacktrace over time, unfortunately, though. The
library does not appear to be actively maintained since we've had
patches sit for months-to-years without comments. We have discovered a
good number of soundness issues with the library itself, both when
parsing valid DWARF as well as invalid DWARF. This is enough of an issue
that the libs team has previously decided that we cannot feed untrusted
inputs to libbacktrace. This also doesn't take into account the
portability of libbacktrace which has been difficult to manage and
maintain over time. While possible there are lots of exceptions and it's
the main C dependency of the standard library right now.

For years it's been the desire to switch over to a Rust-based solution
for symbolicating backtraces. It's been assumed that we'll be using the
Gimli family of crates for this purpose, which are targeted at safely
and efficiently parsing DWARF debug information. I've been working
recently to shore up the Gimli support in the `backtrace` crate. As of a
few weeks ago the `backtrace` crate, by default, uses Gimli when loaded
from crates.io. This transition has gone well enough that I figured it
was time to start talking seriously about this change to the standard
library.

This commit is a preview of what's probably the best way to integrate
the `backtrace` crate into the standard library with the Gimli feature
turned on. While today it's used as a crates.io dependency, this commit
switches the `backtrace` crate to a submodule of this repository which
will need to be updated manually. This is not done lightly, but is
thought to be the best solution. The primary reason for this is that the
`backtrace` crate needs to do some pretty nontrivial filesystem
interactions to locate debug information. Working without `std::fs` is
not an option, and while it might be possible to do some sort of
trait-based solution when prototyped it was found to be too unergonomic.
Using a submodule allows the `backtrace` crate to build as a submodule
of the `std` crate itself, enabling it to use `std::fs` and such.

Otherwise this adds new dependencies to the standard library. This step
requires extra attention because this means that these crates are now
going to be included with all Rust programs by default. It's important
to note, however, that we're already shipping libbacktrace with all Rust
programs by default and it has a bunch of C code implementing all of
this internally anyway, so we're basically already switching
already-shipping functionality to Rust from C.

* `object` - this crate is used to parse object file headers and
  contents. Very low-level support is used from this crate and almost
  all of it is disabled. Largely we're just using struct definitions as
  well as convenience methods internally to read bytes and such.

* `addr2line` - this is the main meat of the implementation for
  symbolication. This crate depends on `gimli` for DWARF parsing and
  then provides interfaces needed by the `backtrace` crate to turn an
  address into a filename / line number. This crate is actually pretty
  small (fits in a single file almost!) and mirrors most of what
  `dwarf.c` does for libbacktrace.

* `miniz_oxide` - the libbacktrace crate transparently handles
  compressed debug information which is compressed with zlib. This crate
  is used to decompress compressed debug sections.

* `gimli` - not actually used directly, but a dependency of `addr2line`.

* `adler32`- not used directly either, but a dependency of
  `miniz_oxide`.

The goal of this change is to improve the safety of backtrace
symbolication in the standard library, especially in the face of
possibly malformed DWARF debug information. Even to this day we're still
seeing segfaults in libbacktrace which could possibly become security
vulnerabilities. This change should almost entirely eliminate this
possibility whilc also paving the way forward to adding more features
like split debug information.

Some references for those interested are:

* Original addition of libbacktrace - #12602
* OOM with libbacktrace - #24231
* Backtrace failure due to use of uninitialized value - #28447
* Possibility to feed untrusted data to libbacktrace - #21889
* Soundness fix for libbacktrace - #33729
* Crash in libbacktrace - #39468
* Support for macOS, never merged - ianlancetaylor/libbacktrace#2
* Performance issues with libbacktrace - #29293, #37477
* Update procedure is quite complicated due to how many patches we
  need to carry - #50955
* Libbacktrace doesn't work on MinGW with dynamic libs - #71060
* Segfault in libbacktrace on macOS - #71397

Switching to Rust will not make us immune to all of these issues. The
crashes are expected to go away, but correctness and performance may
still have bugs arise. The gimli and `backtrace` crates, however, are
actively maintained unlike libbacktrace, so this should enable us to at
least efficiently apply fixes as situations come up.

