rust/src/libcore/task/local_data.rs

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/*!
Task local data management
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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.
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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.
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Casting 'Arcane Sight' reveals an overwhelming aura of Transmutation
magic.
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*/
use local_data_priv::{
local_pop,
local_get,
local_set,
local_modify
};
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/**
* 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<T: Owned> = &fn(+v: @T);
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/**
* 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<T: Owned>(
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key: LocalDataKey<T>) -> Option<@T> {
local_pop(rt::rust_get_task(), key)
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}
/**
* Retrieve a task-local data value. It will also be kept alive in the
* table until explicitly removed.
*/
pub unsafe fn local_data_get<T: Owned>(
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key: LocalDataKey<T>) -> Option<@T> {
local_get(rt::rust_get_task(), key)
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}
/**
* 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<T: Owned>(
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key: LocalDataKey<T>, +data: @T) {
local_set(rt::rust_get_task(), key, data)
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}
/**
* 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<T: Owned>(
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key: LocalDataKey<T>,
modify_fn: fn(Option<@T>) -> Option<@T>) {
local_modify(rt::rust_get_task(), key, modify_fn)
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}
#[test]
pub fn test_tls_multitask() unsafe {
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fn my_key(+_x: @~str) { }
local_data_set(my_key, @~"parent data");
do task::spawn unsafe {
assert local_data_get(my_key).is_none(); // TLS shouldn't carry over.
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]
pub fn test_tls_overwrite() unsafe {
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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]
pub fn test_tls_pop() unsafe {
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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]
pub fn test_tls_modify() unsafe {
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fn my_key(+_x: @~str) { }
local_data_modify(my_key, |data| {
match data {
Some(@val) => fail ~"unwelcome value: " + val,
None => Some(@~"first data")
}
});
local_data_modify(my_key, |data| {
match data {
Some(@~"first data") => Some(@~"next data"),
Some(@val) => fail ~"wrong value: " + val,
None => fail ~"missing value"
}
});
assert *(local_data_pop(my_key).get()) == ~"next data";
}
#[test]
pub fn test_tls_crust_automorestack_memorial_bug() unsafe {
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// 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]
pub fn test_tls_multiple_types() unsafe {
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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]
pub fn test_tls_overwrite_multiple_types() {
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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))]
pub fn test_tls_cleanup_on_failure() unsafe {
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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;
}