// Copyright 2013 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. //! Runtime services //! //! The `rt` module provides a narrow set of runtime services, //! including the global heap (exported in `heap`) and unwinding and //! backtrace support. The APIs in this module are highly unstable, //! and should be considered as private implementation details for the //! time being. #![unstable(feature = "rt", reason = "this public module should not exist and is highly likely \ to disappear")] #![allow(missing_docs)] use prelude::v1::*; use sys; use usize; // Reexport some of our utilities which are expected by other crates. pub use self::util::{min_stack, running_on_valgrind}; pub use self::unwind::{begin_unwind, begin_unwind_fmt}; // Reexport some functionality from liballoc. pub use alloc::heap; // Simple backtrace functionality (to print on panic) pub mod backtrace; // Internals #[macro_use] mod macros; // These should be refactored/moved/made private over time pub mod util; pub mod unwind; pub mod args; mod at_exit_imp; mod libunwind; /// The default error code of the rust runtime if the main thread panics instead /// of exiting cleanly. pub const DEFAULT_ERROR_CODE: isize = 101; #[cfg(any(windows, android))] const OS_DEFAULT_STACK_ESTIMATE: usize = 1 << 20; #[cfg(all(unix, not(android)))] const OS_DEFAULT_STACK_ESTIMATE: usize = 2 * (1 << 20); #[cfg(not(test))] #[lang = "start"] fn lang_start(main: *const u8, argc: isize, argv: *const *const u8) -> isize { use prelude::v1::*; use mem; use env; use rt; use sys_common::thread_info::{self, NewThread}; use sys_common; use thread::Thread; let something_around_the_top_of_the_stack = 1; let addr = &something_around_the_top_of_the_stack as *const _ as *const isize; let my_stack_top = addr as usize; // FIXME #11359 we just assume that this thread has a stack of a // certain size, and estimate that there's at most 20KB of stack // frames above our current position. const TWENTY_KB: usize = 20000; // saturating-add to sidestep overflow let top_plus_spill = if usize::MAX - TWENTY_KB < my_stack_top { usize::MAX } else { my_stack_top + TWENTY_KB }; // saturating-sub to sidestep underflow let my_stack_bottom = if top_plus_spill < OS_DEFAULT_STACK_ESTIMATE { 0 } else { top_plus_spill - OS_DEFAULT_STACK_ESTIMATE }; let failed = unsafe { // First, make sure we don't trigger any __morestack overflow checks, // and next set up our stack to have a guard page and run through our // own fault handlers if we hit it. sys_common::stack::record_os_managed_stack_bounds(my_stack_bottom, my_stack_top); sys::thread::guard::init(); sys::stack_overflow::init(); // Next, set up the current Thread with the guard information we just // created. Note that this isn't necessary in general for new threads, // but we just do this to name the main thread and to give it correct // info about the stack bounds. let thread: Thread = NewThread::new(Some("

".to_string())); thread_info::set(sys::thread::guard::main(), thread); // By default, some platforms will send a *signal* when a EPIPE error // would otherwise be delivered. This runtime doesn't install a SIGPIPE // handler, causing it to kill the program, which isn't exactly what we // want! // // Hence, we set SIGPIPE to ignore when the program starts up in order // to prevent this problem. #[cfg(windows)] fn ignore_sigpipe() {} #[cfg(unix)] fn ignore_sigpipe() { use libc; use libc::funcs::posix01::signal::signal; unsafe { assert!(signal(libc::SIGPIPE, libc::SIG_IGN) != !0); } } ignore_sigpipe(); // Store our args if necessary in a squirreled away location args::init(argc, argv); // And finally, let's run some code! let res = unwind::try(|| { let main: fn() = mem::transmute(main); main(); }); cleanup(); res.is_err() }; // If the exit code wasn't set, then the try block must have panicked. if failed { rt::DEFAULT_ERROR_CODE } else { #[allow(deprecated)] fn exit_status() -> isize { env::get_exit_status() as isize } exit_status() } } /// Enqueues a procedure to run when the main thread exits. /// /// Currently these closures are only run once the main *Rust* thread exits. /// Once the `at_exit` handlers begin running, more may be enqueued, but not /// infinitely so. Eventually a handler registration will be forced to fail. /// /// Returns `Ok` if the handler was successfully registered, meaning that the /// closure will be run once the main thread exits. Returns `Err` to indicate /// that the closure could not be registered, meaning that it is not scheduled /// to be rune. pub fn at_exit(f: F) -> Result<(), ()> { if at_exit_imp::push(Box::new(f)) {Ok(())} else {Err(())} } /// One-time runtime cleanup. /// /// This function is unsafe because it performs no checks to ensure that the /// runtime has completely ceased running. It is the responsibility of the /// caller to ensure that the runtime is entirely shut down and nothing will be /// poking around at the internal components. /// /// Invoking cleanup while portions of the runtime are still in use may cause /// undefined behavior. pub unsafe fn cleanup() { args::cleanup(); sys::stack_overflow::cleanup(); at_exit_imp::cleanup(); }