---

I want to note that my purpose for creating a PR here is to start a conversation about this. I think that all the various pieces are in place that this is compelling enough that I think this transition should be talked about seriously. There are a number of items which still need to be addressed before actually merging this PR, however:

* [ ] `gimli` needs to be published to crates.io
* [ ] `addr2line` needs a publish
* [ ] `miniz_oxide` needs a publish
* [ ] Tests probably shouldn't recommend the `gimli` crate's traits for implementing
* [ ] The `backtrace` crate's branch changes need to be merged to the master branch (https://github.com/rust-lang/backtrace-rs/pull/349)
* [ ] The support for `libbacktrace` on some platforms needs to be audited to see if we should support more strategies in the gimli implementation - https://github.com/rust-lang/backtrace-rs/issues/325, https://github.com/rust-lang/backtrace-rs/issues/326, https://github.com/rust-lang/backtrace-rs/issues/350, https://github.com/rust-lang/backtrace-rs/issues/351

Most of the merging/publishing I'm not actively pushing on right now. It's a bit wonky for crates to support libstd so I'm holding off on pulling the trigger everywhere until there's a bit more discussion about how to go through with this. Namely https://github.com/rust-lang/backtrace-rs/pull/349 I'm going to hold off merging until we decide to go through with the submodule strategy.

In any case this is a pretty major change, so I suspect that the compiler team is likely going to be interested in this. I don't mean to force changes by dumping a bunch of code by any means. Integration of external crates into the standard library is so difficult I wanted to have a proof-of-concept to review while talking about whether to do this at all (hence the PR), but I'm more than happy to follow any processes needed to merge this. I must admit though that I'm not entirely sure myself at this time what the process would be to decide to merge this, so I'm hoping others can help me figure that out!
2020-07-18 16:08:23 +00:00

