rust/src/libstd/uv_iotask.rs

// 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

/*!
 * A task-based interface to the uv loop
 *
 * The I/O task runs in its own single-threaded scheduler.  By using the
 * `interact` function you can execute code in a uv callback.
 */
#[forbid(deprecated_mode)];

use ll = uv_ll;

use core::libc::c_void;
use core::libc;
use core::pipes::{stream, Port, Chan, SharedChan};
use core::prelude::*;
use core::ptr::addr_of;
use core::task::TaskBuilder;
use core::task;

/// Used to abstract-away direct interaction with a libuv loop.
pub enum IoTask {
    IoTask_({
        async_handle: *ll::uv_async_t,
        op_chan: SharedChan<IoTaskMsg>
    })
}

impl IoTask: Clone {
    fn clone(&self) -> IoTask {
        IoTask_({
            async_handle: self.async_handle,
            op_chan: self.op_chan.clone()
        })
    }
}

pub fn spawn_iotask(task: task::TaskBuilder) -> IoTask {

    let (iotask_port, iotask_chan) = stream();

    do task.sched_mode(task::SingleThreaded).spawn {
        debug!("entering libuv task");
        run_loop(&iotask_chan);
        debug!("libuv task exiting");
    };

    iotask_port.recv()
}


/**
 * Provide a callback to be processed by `iotask`
 *
 * The primary way to do operations again a running `iotask` that
 * doesn't involve creating a uv handle via `safe_handle`
 *
 * # Warning
 *
 * This function is the only safe way to interact with _any_ `iotask`.
 * Using functions in the `uv::ll` module outside of the `cb` passed into
 * this function is _very dangerous_.
 *
 * # Arguments
 *
 * * iotask - a uv I/O task that you want to do operations against
 * * cb - a function callback to be processed on the running loop's
 * thread. The only parameter passed in is an opaque pointer representing the
 * running `uv_loop_t*`. In the context of this callback, it is safe to use
 * this pointer to do various uv_* API calls contained within the `uv::ll`
 * module. It is not safe to send the `loop_ptr` param to this callback out
 * via ports/chans.
 */
pub unsafe fn interact(iotask: &IoTask,
                   cb: fn~(*c_void)) {
    send_msg(iotask, Interaction(move cb));
}

/**
 * Shut down the I/O task
 *
 * Is used to signal to the loop that it should close the internally-held
 * async handle and do a sanity check to make sure that all other handles are
 * closed, causing a failure otherwise.
 */
pub fn exit(iotask: &IoTask) {
    unsafe {
        send_msg(iotask, TeardownLoop);
    }
}


// INTERNAL API

enum IoTaskMsg {
    Interaction (fn~(*libc::c_void)),
    TeardownLoop
}

/// Run the loop and begin handling messages
fn run_loop(iotask_ch: &Chan<IoTask>) {

    unsafe {
        debug!("creating loop");
        let loop_ptr = ll::loop_new();

        // set up the special async handle we'll use to allow multi-task
        // communication with this loop
        let async = ll::async_t();
        let async_handle = addr_of(&async);

        // associate the async handle with the loop
        ll::async_init(loop_ptr, async_handle, wake_up_cb);

        let (msg_po, msg_ch) = stream::<IoTaskMsg>();

        // initialize our loop data and store it in the loop
        let data: IoTaskLoopData = IoTaskLoopData {
            async_handle: async_handle,
            msg_po: msg_po
        };
        ll::set_data_for_uv_handle(async_handle, addr_of(&data));

        // Send out a handle through which folks can talk to us
        // while we dwell in the I/O loop
        let iotask = IoTask_({
            async_handle: async_handle,
            op_chan: SharedChan(msg_ch)
        });
        iotask_ch.send(iotask);

        log(debug, ~"about to run uv loop");
        // enter the loop... this blocks until the loop is done..
        ll::run(loop_ptr);
        log(debug, ~"uv loop ended");
        ll::loop_delete(loop_ptr);
    }
}

// data that lives for the lifetime of the high-evel oo
struct IoTaskLoopData {
    async_handle: *ll::uv_async_t,
    msg_po: Port<IoTaskMsg>,
}

fn send_msg(iotask: &IoTask,
            msg: IoTaskMsg) {
    iotask.op_chan.send(move msg);
    unsafe {
        ll::async_send(iotask.async_handle);
    }
}

