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//! Panic support for core
//!
//! The core library cannot define panicking, but it does *declare* panicking. This
//! means that the functions inside of core are allowed to panic, but to be
//! useful an upstream crate must define panicking for core to use. The current
//! interface for panicking is:
//!
//! ```
//! fn panic_impl(pi: &core::panic::PanicInfo<'_>) -> !
//! # { loop {} }
//! ```
//!
//! This definition allows for panicking with any general message, but it does not
//! allow for failing with a `Box<Any>` value. (`PanicInfo` just contains a `&(dyn Any + Send)`,
//! for which we fill in a dummy value in `PanicInfo::internal_constructor`.)
//! The reason for this is that core is not allowed to allocate.
//!
//! This module contains a few other panicking functions, but these are just the
//! necessary lang items for the compiler. All panics are funneled through this
//! one function. The actual symbol is declared through the `#[panic_handler]` attribute.
#![allow(dead_code, missing_docs)]
#![unstable(
feature = "core_panic",
reason = "internal details of the implementation of the `panic!` and related macros",
issue = "none"
)]
use crate::fmt;
use crate::panic::{Location, PanicInfo};
#[cfg(feature = "panic_immediate_abort")]
const _: () = assert!(cfg!(panic = "abort"), "panic_immediate_abort requires -C panic=abort");
// First we define the two main entry points that all panics go through.
// In the end both are just convenience wrappers around `panic_impl`.
/// The entry point for panicking with a formatted message.
///
/// This is designed to reduce the amount of code required at the call
/// site as much as possible (so that `panic!()` has as low an impact
/// on (e.g.) the inlining of other functions as possible), by moving
/// the actual formatting into this shared place.
// If panic_immediate_abort, inline the abort call,
// otherwise avoid inlining because of it is cold path.
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never), cold)]
#[cfg_attr(feature = "panic_immediate_abort", inline)]
#[track_caller]
#[lang = "panic_fmt"] // needed for const-evaluated panics
#[rustc_do_not_const_check] // hooked by const-eval
#[rustc_const_unstable(feature = "core_panic", issue = "none")]
pub const fn panic_fmt(fmt: fmt::Arguments<'_>) -> ! {
if cfg!(feature = "panic_immediate_abort") {
super::intrinsics::abort()
}
// NOTE This function never crosses the FFI boundary; it's a Rust-to-Rust call
// that gets resolved to the `#[panic_handler]` function.
extern "Rust" {
#[lang = "panic_impl"]
fn panic_impl(pi: &PanicInfo<'_>) -> !;
}
let pi = PanicInfo::internal_constructor(Some(&fmt), Location::caller(), true);
// SAFETY: `panic_impl` is defined in safe Rust code and thus is safe to call.
unsafe { panic_impl(&pi) }
}
/// Like `panic_fmt`, but for non-unwinding panics.
///
/// Has to be a separate function so that it can carry the `rustc_nounwind` attribute.
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never), cold)]
#[cfg_attr(feature = "panic_immediate_abort", inline)]
#[track_caller]
// This attribute has the key side-effect that if the panic handler ignores `can_unwind`
// and unwinds anyway, we will hit the "unwinding out of nounwind function" guard,
// which causes a "panic in a function that cannot unwind".
#[rustc_nounwind]
pub fn panic_nounwind_fmt(fmt: fmt::Arguments<'_>) -> ! {
if cfg!(feature = "panic_immediate_abort") {
super::intrinsics::abort()
}
// NOTE This function never crosses the FFI boundary; it's a Rust-to-Rust call
// that gets resolved to the `#[panic_handler]` function.
extern "Rust" {
#[lang = "panic_impl"]
fn panic_impl(pi: &PanicInfo<'_>) -> !;
}
// PanicInfo with the `can_unwind` flag set to false forces an abort.
let pi = PanicInfo::internal_constructor(Some(&fmt), Location::caller(), false);
// SAFETY: `panic_impl` is defined in safe Rust code and thus is safe to call.
unsafe { panic_impl(&pi) }
}
// Next we define a bunch of higher-level wrappers that all bottom out in the two core functions
// above.
/// The underlying implementation of core's `panic!` macro when no formatting is used.
// never inline unless panic_immediate_abort to avoid code
// bloat at the call sites as much as possible
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never), cold)]
#[cfg_attr(feature = "panic_immediate_abort", inline)]
#[track_caller]
#[rustc_const_unstable(feature = "core_panic", issue = "none")]
#[lang = "panic"] // needed by codegen for panic on overflow and other `Assert` MIR terminators
pub const fn panic(expr: &'static str) -> ! {
// Use Arguments::new_v1 instead of format_args!("{expr}") to potentially
// reduce size overhead. The format_args! macro uses str's Display trait to
// write expr, which calls Formatter::pad, which must accommodate string
// truncation and padding (even though none is used here). Using
// Arguments::new_v1 may allow the compiler to omit Formatter::pad from the
// output binary, saving up to a few kilobytes.
panic_fmt(fmt::Arguments::new_const(&[expr]));
}
/// Like `panic`, but without unwinding and track_caller to reduce the impact on codesize.