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//! # The Rust Standard Library
//!
//! The Rust Standard Library is the foundation of portable Rust software, a
//! set of minimal and battle-tested shared abstractions for the [broader Rust
//! ecosystem][crates.io]. It offers core types, like [`Vec<T>`] and
//! [`Option<T>`], library-defined [operations on language
//! primitives](#primitives), [standard macros](#macros), [I/O] and
//! [multithreading], among [many other things][other].
//!
//! `std` is available to all Rust crates by default. Therefore, the
//! standard library can be accessed in [`use`] statements through the path
//! `std`, as in [`use std::env`].
//!
//! # How to read this documentation
//!
//! If you already know the name of what you are looking for, the fastest way to
//! find it is to use the <a href="#" onclick="focusSearchBar();">search
//! bar</a> at the top of the page.
//!
//! Otherwise, you may want to jump to one of these useful sections:
//!
//! * [`std::*` modules](#modules)
//! * [Primitive types](#primitives)
//! * [Standard macros](#macros)
//! * [The Rust Prelude](prelude/index.html)
//!
//! If this is your first time, the documentation for the standard library is
//! written to be casually perused. Clicking on interesting things should
//! generally lead you to interesting places. Still, there are important bits
//! you don't want to miss, so read on for a tour of the standard library and
//! its documentation!
//!
//! Once you are familiar with the contents of the standard library you may
//! begin to find the verbosity of the prose distracting. At this stage in your
//! development you may want to press the `[-]` button near the top of the
//! page to collapse it into a more skimmable view.
//!
//! While you are looking at that `[-]` button also notice the `[src]`
//! button. Rust's API documentation comes with the source code and you are
//! encouraged to read it. The standard library source is generally high
//! quality and a peek behind the curtains is often enlightening.
//!
//! # What is in the standard library documentation?
//!
//! First of all, The Rust Standard Library is divided into a number of focused
//! modules, [all listed further down this page](#modules). These modules are
//! the bedrock upon which all of Rust is forged, and they have mighty names
//! like [`std::slice`] and [`std::cmp`]. Modules' documentation typically
//! includes an overview of the module along with examples, and are a smart
//! place to start familiarizing yourself with the library.
//!
//! Second, implicit methods on [primitive types] are documented here. This can
//! be a source of confusion for two reasons:
//!
//! 1. While primitives are implemented by the compiler, the standard library
//! implements methods directly on the primitive types (and it is the only
//! library that does so), which are [documented in the section on
//! primitives](#primitives).
//! 2. The standard library exports many modules *with the same name as
//! primitive types*. These define additional items related to the primitive
//! type, but not the all-important methods.
//!
//! So for example there is a [page for the primitive type
//! `i32`](primitive.i32.html) that lists all the methods that can be called on
//! 32-bit integers (very useful), and there is a [page for the module
//! `std::i32`](i32/index.html) that documents the constant values [`MIN`] and
//! [`MAX`](i32/constant.MAX.html) (rarely useful).
//!
//! Note the documentation for the primitives [`str`] and [`[T]`][slice] (also
//! called 'slice'). Many method calls on [`String`] and [`Vec<T>`] are actually
//! calls to methods on [`str`] and [`[T]`][slice] respectively, via [deref
//! coercions][deref-coercions].
//!
//! Third, the standard library defines [The Rust Prelude], a small collection
//! of items - mostly traits - that are imported into every module of every
//! crate. The traits in the prelude are pervasive, making the prelude
//! documentation a good entry point to learning about the library.
//!
//! And finally, the standard library exports a number of standard macros, and
//! [lists them on this page](#macros) (technically, not all of the standard
//! macros are defined by the standard library - some are defined by the
//! compiler - but they are documented here the same). Like the prelude, the
//! standard macros are imported by default into all crates.
//!
//! # Contributing changes to the documentation
//!
//! Check out the rust contribution guidelines [here](
//! https://rustc-dev-guide.rust-lang.org/getting-started.html).
//! The source for this documentation can be found on
//! [GitHub](https://github.com/rust-lang/rust).
//! To contribute changes, make sure you read the guidelines first, then submit
//! pull-requests for your suggested changes.
//!
//! Contributions are appreciated! If you see a part of the docs that can be
//! improved, submit a PR, or chat with us first on [Discord][rust-discord]
//! #docs.
//!
//! # A Tour of The Rust Standard Library
//!
//! The rest of this crate documentation is dedicated to pointing out notable
//! features of The Rust Standard Library.
//!
//! ## Containers and collections
//!
//! The [`option`] and [`result`] modules define optional and error-handling
