2 releases
0.1.1 | Jul 10, 2019 |
---|---|
0.1.0 | Jul 10, 2019 |
#1748 in Asynchronous
Used in nrf52840-platform
12KB
71 lines
core-futures-tls
A libcore wrapper allowing async/await to be used from no_std
crates, so long
as their target supports ELF TLS (the #[thread_local]
attribute).
Usage
Put the following in your Cargo.toml:
[dependencies]
core = { package = "core-futures-tls", version = "0.1.0" }
Why
Currently, async/await is not usable from libcore. Attempting to call .await
from a no_std
crate will yield the following error:
error[E0433]: failed to resolve: could not find `poll_with_tls_context` in `future`
error[E0433]: failed to resolve: could not find `from_generator` in `future`
This is due to await lowering to some code calling the functions
::core::futures::poll_with_tls_context
and ::core::futures::from_generator
in order to setup a per-thread context containing the current task. Those
functions, however, do not exist. The equivalent functions are defined in
libstd. They set up a thread-local variable which contains the current task
being executed. When polling a future, this task will get retrieved in order
to call the future's poll
function.
As mentioned, the libstd version of those functions use a thread-local
variable, which is only supported in rust's libstd through the
thread_local!
macro - which doesn't exist in libcore. There is, however,
an alternative: The (unstable) #[thread_local]
attribute, which uses ELF
TLS. Note that ELF TLS is not portable to all targets - it needs to be
supported by the OS, the loader, etc...
Here's a small example of the thread_local
attribute in action:
#![feature(thread_local)]
use core::cell::Cell;
#[thread_local]
static TLS_CX: Cell<i32> = Cell::new(1);
Using this trick, we can copy paste libstd's implementation of the
poll_with_tls_context
/from_generator
functions, but replacing the
thread_local!
macro with a #[thread_local]
macro. Ez pz.
Wrapping libcore
This trick is nice, but compiling a custom libcore is fastidious. Instead,
we're going to wrap libcore, exposing our own libcore that just reexports
the real libcore's functions, and adding our own extra stuff. This,
surprisingly, can be done simply by declaring a core
dependency with the
package
attribute set to our "real" crates.io package name. This will
trick cargo into giving rustc our wrapper core as if it was the real
libcore.
So that's it. All this crate does is reexport libcore, adding a couple
functions in the future module. You just have to use the following in your
Cargo.toml in order to use it, and rust will happily use core-futures-tls
as if it was the libcore.
[dependencies]
core = { package = "core-futures-tls", version = "0.1.0" }
Closing thoughts
While this crate still uses TLS, it should be possible to create a version that stores the thread local context in a global for single-threaded systems such as microcontrollers. This is left as an exercise to the reader.