// 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. //! Language-level runtime services that should reasonably expected //! to be available 'everywhere'. Local heaps, GC, unwinding, //! local storage, and logging. Even a 'freestanding' Rust would likely want //! to implement this. use prelude::*; use libc::{c_void, uintptr_t}; use cast::transmute; use super::sched::Scheduler; use rt::local::Local; use super::local_heap::LocalHeap; use rt::logging::StdErrLogger; pub struct Task { heap: LocalHeap, gc: GarbageCollector, storage: LocalStorage, logger: StdErrLogger, unwinder: Option, destroyed: bool } pub struct GarbageCollector; pub struct LocalStorage(*c_void, Option<~fn(*c_void)>); pub struct Unwinder { unwinding: bool, } impl Task { pub fn new() -> Task { Task { heap: LocalHeap::new(), gc: GarbageCollector, storage: LocalStorage(ptr::null(), None), logger: StdErrLogger, unwinder: Some(Unwinder { unwinding: false }), destroyed: false } } pub fn without_unwinding() -> Task { Task { heap: LocalHeap::new(), gc: GarbageCollector, storage: LocalStorage(ptr::null(), None), logger: StdErrLogger, unwinder: None, destroyed: false } } pub fn run(&mut self, f: &fn()) { // This is just an assertion that `run` was called unsafely // and this instance of Task is still accessible. do borrow_local_task |task| { assert!(ptr::ref_eq(task, self)); } match self.unwinder { Some(ref mut unwinder) => { // If there's an unwinder then set up the catch block unwinder.try(f); } None => { // Otherwise, just run the body f() } } self.destroy(); } /// Must be called manually before finalization to clean up /// thread-local resources. Some of the routines here expect /// Task to be available recursively so this must be /// called unsafely, without removing Task from /// thread-local-storage. fn destroy(&mut self) { // This is just an assertion that `destroy` was called unsafely // and this instance of Task is still accessible. do borrow_local_task |task| { assert!(ptr::ref_eq(task, self)); } match self.storage { LocalStorage(ptr, Some(ref dtor)) => { (*dtor)(ptr) } _ => () } self.destroyed = true; } } impl Drop for Task { fn finalize(&self) { assert!(self.destroyed) } } // Just a sanity check to make sure we are catching a Rust-thrown exception static UNWIND_TOKEN: uintptr_t = 839147; impl Unwinder { pub fn try(&mut self, f: &fn()) { use sys::Closure; unsafe { let closure: Closure = transmute(f); let code = transmute(closure.code); let env = transmute(closure.env); let token = rust_try(try_fn, code, env); assert!(token == 0 || token == UNWIND_TOKEN); } extern fn try_fn(code: *c_void, env: *c_void) { unsafe { let closure: Closure = Closure { code: transmute(code), env: transmute(env), }; let closure: &fn() = transmute(closure); closure(); } } extern { #[rust_stack] fn rust_try(f: *u8, code: *c_void, data: *c_void) -> uintptr_t; } } pub fn begin_unwind(&mut self) -> ! { self.unwinding = true; unsafe { rust_begin_unwind(UNWIND_TOKEN); return transmute(()); } extern { fn rust_begin_unwind(token: uintptr_t); } } } /// Borrow a pointer to the installed local services. /// Fails (likely aborting the process) if local services are not available. pub fn borrow_local_task(f: &fn(&mut Task)) { do Local::borrow:: |sched| { match sched.current_task { Some(~ref mut task) => { f(&mut *task.task) } None => { fail!("no local services for schedulers yet") } } } } pub unsafe fn unsafe_borrow_local_task() -> *mut Task { match (*Local::unsafe_borrow::()).current_task { Some(~ref mut task) => { let s: *mut Task = &mut *task.task; return s; } None => { // Don't fail. Infinite recursion abort!("no local services for schedulers yet") } } } pub unsafe fn unsafe_try_borrow_local_task() -> Option<*mut Task> { if Local::exists::() { Some(unsafe_borrow_local_task()) } else { None } } #[cfg(test)] mod test { use rt::test::*; #[test] fn local_heap() { do run_in_newsched_task() { let a = @5; let b = a; assert!(*a == 5); assert!(*b == 5); } } #[test] fn tls() { use local_data::*; do run_in_newsched_task() { unsafe { fn key(_x: @~str) { } local_data_set(key, @~"data"); assert!(*local_data_get(key).get() == ~"data"); fn key2(_x: @~str) { } local_data_set(key2, @~"data"); assert!(*local_data_get(key2).get() == ~"data"); } } } #[test] fn unwind() { do run_in_newsched_task() { let result = spawntask_try(||()); assert!(result.is_ok()); let result = spawntask_try(|| fail!()); assert!(result.is_err()); } } #[test] fn rng() { do run_in_newsched_task() { use rand::{rng, Rng}; let mut r = rng(); let _ = r.next(); } } #[test] fn logging() { do run_in_newsched_task() { info!("here i am. logging in a newsched task"); } } #[test] fn comm_oneshot() { use comm::*; do run_in_newsched_task { let (port, chan) = oneshot(); send_one(chan, 10); assert!(recv_one(port) == 10); } } #[test] fn comm_stream() { use comm::*; do run_in_newsched_task() { let (port, chan) = stream(); chan.send(10); assert!(port.recv() == 10); } } }