Commit Graph

27 Commits

Author SHA1 Message Date
Aaron Turon
cac133c9a8 Introduce std::thread
Also removes:

* `std::task`
* `std::rt::task`
* `std::rt::thread`

Notes for the new API are in a follow-up commit.

Closes #18000
2014-12-18 23:31:35 -08:00
Aaron Turon
9b03b72d7f Remove rt::bookkeeping
This commit removes the runtime bookkeeping previously used to ensure
that all Rust tasks were joined before the runtime was shut down.

This functionality will be replaced by an RAII style `Thread` API, that
will also offer a detached mode.

Since this changes the semantics of shutdown, it is a:

[breaking-change]
2014-12-18 23:31:35 -08:00
Aaron Turon
2b3477d373 libs: merge librustrt into libstd
This commit merges the `rustrt` crate into `std`, undoing part of the
facade. This merger continues the paring down of the runtime system.

Code relying on the public API of `rustrt` will break; some of this API
is now available through `std::rt`, but is likely to change and/or be
removed very soon.

[breaking-change]
2014-12-18 23:31:34 -08:00
Jorge Aparicio
556d971f83 Remove internal uses of marker::NoCopy 2014-12-15 15:33:37 -05:00
Niko Matsakis
5c3d398919 Mostly rote conversion of proc() to move|| (and occasionally Thunk::new) 2014-12-14 04:21:56 -05:00
Jorge Aparicio
cdbb3ca9b7 libstd: use unboxed closures 2014-12-13 17:03:47 -05:00
Alex Crichton
39b57115fb rollup merge of #19577: aidancully/master
pthread_key_create can be 0.
addresses issue #19567.
2014-12-09 09:24:39 -08:00
Aidan Cully
c394a6c238 prefer "FIXME" to "TODO". 2014-12-05 18:39:58 -05:00
Aidan Cully
7bf7bd6a75 work around portability issue on FreeBSD, in which the key returned from
pthread_key_create can be 0.
2014-12-05 17:20:44 -05:00
Alex Crichton
c3adbd34c4 Fall out of the std::sync rewrite 2014-12-05 09:12:25 -08:00
Alex Crichton
71d4e77db8 std: Rewrite the sync module
This commit is a reimplementation of `std::sync` to be based on the
system-provided primitives wherever possible. The previous implementation was
fundamentally built on top of channels, and as part of the runtime reform it has
become clear that this is not the level of abstraction that the standard level
should be providing. This rewrite aims to provide as thin of a shim as possible
on top of the system primitives in order to make them safe.

The overall interface of the `std::sync` module has in general not changed, but
there are a few important distinctions, highlighted below:

* The condition variable type, `Condvar`, has been separated out of a `Mutex`.
  A condition variable is now an entirely separate type. This separation
  benefits users who only use one mutex, and provides a clearer distinction of
  who's responsible for managing condition variables (the application).

* All of `Condvar`, `Mutex`, and `RWLock` are now directly built on top of
  system primitives rather than using a custom implementation. The `Once`,
  `Barrier`, and `Semaphore` types are still built upon these abstractions of
  the system primitives.

* The `Condvar`, `Mutex`, and `RWLock` types all have a new static type and
  constant initializer corresponding to them. These are provided primarily for C
  FFI interoperation, but are often useful to otherwise simply have a global
  lock. The types, however, will leak memory unless `destroy()` is called on
  them, which is clearly documented.

* The `Condvar` implementation for an `RWLock` write lock has been removed. This
  may be added back in the future with a userspace implementation, but this
  commit is focused on exposing the system primitives first.

* The fundamental architecture of this design is to provide two separate layers.
  The first layer is that exposed by `sys_common` which is a cross-platform
  bare-metal abstraction of the system synchronization primitives. No attempt is
  made at making this layer safe, and it is quite unsafe to use! It is currently
  not exported as part of the API of the standard library, but the stabilization
  of the `sys` module will ensure that these will be exposed in time. The
  purpose of this layer is to provide the core cross-platform abstractions if
  necessary to implementors.