/// Dispatch all pending messages
extern fn wake_up_cb(async_handle: *ll::uv_async_t,
                    status: int) {

    log(debug, fmt!("wake_up_cb extern.. handle: %? status: %?",
                     async_handle, status));

    unsafe {
        let loop_ptr = ll::get_loop_for_uv_handle(async_handle);
        let data =
            ll::get_data_for_uv_handle(async_handle) as *IoTaskLoopData;
        let msg_po = &(*data).msg_po;

        while msg_po.peek() {
            match msg_po.recv() {
                Interaction(ref cb) => (*cb)(loop_ptr),
                TeardownLoop => begin_teardown(data)
            }
        }
    }
}

fn begin_teardown(data: *IoTaskLoopData) {
    unsafe {
        log(debug, ~"iotask begin_teardown() called, close async_handle");
        let async_handle = (*data).async_handle;
        ll::close(async_handle as *c_void, tear_down_close_cb);
    }
}

extern fn tear_down_close_cb(handle: *ll::uv_async_t) {
    unsafe {
        let loop_ptr = ll::get_loop_for_uv_handle(handle);
        let loop_refs = ll::loop_refcount(loop_ptr);
        log(debug,
            fmt!("tear_down_close_cb called, closing handle at %? refs %?",
                 handle, loop_refs));
        assert loop_refs == 1i32;
    }
}

#[cfg(test)]
mod test {
    use core::prelude::*;

    use uv::ll;
    use uv_iotask::*;

    use core::iter;
    use core::libc;
    use core::oldcomm;
    use core::ptr;
    use core::task;

    extern fn async_close_cb(handle: *ll::uv_async_t) {
        unsafe {
            log(debug, fmt!("async_close_cb handle %?", handle));
            let exit_ch = (*(ll::get_data_for_uv_handle(handle)
                            as *AhData)).exit_ch;
            oldcomm::send(exit_ch, ());
        }
    }
    extern fn async_handle_cb(handle: *ll::uv_async_t, status: libc::c_int) {
        unsafe {
            log(debug,
                fmt!("async_handle_cb handle %? status %?",handle,status));
            ll::close(handle, async_close_cb);
        }
    }
    struct AhData {
        iotask: IoTask,
        exit_ch: oldcomm::Chan<()>
    }
    fn impl_uv_iotask_async(iotask: &IoTask) {
        unsafe {
            let async_handle = ll::async_t();
            let ah_ptr = ptr::addr_of(&async_handle);
            let exit_po = oldcomm::Port::<()>();
            let exit_ch = oldcomm::Chan(&exit_po);
            let ah_data = AhData {
                iotask: iotask.clone(),
                exit_ch: exit_ch
            };
            let ah_data_ptr: *AhData = unsafe {
                ptr::to_unsafe_ptr(&ah_data)
            };
            debug!("about to interact");
            do interact(iotask) |loop_ptr| {
                unsafe {
                    debug!("interacting");
                    ll::async_init(loop_ptr, ah_ptr, async_handle_cb);
                    ll::set_data_for_uv_handle(
                        ah_ptr, ah_data_ptr as *libc::c_void);
                    ll::async_send(ah_ptr);
                }
            };
            debug!("waiting for async close");
            oldcomm::recv(exit_po);
        }
    }

    // this fn documents the bear minimum neccesary to roll your own
    // high_level_loop
    unsafe fn spawn_test_loop(exit_ch: oldcomm::Chan<()>) -> IoTask {
        let (iotask_port, iotask_ch) = stream::<IoTask>();
        do task::spawn_sched(task::ManualThreads(1u)) {
            debug!("about to run a test loop");
            run_loop(&iotask_ch);
            exit_ch.send(());
        };
        return iotask_port.recv();
    }

    extern fn lifetime_handle_close(handle: *libc::c_void) {
        unsafe {
            log(debug, fmt!("lifetime_handle_close ptr %?", handle));
        }
    }

    extern fn lifetime_async_callback(handle: *libc::c_void,
                                     status: libc::c_int) {
        log(debug, fmt!("lifetime_handle_close ptr %? status %?",
                        handle, status));
    }

    #[test]
    fn test_uv_iotask_async() {
        unsafe {
            let exit_po = oldcomm::Port::<()>();
            let exit_ch = oldcomm::Chan(&exit_po);
            let iotask = &spawn_test_loop(exit_ch);

            debug!("spawned iotask");

            // using this handle to manage the lifetime of the
            // high_level_loop, as it will exit the first time one of
            // the impl_uv_hl_async() is cleaned up with no one ref'd
            // handles on the loop (Which can happen under
            // race-condition type situations.. this ensures that the
            // loop lives until, at least, all of the
            // impl_uv_hl_async() runs have been called, at least.
            let work_exit_po = oldcomm::Port::<()>();
            let work_exit_ch = oldcomm::Chan(&work_exit_po);
            for iter::repeat(7u) {
                let iotask_clone = iotask.clone();
                do task::spawn_sched(task::ManualThreads(1u)) {
                    debug!("async");
                    impl_uv_iotask_async(&iotask_clone);
                    debug!("done async");
                    oldcomm::send(work_exit_ch, ());
                };
            };
            for iter::repeat(7u) {
                debug!("waiting");
                oldcomm::recv(work_exit_po);
            };
            log(debug, ~"sending teardown_loop msg..");
            exit(iotask);
            oldcomm::recv(exit_po);
            log(debug, ~"after recv on exit_po.. exiting..");
        }
    }
}