//! types, [`Option<T>`] and [`Result<T, E>`]. The [`iter`] module defines
//! Rust's iterator trait, [`Iterator`], which works with the [`for`] loop to
//! access collections.
//!
//! The standard library exposes three common ways to deal with contiguous
//! regions of memory:
//!
//! * [`Vec<T>`] - A heap-allocated *vector* that is resizable at runtime.
//! * [`[T; n]`][array] - An inline *array* with a fixed size at compile time.
//! * [`[T]`][slice] - A dynamically sized *slice* into any other kind of contiguous
//! storage, whether heap-allocated or not.
//!
//! Slices can only be handled through some kind of *pointer*, and as such come
//! in many flavors such as:
//!
//! * `&[T]` - *shared slice*
//! * `&mut [T]` - *mutable slice*
//! * [`Box<[T]>`][owned slice] - *owned slice*
//!
//! [`str`], a UTF-8 string slice, is a primitive type, and the standard library
//! defines many methods for it. Rust [`str`]s are typically accessed as
//! immutable references: `&str`. Use the owned [`String`] for building and
//! mutating strings.
//!
//! For converting to strings use the [`format!`] macro, and for converting from
//! strings use the [`FromStr`] trait.
//!
//! Data may be shared by placing it in a reference-counted box or the [`Rc`]
//! type, and if further contained in a [`Cell`] or [`RefCell`], may be mutated
//! as well as shared. Likewise, in a concurrent setting it is common to pair an
//! atomically-reference-counted box, [`Arc`], with a [`Mutex`] to get the same
//! effect.
//!
//! The [`collections`] module defines maps, sets, linked lists and other
//! typical collection types, including the common [`HashMap<K, V>`].
//!
//! ## Platform abstractions and I/O
//!
//! Besides basic data types, the standard library is largely concerned with
//! abstracting over differences in common platforms, most notably Windows and
//! Unix derivatives.
//!
//! Common types of I/O, including [files], [TCP], [UDP], are defined in the
//! [`io`], [`fs`], and [`net`] modules.
//!
//! The [`thread`] module contains Rust's threading abstractions. [`sync`]
//! contains further primitive shared memory types, including [`atomic`] and
//! [`mpsc`], which contains the channel types for message passing.
//!
//! [I/O]: io/index.html
//! [`MIN`]: i32/constant.MIN.html
//! [TCP]: net/struct.TcpStream.html
//! [The Rust Prelude]: prelude/index.html
//! [UDP]: net/struct.UdpSocket.html
//! [`Arc`]: sync/struct.Arc.html
//! [owned slice]: boxed/index.html
//! [`Cell`]: cell/struct.Cell.html
//! [`FromStr`]: str/trait.FromStr.html
//! [`HashMap<K, V>`]: collections/struct.HashMap.html
//! [`Iterator`]: iter/trait.Iterator.html
//! [`Mutex`]: sync/struct.Mutex.html
//! [`Option<T>`]: option/enum.Option.html
//! [`Rc`]: rc/struct.Rc.html
//! [`RefCell`]: cell/struct.RefCell.html
//! [`Result<T, E>`]: result/enum.Result.html
//! [`String`]: string/struct.String.html
//! [`Vec<T>`]: vec/struct.Vec.html
//! [array]: primitive.array.html
//! [slice]: primitive.slice.html
//! [`atomic`]: sync/atomic/index.html
//! [`collections`]: collections/index.html
//! [`for`]: ../book/ch03-05-control-flow.html#looping-through-a-collection-with-for
//! [`format!`]: macro.format.html
//! [`fs`]: fs/index.html
//! [`io`]: io/index.html
//! [`iter`]: iter/index.html
//! [`mpsc`]: sync/mpsc/index.html
//! [`net`]: net/index.html
//! [`option`]: option/index.html
//! [`result`]: result/index.html
//! [`std::cmp`]: cmp/index.html
//! [`std::slice`]: slice/index.html
//! [`str`]: primitive.str.html
//! [`sync`]: sync/index.html
//! [`thread`]: thread/index.html
//! [`use std::env`]: env/index.html
//! [`use`]: ../book/ch07-02-defining-modules-to-control-scope-and-privacy.html
//! [crates.io]: https://crates.io
//! [deref-coercions]: ../book/ch15-02-deref.html#implicit-deref-coercions-with-functions-and-methods
//! [files]: fs/struct.File.html
//! [multithreading]: thread/index.html
//! [other]: #what-is-in-the-standard-library-documentation
//! [primitive types]: ../book/ch03-02-data-types.html
//! [rust-discord]: https://discord.gg/rust-lang
#![cfg_attr(not(feature = "restricted-std"), stable(feature = "rust1", since = "1.0.0"))]
#![cfg_attr(feature = "restricted-std", unstable(feature = "restricted_std", issue = "none"))]
#![doc(
html_root_url = "https://doc.rust-lang.org/nightly/",
html_playground_url = "https://play.rust-lang.org/",
issue_tracker_base_url = "https://github.com/rust-lang/rust/issues/",
test(no_crate_inject, attr(deny(warnings))),
test(attr(allow(dead_code, deprecated, unused_variables, unused_mut)))
)]
// Don't link to std. We are std.
#![no_std]
#![warn(deprecated_in_future)]
#![warn(missing_docs)]
#![warn(missing_debug_implementations)]
#![deny(intra_doc_link_resolution_failure)] // rustdoc is run without -D warnings
#![allow(explicit_outlives_requirements)]
#![allow(unused_lifetimes)]
// Tell the compiler to link to either panic_abort or panic_unwind
#![needs_panic_runtime]
// std may use features in a platform-specific way
#![allow(unused_features)]
#![cfg_attr(test, feature(print_internals, set_stdio, update_panic_count))]
#![cfg_attr(
all(target_vendor = "fortanix", target_env = "sgx"),
feature(slice_index_methods, coerce_unsized, sgx_platform, ptr_wrapping_offset_from)