  The second layer is the layer provided by `std::sync` which is intended to be
  the thinnest possible layer on top of `sys_common` which is entirely safe to
  use. There are a few concerns which need to be addressed when making these
  system primitives safe:

    * Once used, the OS primitives can never be **moved**. This means that they
      essentially need to have a stable address. The static primitives use
      `&'static self` to enforce this, and the non-static primitives all use a
      `Box` to provide this guarantee.

    * Poisoning is leveraged to ensure that invalid data is not accessible from
      other tasks after one has panicked.

  In addition to these overall blanket safety limitations, each primitive has a
  few restrictions of its own:

    * Mutexes and rwlocks can only be unlocked from the same thread that they
      were locked by. This is achieved through RAII lock guards which cannot be
      sent across threads.

    * Mutexes and rwlocks can only be unlocked if they were previously locked.
      This is achieved by not exposing an unlocking method.

    * A condition variable can only be waited on with a locked mutex. This is
      achieved by requiring a `MutexGuard` in the `wait()` method.

    * A condition variable cannot be used concurrently with more than one mutex.
      This is guaranteed by dynamically binding a condition variable to
      precisely one mutex for its entire lifecycle. This restriction may be able
      to be relaxed in the future (a mutex is unbound when no threads are
      waiting on the condvar), but for now it is sufficient to guarantee safety.

* Condvars now support timeouts for their blocking operations. The
  implementation for these operations is provided by the system.

Due to the modification of the `Condvar` API, removal of the `std::sync::mutex`
API, and reimplementation, this is a breaking change. Most code should be fairly
easy to port using the examples in the documentation of these primitives.

[breaking-change]

Closes #17094
Closes #18003
2014-12-05 00:53:22 -08:00
bors
61af402789 auto merge of #19169 : aturon/rust/fds, r=alexcrichton
This PR adds some internal infrastructure to allow the private `std::sys` module to access internal representation details of `std::io`.

It then exposes those details in two new, platform-specific API surfaces: `std::os::unix` and `std::os::windows`.

To start with, these will provide the ability to extract file descriptors, HANDLEs, SOCKETs, and so on from `std::io` types.

More functionality, and more specific platforms (e.g. `std::os::linux`) will be added over time.

Closes #18897
2014-11-26 08:42:09 +00:00
Alex Crichton
a4b1ac5447 std: Leak all statically allocated TLS keys
It turns out that rustrt::at_exit() doesn't actually occur after all pthread
threads have exited (nor does atexit()), so there's not actually a known point
at which we can deallocate these keys. It's not super critical that we do so,
however, because we're about to exit anyway!

Closes #19280
2014-11-24 15:24:29 -08:00
Alex Crichton
a9c1152c4b std: Add a new top-level thread_local module
This commit removes the `std::local_data` module in favor of a new
`std::thread_local` module providing thread local storage. The module provides
two variants of TLS: one which owns its contents and one which is based on
scoped references. Each implementation has pros and cons listed in the
documentation.

Both flavors have accessors through a function called `with` which yield a
reference to a closure provided. Both flavors also panic if a reference cannot
be yielded and provide a function to test whether an access would panic or not.
This is an implementation of [RFC 461][rfc] and full details can be found in
that RFC.

This is a breaking change due to the removal of the `std::local_data` module.
All users can migrate to the new thread local system like so:

    thread_local!(static FOO: Rc<RefCell<Option<T>>> = Rc::new(RefCell::new(None)))

The old `local_data` module inherently contained the `Rc<RefCell<Option<T>>>` as
an implementation detail which must now be explicitly stated by users.

