// Copyright 2012 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. /*! Task local data management Allows storing boxes with arbitrary types inside, to be accessed anywhere within a task, keyed by a pointer to a global finaliser function. Useful for dynamic variables, singletons, and interfacing with foreign code with bad callback interfaces. To use, declare a monomorphic global function at the type to store, and use it as the 'key' when accessing. See the 'tls' tests below for examples. Casting 'Arcane Sight' reveals an overwhelming aura of Transmutation magic. */ use prelude::*; use task::local_data_priv::{local_get, local_pop, local_modify, local_set, Handle}; /** * Indexes a task-local data slot. The function's code pointer is used for * comparison. Recommended use is to write an empty function for each desired * task-local data slot (and use class destructors, not code inside the * function, if specific teardown is needed). DO NOT use multiple * instantiations of a single polymorphic function to index data of different * types; arbitrary type coercion is possible this way. * * One other exception is that this global state can be used in a destructor * context to create a circular @-box reference, which will crash during task * failure (see issue #3039). * * These two cases aside, the interface is safe. */ pub type LocalDataKey<'self,T> = &'self fn(v: @T); /** * Remove a task-local data value from the table, returning the * reference that was originally created to insert it. */ pub unsafe fn local_data_pop( key: LocalDataKey) -> Option<@T> { local_pop(Handle::new(), key) } /** * Retrieve a task-local data value. It will also be kept alive in the * table until explicitly removed. */ pub unsafe fn local_data_get( key: LocalDataKey) -> Option<@T> { local_get(Handle::new(), key) } /** * Store a value in task-local data. If this key already has a value, * that value is overwritten (and its destructor is run). */ pub unsafe fn local_data_set( key: LocalDataKey, data: @T) { local_set(Handle::new(), key, data) } /** * Modify a task-local data value. If the function returns 'None', the * data is removed (and its reference dropped). */ pub unsafe fn local_data_modify( key: LocalDataKey, modify_fn: &fn(Option<@T>) -> Option<@T>) { local_modify(Handle::new(), key, modify_fn) } #[test] fn test_tls_multitask() { unsafe { fn my_key(_x: @~str) { } local_data_set(my_key, @~"parent data"); do task::spawn { unsafe { // TLS shouldn't carry over. assert!(local_data_get(my_key).is_none()); local_data_set(my_key, @~"child data"); assert!(*(local_data_get(my_key).get()) == ~"child data"); // should be cleaned up for us } } // Must work multiple times assert!(*(local_data_get(my_key).get()) == ~"parent data"); assert!(*(local_data_get(my_key).get()) == ~"parent data"); assert!(*(local_data_get(my_key).get()) == ~"parent data"); } } #[test] fn test_tls_overwrite() { unsafe { fn my_key(_x: @~str) { } local_data_set(my_key, @~"first data"); local_data_set(my_key, @~"next data"); // Shouldn't leak. assert!(*(local_data_get(my_key).get()) == ~"next data"); } } #[test] fn test_tls_pop() { unsafe { fn my_key(_x: @~str) { } local_data_set(my_key, @~"weasel"); assert!(*(local_data_pop(my_key).get()) == ~"weasel"); // Pop must remove the data from the map. assert!(local_data_pop(my_key).is_none()); } } #[test] fn test_tls_modify() { unsafe { fn my_key(_x: @~str) { } local_data_modify(my_key, |data| { match data { Some(@ref val) => fail!(~"unwelcome value: " + *val), None => Some(@~"first data") } }); local_data_modify(my_key, |data| { match data { Some(@~"first data") => Some(@~"next data"), Some(@ref val) => fail!(~"wrong value: " + *val), None => fail!(~"missing value") } }); assert!(*(local_data_pop(my_key).get()) == ~"next data"); } } #[test] fn test_tls_crust_automorestack_memorial_bug() { // This might result in a stack-canary clobber if the runtime fails to // set sp_limit to 0 when calling the cleanup extern - it might // automatically jump over to the rust stack, which causes next_c_sp // to get recorded as something within a rust stack segment. Then a // subsequent upcall (esp. for logging, think vsnprintf) would run on // a stack smaller than 1 MB. fn my_key(_x: @~str) { } do task::spawn { unsafe { local_data_set(my_key, @~"hax"); } } } #[test] fn test_tls_multiple_types() { fn str_key(_x: @~str) { } fn box_key(_x: @@()) { } fn int_key(_x: @int) { } do task::spawn { unsafe { local_data_set(str_key, @~"string data"); local_data_set(box_key, @@()); local_data_set(int_key, @42); } } } #[test] fn test_tls_overwrite_multiple_types() { fn str_key(_x: @~str) { } fn box_key(_x: @@()) { } fn int_key(_x: @int) { } do task::spawn { unsafe { local_data_set(str_key, @~"string data"); local_data_set(int_key, @42); // This could cause a segfault if overwriting-destruction is done // with the crazy polymorphic transmute rather than the provided // finaliser. local_data_set(int_key, @31337); } } } #[test] #[should_fail] #[ignore(cfg(windows))] fn test_tls_cleanup_on_failure() { unsafe { fn str_key(_x: @~str) { } fn box_key(_x: @@()) { } fn int_key(_x: @int) { } local_data_set(str_key, @~"parent data"); local_data_set(box_key, @@()); do task::spawn { unsafe { // spawn_linked local_data_set(str_key, @~"string data"); local_data_set(box_key, @@()); local_data_set(int_key, @42); fail!(); } } // Not quite nondeterministic. local_data_set(int_key, @31337); fail!(); } } #[test] fn test_static_pointer() { unsafe { fn key(_x: @&'static int) { } static VALUE: int = 0; local_data_set(key, @&VALUE); } }