// Copyright 2014 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! Implementation of various bits and pieces of the `panic!` macro and //! associated runtime pieces. //! //! Specifically, this module contains the implementation of: //! //! * Panic hooks //! * Executing a panic up to doing the actual implementation //! * Shims around "try" use core::panic::BoxMeUp; use io::prelude::*; use any::Any; use cell::RefCell; use core::panic::{PanicInfo, Location}; use fmt; use intrinsics; use mem; use ptr; use raw; use sys::stdio::{Stderr, stderr_prints_nothing}; use sys_common::rwlock::RWLock; use sys_common::thread_info; use sys_common::util; use thread; thread_local! { pub static LOCAL_STDERR: RefCell>> = { RefCell::new(None) } } // Binary interface to the panic runtime that the standard library depends on. // // The standard library is tagged with `#![needs_panic_runtime]` (introduced in // RFC 1513) to indicate that it requires some other crate tagged with // `#![panic_runtime]` to exist somewhere. Each panic runtime is intended to // implement these symbols (with the same signatures) so we can get matched up // to them. // // One day this may look a little less ad-hoc with the compiler helping out to // hook up these functions, but it is not this day! #[allow(improper_ctypes)] extern { fn __rust_maybe_catch_panic(f: fn(*mut u8), data: *mut u8, data_ptr: *mut usize, vtable_ptr: *mut usize) -> u32; #[unwind(allowed)] fn __rust_start_panic(payload: usize) -> u32; } #[derive(Copy, Clone)] enum Hook { Default, Custom(*mut (dyn Fn(&PanicInfo) + 'static + Sync + Send)), } static HOOK_LOCK: RWLock = RWLock::new(); static mut HOOK: Hook = Hook::Default; /// Registers a custom panic hook, replacing any that was previously registered. /// /// The panic hook is invoked when a thread panics, but before the panic runtime /// is invoked. As such, the hook will run with both the aborting and unwinding /// runtimes. The default hook prints a message to standard error and generates /// a backtrace if requested, but this behavior can be customized with the /// `set_hook` and [`take_hook`] functions. /// /// [`take_hook`]: ./fn.take_hook.html /// /// The hook is provided with a `PanicInfo` struct which contains information /// about the origin of the panic, including the payload passed to `panic!` and /// the source code location from which the panic originated. /// /// The panic hook is a global resource. /// /// # Panics /// /// Panics if called from a panicking thread. /// /// # Examples /// /// The following will print "Custom panic hook": /// /// ```should_panic /// use std::panic; /// /// panic::set_hook(Box::new(|_| { /// println!("Custom panic hook"); /// })); /// /// panic!("Normal panic"); /// ``` #[stable(feature = "panic_hooks", since = "1.10.0")] pub fn set_hook(hook: Box) { if thread::panicking() { panic!("cannot modify the panic hook from a panicking thread"); } unsafe { HOOK_LOCK.write(); let old_hook = HOOK; HOOK = Hook::Custom(Box::into_raw(hook)); HOOK_LOCK.write_unlock(); if let Hook::Custom(ptr) = old_hook { Box::from_raw(ptr); } } } /// Unregisters the current panic hook, returning it. /// /// *See also the function [`set_hook`].* /// /// [`set_hook`]: ./fn.set_hook.html /// /// If no custom hook is registered, the default hook will be returned. /// /// # Panics /// /// Panics if called from a panicking thread. /// /// # Examples /// /// The following will print "Normal panic": /// /// ```should_panic /// use std::panic; /// /// panic::set_hook(Box::new(|_| { /// println!("Custom panic hook"); /// })); /// /// let _ = panic::take_hook(); /// /// panic!("Normal panic"); /// ``` #[stable(feature = "panic_hooks", since = "1.10.0")] pub fn take_hook() -> Box { if thread::panicking() { panic!("cannot modify the panic hook from a panicking thread"); } unsafe { HOOK_LOCK.write(); let hook = HOOK; HOOK = Hook::Default; HOOK_LOCK.write_unlock(); match hook { Hook::Default => Box::new(default_hook), Hook::Custom(ptr) => Box::from_raw(ptr), } } } fn default_hook(info: &PanicInfo) { #[cfg(feature = "backtrace")] use sys_common::backtrace; // If this is a double panic, make sure that we print a backtrace // for this panic. Otherwise only print it if logging is enabled. #[cfg(feature = "backtrace")] let log_backtrace = { let panics = update_panic_count(0); if panics >= 2 { Some(backtrace::PrintFormat::Full) } else { backtrace::log_enabled() } }; let location = info.location().unwrap(); // The current implementation always returns Some let msg = match info.payload().downcast_ref::<&'static str>() { Some(s) => *s, None => match info.payload().downcast_ref::() { Some(s) => &s[..], None => "Box", } }; let mut err = Stderr::new().ok(); let thread = thread_info::current_thread(); let name = thread.as_ref().and_then(|t| t.name()).unwrap_or(""); let write = |err: &mut dyn (::io::Write)| { let _ = writeln!