)]
#![cfg_attr(
all(test, target_vendor = "fortanix", target_env = "sgx"),
feature(fixed_size_array, maybe_uninit_extra)
)]
// std is implemented with unstable features, many of which are internal
// compiler details that will never be stable
// NB: the following list is sorted to minimize merge conflicts.
#![feature(alloc_error_handler)]
#![feature(alloc_layout_extra)]
#![feature(allocator_api)]
#![feature(allocator_internals)]
#![feature(allow_internal_unsafe)]
#![feature(allow_internal_unstable)]
#![feature(arbitrary_self_types)]
#![feature(array_error_internals)]
#![feature(asm)]
#![feature(associated_type_bounds)]
#![feature(atomic_mut_ptr)]
#![feature(box_syntax)]
#![feature(c_variadic)]
#![feature(can_vector)]
#![feature(cfg_accessible)]
#![feature(cfg_target_has_atomic)]
#![feature(cfg_target_thread_local)]
#![feature(char_error_internals)]
#![feature(char_internals)]
#![feature(clamp)]
#![feature(concat_idents)]
#![feature(const_cstr_unchecked)]
#![feature(const_raw_ptr_deref)]
#![feature(container_error_extra)]
#![feature(core_intrinsics)]
#![feature(custom_test_frameworks)]
#![feature(decl_macro)]
#![feature(doc_alias)]
#![feature(doc_cfg)]
#![feature(doc_keyword)]
#![feature(doc_masked)]
#![cfg_attr(not(bootstrap), feature(doc_spotlight))]
#![feature(dropck_eyepatch)]
#![feature(duration_constants)]
#![feature(exact_size_is_empty)]
#![feature(exhaustive_patterns)]
#![feature(extend_one)]
#![feature(external_doc)]
#![feature(fn_traits)]
#![feature(format_args_nl)]
#![feature(future_readiness_fns)]
#![feature(gen_future)]
#![feature(generator_trait)]
#![feature(global_asm)]
#![feature(hash_raw_entry)]
#![feature(hashmap_internals)]
#![feature(int_error_internals)]
#![feature(int_error_matching)]
#![feature(integer_atomics)]
#![feature(into_future)]
#![feature(lang_items)]
#![feature(libc)]
#![feature(link_args)]
#![feature(linkage)]
#![feature(llvm_asm)]
#![feature(log_syntax)]
#![feature(maybe_uninit_extra)]
#![feature(maybe_uninit_ref)]
#![feature(maybe_uninit_slice)]
#![feature(min_specialization)]
#![feature(needs_panic_runtime)]
#![feature(negative_impls)]
#![feature(never_type)]
#![feature(nll)]
#![feature(once_cell)]
#![feature(optin_builtin_traits)]
#![feature(or_patterns)]
#![feature(panic_info_message)]
#![feature(panic_internals)]
#![feature(panic_unwind)]
#![feature(prelude_import)]
#![feature(ptr_internals)]
#![feature(raw)]
#![feature(raw_ref_macros)]
#![feature(renamed_spin_loop)]
#![feature(rustc_attrs)]
#![feature(rustc_private)]
#![feature(shrink_to)]
#![feature(slice_concat_ext)]
#![feature(slice_internals)]
#![feature(slice_strip)]
#![feature(staged_api)]
#![feature(std_internals)]
#![feature(stdsimd)]
#![feature(stmt_expr_attributes)]
#![feature(str_internals)]
#![feature(test)]
#![feature(thread_local)]
#![feature(toowned_clone_into)]
#![feature(total_cmp)]
#![feature(trace_macros)]
#![feature(try_reserve)]
#![feature(unboxed_closures)]
#![feature(unsafe_block_in_unsafe_fn)]
#![feature(untagged_unions)]
#![feature(unwind_attributes)]
#![feature(vec_into_raw_parts)]
#![feature(wake_trait)]
// NB: the above list is sorted to minimize merge conflicts.
#![default_lib_allocator]
// Explicitly import the prelude. The compiler uses this same unstable attribute
// to import the prelude implicitly when building crates that depend on std.
#[prelude_import]
#[allow(unused)]
use prelude::v1::*;
// Access to Bencher, etc.
#[cfg(test)]
extern crate test;
#[allow(unused_imports)] // macros from `alloc` are not used on all platforms
#[macro_use]
extern crate alloc as alloc_crate;
#[doc(masked)]
#[allow(unused_extern_crates)]
extern crate libc;
// We always need an unwinder currently for backtraces
#[doc(masked)]
#[allow(unused_extern_crates)]
extern crate unwind;
// During testing, this crate is not actually the "real" std library, but rather
// it links to the real std library, which was compiled from this same source
// code. So any lang items std defines are conditionally excluded (or else they
// would generate duplicate lang item errors), and any globals it defines are
// _not_ the globals used by "real" std. So this import, defined only during
// testing gives test-std access to real-std lang items and globals. See #2912
#[cfg(test)]
extern crate std as realstd;
// The standard macros that are not built-in to the compiler.
#[macro_use]
mod macros;
// The Rust prelude
pub mod prelude;
// Public module declarations and re-exports
#[stable(feature = "rust1", since = "1.0.0")]
pub use alloc_crate::borrow;
#[stable(feature = "rust1", since = "1.0.0")]
pub use alloc_crate::boxed;
#[stable(feature = "rust1", since = "1.0.0")]
pub use alloc_crate::fmt;
#[stable(feature = "rust1", since = "1.0.0")]
pub use alloc_crate::format;
#[stable(feature = "rust1", since = "1.0.0")]
pub use alloc_crate::rc;
#[stable(feature = "rust1", since = "1.0.0")]
pub use alloc_crate::slice;
#[stable(feature = "rust1", since = "1.0.0")]
pub use alloc_crate::str;
#[stable(feature = "rust1", since = "1.0.0")]
pub use alloc_crate::string;
#[stable(feature = "rust1", since = "1.0.0")]
pub use alloc_crate::vec;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::any;
#[stable(feature = "simd_arch", since = "1.27.0")]
#[doc(no_inline)]
pub use core::arch;