[rfc]: https://github.com/rust-lang/rfcs/pull/461
[breaking-change]
2014-11-23 23:37:16 -08:00
Aaron Turon
4156bc4417 sys: reveal std::io representation to sys module
This commit adds a `AsInner` trait to `sys_common` and provides
implementations on many `std::io` types. This is a building block for
exposing platform-specific APIs that hook into `std::io` types.
2014-11-21 10:17:13 -08:00
Aaron Turon
6987ad22e4 Make most of std::rt private
Previously, the entire runtime API surface was publicly exposed, but
that is neither necessary nor desirable. This commit hides most of the
module, using librustrt directly as needed. The arrangement will need to
be revisited when rustrt is pulled into std.

[breaking-change]
2014-11-20 17:19:24 -08:00
Aaron Turon
40c78ab037 Fallout from libgreen and libnative removal 2014-11-20 17:19:24 -08:00
Steven Fackler
3dcd215740 Switch to purely namespaced enums
This breaks code that referred to variant names in the same namespace as
their enum. Reexport the variants in the old location or alter code to
refer to the new locations:

```
pub enum Foo {
    A,
    B
}

fn main() {
    let a = A;
}
```
=>
```
pub use self::Foo::{A, B};

pub enum Foo {
    A,
    B
}

fn main() {
    let a = A;
}
```
or
```
pub enum Foo {
    A,
    B
}

fn main() {
    let a = Foo::A;
}
```

[breaking-change]
2014-11-17 07:35:51 -08:00
Nick Cameron
ca08540a00 Fix fallout from coercion removal 2014-11-17 22:41:33 +13:00
Brendan Zabarauskas
e965ba85ca Remove lots of numeric traits from the preludes
Num, NumCast, Unsigned, Float, Primitive and Int have been removed.
2014-11-13 03:46:03 +11:00
Brendan Zabarauskas
46333d527b Deprecate Zero and One traits 2014-11-13 02:04:31 +11:00
Michael Gehring
f54f8b3c29 Fix 'renamed lint' warnings 2014-11-10 17:28:23 +01:00
Aaron Turon
431dcdc840 Runtime removal: refactor tty
This patch continues runtime removal by moving the tty implementations
into `sys`.

Because this eliminates APIs in `libnative` and `librustrt`, it is a:

[breaking-change]

This functionality is likely to be available publicly, in some form,
from `std` in the future.
2014-11-08 20:40:39 -08:00
Aaron Turon
0f98e75b69 Runtime removal: refactor process
This patch continues the runtime removal by moving and refactoring the
process implementation into the new `sys` module.

Because this eliminates APIs in `libnative` and `librustrt`, it is a:

[breaking-change]

This functionality is likely to be available publicly, in some form,
from `std` in the future.
2014-11-08 20:40:39 -08:00
Aaron Turon
3d195482a4 Runtime removal: refactor helper threads
This patch continues the runtime removal by moving
libnative::io::helper_thread into sys::helper_signal and
sys_common::helper_thread

Because this eliminates APIs in `libnative` and `librustrt`, it is a:

[breaking-change]

This functionality is likely to be available publicly, in some form,
from `std` in the future.
2014-11-08 20:40:38 -08:00
Aaron Turon
d34b1b0ca9 Runtime removal: refactor pipes and networking
This patch continues the runtime removal by moving pipe and
networking-related code into `sys`.

Because this eliminates APIs in `libnative` and `librustrt`, it is a:

[breaking-change]

This functionality is likely to be available publicly, in some form,
from `std` in the future.
2014-11-08 20:40:38 -08:00
Aaron Turon
3a527f2b33 Runtime removal: add private sys, sys_common modules
These modules will house the code that used to be part of the runtime system
in libnative. The `sys_common` module contains a few low-level but
cross-platform details. The `sys` module is set up using `#[cfg()]` to
include either a unix or windows implementation of a common API
surface. This API surface is *not* exported directly in `libstd`, but is
instead used to bulid `std::os` and `std::io`.

Ultimately, the low-level details in `sys` will be exposed in a
controlled way through a separate platform-specific surface, but that
setup is not part of this patch.
2014-11-08 20:40:38 -08:00