(err, "thread '{}' panicked at '{}', {}", name, msg, location); #[cfg(feature = "backtrace")] { use sync::atomic::{AtomicBool, Ordering}; static FIRST_PANIC: AtomicBool = AtomicBool::new(true); if let Some(format) = log_backtrace { let _ = backtrace::print(err, format); } else if FIRST_PANIC.compare_and_swap(true, false, Ordering::SeqCst) { let _ = writeln!(err, "note: Run with `RUST_BACKTRACE=1` for a backtrace."); } } }; let prev = LOCAL_STDERR.with(|s| s.borrow_mut().take()); match (prev, err.as_mut()) { (Some(mut stderr), _) => { write(&mut *stderr); let mut s = Some(stderr); LOCAL_STDERR.with(|slot| { *slot.borrow_mut() = s.take(); }); } (None, Some(ref mut err)) => { write(err) } _ => {} } } #[cfg(not(test))] #[doc(hidden)] #[unstable(feature = "update_panic_count", issue = "0")] pub fn update_panic_count(amt: isize) -> usize { use cell::Cell; thread_local! { static PANIC_COUNT: Cell = Cell::new(0) } PANIC_COUNT.with(|c| { let next = (c.get() as isize + amt) as usize; c.set(next); return next }) } #[cfg(test)] pub use realstd::rt::update_panic_count; /// Invoke a closure, capturing the cause of an unwinding panic if one occurs. pub unsafe fn try R>(f: F) -> Result> { #[allow(unions_with_drop_fields)] union Data { f: F, r: R, } // We do some sketchy operations with ownership here for the sake of // performance. We can only pass pointers down to // `__rust_maybe_catch_panic` (can't pass objects by value), so we do all // the ownership tracking here manually using a union. // // We go through a transition where: // // * First, we set the data to be the closure that we're going to call. // * When we make the function call, the `do_call` function below, we take // ownership of the function pointer. At this point the `Data` union is // entirely uninitialized. // * If the closure successfully returns, we write the return value into the // data's return slot. Note that `ptr::write` is used as it's overwriting // uninitialized data. // * Finally, when we come back out of the `__rust_maybe_catch_panic` we're // in one of two states: // // 1. The closure didn't panic, in which case the return value was // filled in. We move it out of `data` and return it. // 2. The closure panicked, in which case the return value wasn't // filled in. In this case the entire `data` union is invalid, so // there is no need to drop anything. // // Once we stack all that together we should have the "most efficient' // method of calling a catch panic whilst juggling ownership. let mut any_data = 0; let mut any_vtable = 0; let mut data = Data { f, }; let r = __rust_maybe_catch_panic(do_call::, &mut data as *mut _ as *mut u8, &mut any_data, &mut any_vtable); return if r == 0 { debug_assert!(update_panic_count(0) == 0); Ok(data.r) } else { update_panic_count(-1); debug_assert!(update_panic_count(0) == 0); Err(mem::transmute(raw::TraitObject { data: any_data as *mut _, vtable: any_vtable as *mut _, })) }; fn do_call R, R>(data: *mut u8) { unsafe { let data = data as *mut Data; let f = ptr::read(&mut (*data).f); ptr::write(&mut (*data).r, f()); } } } /// Determines whether the current thread is unwinding because of panic. pub fn panicking() -> bool { update_panic_count(0) != 0 } /// Entry point of panic from the libcore crate. #[cfg(not(test))] #[panic_handler] #[unwind(allowed)] pub fn rust_begin_panic(info: &PanicInfo) -> ! { continue_panic_fmt(&info) } /// 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. #[unstable(feature = "libstd_sys_internals", reason = "used by the panic! macro", issue = "0")] #[cold] // 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))] #[cfg_attr( feature="panic_immediate_abort" ,inline)] pub fn begin_panic_fmt(msg: &fmt::Arguments, file_line_col: &(&'static str, u32, u32)) -> ! { if cfg!