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never), cold)]
#[cfg_attr(feature = "panic_immediate_abort", inline)]
#[lang = "panic_nounwind"] // needed by codegen for non-unwinding panics
#[rustc_nounwind]
pub fn panic_nounwind(expr: &'static str) -> ! {
panic_nounwind_fmt(fmt::Arguments::new_const(&[expr]));
}
#[inline]
#[track_caller]
#[rustc_diagnostic_item = "panic_str"]
#[rustc_const_unstable(feature = "core_panic", issue = "none")]
pub const fn panic_str(expr: &str) -> ! {
panic_display(&expr);
}
#[inline]
#[track_caller]
#[rustc_diagnostic_item = "unreachable_display"] // needed for `non-fmt-panics` lint
pub fn unreachable_display<T: fmt::Display>(x: &T) -> ! {
panic_fmt(format_args!("internal error: entered unreachable code: {}", *x));
}
#[inline]
#[track_caller]
#[lang = "panic_display"] // needed for const-evaluated panics
#[rustc_do_not_const_check] // hooked by const-eval
#[rustc_const_unstable(feature = "core_panic", issue = "none")]
pub const fn panic_display<T: fmt::Display>(x: &T) -> ! {
panic_fmt(format_args!("{}", *x));
}
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never), cold)]
#[cfg_attr(feature = "panic_immediate_abort", inline)]
#[track_caller]
#[lang = "panic_bounds_check"] // needed by codegen for panic on OOB array/slice access
fn panic_bounds_check(index: usize, len: usize) -> ! {
if cfg!(feature = "panic_immediate_abort") {
super::intrinsics::abort()
}
panic!("index out of bounds: the len is {len} but the index is {index}")
}
#[cold]
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never))]
#[track_caller]
#[lang = "panic_misaligned_pointer_dereference"] // needed by codegen for panic on misaligned pointer deref
#[rustc_nounwind] // `CheckAlignment` MIR pass requires this function to never unwind
fn panic_misaligned_pointer_dereference(required: usize, found: usize) -> ! {
if cfg!(feature = "panic_immediate_abort") {
super::intrinsics::abort()
}
panic_nounwind_fmt(format_args!(
"misaligned pointer dereference: address must be a multiple of {required:#x} but is {found:#x}"
))
}
/// Panic because we cannot unwind out of a function.
///
/// This function is called directly by the codegen backend, and must not have
/// any extra arguments (including those synthesized by track_caller).
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never), cold)]
#[cfg_attr(feature = "panic_immediate_abort", inline)]
#[lang = "panic_cannot_unwind"] // needed by codegen for panic in nounwind function
#[rustc_nounwind]
fn panic_cannot_unwind() -> ! {
panic_nounwind("panic in a function that cannot unwind")
}
/// This function is used instead of panic_fmt in const eval.
#[lang = "const_panic_fmt"]
#[rustc_const_unstable(feature = "core_panic", issue = "none")]
pub const fn const_panic_fmt(fmt: fmt::Arguments<'_>) -> ! {
if let Some(msg) = fmt.as_str() {
panic_str(msg);
} else {
// SAFETY: This is only evaluated at compile time, which reliably
// handles this UB (in case this branch turns out to be reachable
// somehow).
unsafe { crate::hint::unreachable_unchecked() };
}
}
#[derive(Debug)]
#[doc(hidden)]
pub enum AssertKind {
Eq,
Ne,
Match,
}
/// Internal function for `assert_eq!` and `assert_ne!` macros
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never), cold)]
#[cfg_attr(feature = "panic_immediate_abort", inline)]
#[track_caller]
#[doc(hidden)]
pub fn assert_failed<T, U>(
kind: AssertKind,
left: &T,
right: &U,
args: Option<fmt::Arguments<'_>>,
) -> !
where
T: fmt::Debug + ?Sized,
U: fmt::Debug + ?Sized,
{
assert_failed_inner(kind, &left, &right, args)
}
/// Internal function for `assert_match!`
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never), cold)]
#[cfg_attr(feature = "panic_immediate_abort", inline)]
#[track_caller]
#[doc(hidden)]
pub fn assert_matches_failed<T: fmt::Debug + ?Sized>(
left: &T,
right: &str,
args: Option<fmt::Arguments<'_>>,
) -> ! {
// The pattern is a string so it can be displayed directly.
struct Pattern<'a>(&'a str);
impl fmt::Debug for Pattern<'_> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.write_str(self.0)
}
}
assert_failed_inner(AssertKind::Match, &left, &Pattern(right), args);
}
/// Non-generic version of the above functions, to avoid code bloat.
#[cfg_attr(not(feature = "panic_immediate_abort"), inline(never), cold)]
#[cfg_attr(feature = "panic_immediate_abort", inline)]
#[track_caller]
fn assert_failed_inner(
kind: AssertKind,
left: &dyn fmt::Debug,
right: &dyn fmt::Debug,
args: Option<fmt::Arguments<'_>>,
) -> ! {
let op = match kind {
AssertKind::Eq => "==",
AssertKind::Ne => "!=",
AssertKind::Match => "matches",
};
match args {
Some(args) => panic!(
r#"assertion failed: `(left {} right)`
left: `{:?}`,
right: `{:?}`: {}"#,
op, left, right, args
),
None => panic!(
r#"assertion failed: `(left {} right)`
left: `{:?}`,
right: `{:?}`"#,
op, left, right,
),
}
}