#[stable(feature = "core_array", since = "1.36.0")]
pub use core::array;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::cell;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::char;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::clone;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::cmp;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::convert;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::default;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::hash;
#[stable(feature = "core_hint", since = "1.27.0")]
pub use core::hint;
#[stable(feature = "i128", since = "1.26.0")]
pub use core::i128;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::i16;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::i32;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::i64;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::i8;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::intrinsics;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::isize;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::iter;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::marker;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::mem;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::ops;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::option;
#[stable(feature = "pin", since = "1.33.0")]
pub use core::pin;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::ptr;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::raw;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::result;
#[stable(feature = "i128", since = "1.26.0")]
pub use core::u128;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::u16;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::u32;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::u64;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::u8;
#[stable(feature = "rust1", since = "1.0.0")]
pub use core::usize;
pub mod f32;
pub mod f64;
#[macro_use]
pub mod thread;
pub mod ascii;
pub mod backtrace;
pub mod collections;
pub mod env;
pub mod error;
pub mod ffi;
pub mod fs;
pub mod io;
pub mod net;
pub mod num;
pub mod os;
pub mod panic;
pub mod path;
pub mod process;
pub mod sync;
pub mod time;
#[unstable(feature = "once_cell", issue = "74465")]
pub mod lazy;
#[stable(feature = "futures_api", since = "1.36.0")]
pub mod task {
//! Types and Traits for working with asynchronous tasks.
#[doc(inline)]
#[stable(feature = "futures_api", since = "1.36.0")]
pub use core::task::*;
#[doc(inline)]
#[unstable(feature = "wake_trait", issue = "69912")]
pub use alloc::task::*;
}
#[stable(feature = "futures_api", since = "1.36.0")]
pub mod future;
// Platform-abstraction modules
#[macro_use]
mod sys_common;
mod sys;
pub mod alloc;
// Private support modules
mod memchr;
mod panicking;
// The runtime entry point and a few unstable public functions used by the
// compiler
pub mod rt;
#[path = "../backtrace/src/lib.rs"]
#[allow(dead_code, unused_attributes)]
mod backtrace_rs;
// Pull in the `std_detect` crate directly into libstd. The contents of
// `std_detect` are in a different repository: rust-lang/stdarch.
//
// `std_detect` depends on libstd, but the contents of this module are
// set up in such a way that directly pulling it here works such that the
// crate uses the this crate as its libstd.
#[path = "../stdarch/crates/std_detect/src/mod.rs"]
#[allow(missing_debug_implementations, missing_docs, dead_code)]
#[unstable(feature = "stdsimd", issue = "48556")]
#[cfg(not(test))]
mod std_detect;
#[doc(hidden)]
#[unstable(feature = "stdsimd", issue = "48556")]
#[cfg(not(test))]
pub use std_detect::detect;
// Re-export macros defined in libcore.
#[stable(feature = "rust1", since = "1.0.0")]
#[allow(deprecated, deprecated_in_future)]
pub use core::{
assert_eq, assert_ne, debug_assert, debug_assert_eq, debug_assert_ne, matches, r#try, todo,
unimplemented, unreachable, write, writeln,
};
// Re-export built-in macros defined through libcore.
#[stable(feature = "builtin_macro_prelude", since = "1.38.0")]
#[allow(deprecated)]
pub use core::{
asm, assert, cfg, column, compile_error, concat, concat_idents, env, file, format_args,
format_args_nl, global_asm, include, include_bytes, include_str, line, llvm_asm, log_syntax,
module_path, option_env, stringify, trace_macros,
};
#[stable(feature = "core_primitive", since = "1.43.0")]
pub use core::primitive;
// Include a number of private modules that exist solely to provide
// the rustdoc documentation for primitive types. Using `include!`
// because rustdoc only looks for these modules at the crate level.
include!("primitive_docs.rs");
// Include a number of private modules that exist solely to provide
// the rustdoc documentation for the existing keywords. Using `include!`
// because rustdoc only looks for these modules at the crate level.
include!("keyword_docs.rs");
// This is required to avoid an unstable error when `restricted-std` is not
// enabled. The use of #![feature(restricted_std)] in rustc-std-workspace-std
// is unconditional, so the unstable feature needs to be defined somewhere.
#[cfg_attr(not(feature = "restricted-std"), unstable(feature = "restricted_std", issue = "none"))]
mod __restricted_std_workaround {}
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