(feature = "panic_immediate_abort") { unsafe { intrinsics::abort() } } let (file, line, col) = *file_line_col; let info = PanicInfo::internal_constructor( Some(msg), Location::internal_constructor(file, line, col), ); continue_panic_fmt(&info) } fn continue_panic_fmt(info: &PanicInfo) -> ! { struct PanicPayload<'a> { inner: &'a fmt::Arguments<'a>, string: Option, } impl<'a> PanicPayload<'a> { fn new(inner: &'a fmt::Arguments<'a>) -> PanicPayload<'a> { PanicPayload { inner, string: None } } fn fill(&mut self) -> &mut String { use fmt::Write; let inner = self.inner; self.string.get_or_insert_with(|| { let mut s = String::new(); drop(s.write_fmt(*inner)); s }) } } unsafe impl<'a> BoxMeUp for PanicPayload<'a> { fn box_me_up(&mut self) -> *mut (dyn Any + Send) { let contents = mem::replace(self.fill(), String::new()); Box::into_raw(Box::new(contents)) } fn get(&mut self) -> &(dyn Any + Send) { self.fill() } } // We do two allocations here, unfortunately. But (a) they're // required with the current scheme, and (b) we don't handle // panic + OOM properly anyway (see comment in begin_panic // below). let loc = info.location().unwrap(); // The current implementation always returns Some let msg = info.message().unwrap(); // The current implementation always returns Some let file_line_col = (loc.file(), loc.line(), loc.column()); rust_panic_with_hook( &mut PanicPayload::new(msg), info.message(), &file_line_col); } /// This is the entry point of panicking for panic!() and assert!(). #[unstable(feature = "libstd_sys_internals", reason = "used by the panic! macro", issue = "0")] #[cfg_attr(not(test), lang = "begin_panic")] // 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] pub fn begin_panic(msg: M, file_line_col: &(&'static str, u32, u32)) -> ! { if cfg!(feature = "panic_immediate_abort") { unsafe { intrinsics::abort() } } // Note that this should be the only allocation performed in this code path. // Currently this means that panic!() on OOM will invoke this code path, // but then again we're not really ready for panic on OOM anyway. If // we do start doing this, then we should propagate this allocation to // be performed in the parent of this thread instead of the thread that's // panicking. rust_panic_with_hook(&mut PanicPayload::new(msg), None, file_line_col); struct PanicPayload { inner: Option, } impl PanicPayload { fn new(inner: A) -> PanicPayload { PanicPayload { inner: Some(inner) } } } unsafe impl BoxMeUp for PanicPayload { fn box_me_up(&mut self) -> *mut (dyn Any + Send) { let data = match self.inner.take() { Some(a) => Box::new(a) as Box, None => Box::new(()), }; Box::into_raw(data) } fn get(&mut self) -> &(dyn Any + Send) { match self.inner { Some(ref a) => a, None => &(), } } } } /// Central point for dispatching panics. /// /// Executes the primary logic for a panic, including checking for recursive /// panics, panic hooks, and finally dispatching to the panic runtime to either /// abort or unwind. fn rust_panic_with_hook(payload: &mut dyn BoxMeUp, message: Option<&fmt::Arguments>, file_line_col: &(&str, u32, u32)) -> ! { let (file, line, col) = *file_line_col; let panics = update_panic_count(1); // If this is the third nested call (e.g. panics == 2, this is 0-indexed), // the panic hook probably triggered the last panic, otherwise the // double-panic check would have aborted the process. In this case abort the // process real quickly as we don't want to try calling it again as it'll // probably just panic again. if panics > 2 { util::dumb_print(format_args!("thread panicked while processing \ panic. aborting.\n")); unsafe { intrinsics::abort() } } unsafe { let mut info = PanicInfo::internal_constructor( message, Location::internal_constructor(file, line, col), ); HOOK_LOCK.read(); match HOOK { // Some platforms know that printing to stderr won't ever actually // print anything, and if that's the case we can skip the default // hook. Hook::Default if stderr_prints_nothing() => {} Hook::Default => { info.set_payload(payload.get()); default_hook(&info); } Hook::Custom(ptr) => { info.set_payload(payload.get()); (*ptr)(&info); } } HOOK_LOCK.read_unlock(); } if panics > 1 { // If a thread panics while it's already unwinding then we // have limited options. Currently our preference is to // just abort. In the future we may consider resuming // unwinding or otherwise exiting the thread cleanly. util::dumb_print(format_args!("thread panicked while panicking. \ aborting.\n")); unsafe { intrinsics::abort() } } rust_panic(payload) } /// Shim around rust_panic. Called by resume_unwind. pub fn update_count_then_panic(msg: Box) -> ! { update_panic_count(1); struct RewrapBox(Box); unsafe impl BoxMeUp for RewrapBox { fn box_me_up(&mut self) -> *mut (dyn Any + Send) { Box::into_raw(mem::replace(&mut self.0, Box::new(()))) } fn get(&mut self) -> &(dyn Any + Send) { &*self.0 } } rust_panic(&mut RewrapBox(msg)) } /// An unmangled function (through `rustc_std_internal_symbol`) on which to slap /// yer breakpoints. #[inline(never)] #[cfg_attr(not(test), rustc_std_internal_symbol)] fn rust_panic(mut msg: &mut dyn BoxMeUp) -> ! { let code = unsafe { let obj = &mut msg as *mut &mut dyn BoxMeUp; __rust_start_panic(obj as usize) }; rtabort!("failed to initiate panic, error {}", code) }