#[doc(hidden)]; export chan_from_global_ptr, weaken_task; import compare_and_swap = rustrt::rust_compare_and_swap_ptr; type rust_port_id = uint; native mod rustrt { fn rust_compare_and_swap_ptr(address: *libc::uintptr_t, oldval: libc::uintptr_t, newval: libc::uintptr_t) -> bool; fn rust_task_weaken(ch: rust_port_id); fn rust_task_unweaken(ch: rust_port_id); } type global_ptr = *libc::uintptr_t; #[doc = " Atomically gets a channel from a pointer to a pointer-sized memory location or, if no channel exists creates and installs a new channel and sets up a new task to receive from it. "] unsafe fn chan_from_global_ptr( global: global_ptr, builder: fn() -> task::builder, +f: fn~(comm::port) ) -> comm::chan { enum msg { proceed, abort } log(debug,"ENTERING chan_from_global_ptr, before is_prob_zero check"); let is_probably_zero = *global == 0u; log(debug,"after is_prob_zero check"); if is_probably_zero { log(debug,"is probably zero..."); // There's no global channel. We must make it let setup_po = comm::port(); let setup_ch = comm::chan(setup_po); let setup_ch = do task::run_listener(builder()) |setup_po| { let po = comm::port::(); let ch = comm::chan(po); comm::send(setup_ch, ch); // Wait to hear if we are the official instance of // this global task alt comm::recv::(setup_po) { proceed { f(po); } abort { } } }; log(debug,"before setup recv.."); // This is the proposed global channel let ch = comm::recv(setup_po); // 0 is our sentinal value. It is not a valid channel assert unsafe::reinterpret_cast(ch) != 0u; // Install the channel log(debug,"BEFORE COMPARE AND SWAP"); let swapped = compare_and_swap( global, 0u, unsafe::reinterpret_cast(ch)); log(debug,#fmt("AFTER .. swapped? %?", swapped)); if swapped { // Success! comm::send(setup_ch, proceed); ch } else { // Somebody else got in before we did comm::send(setup_ch, abort); unsafe::reinterpret_cast(*global) } } else { log(debug, "global != 0"); unsafe::reinterpret_cast(*global) } } #[test] fn test_from_global_chan1() { // This is unreadable, right? // The global channel let globchan = 0u; let globchanp = ptr::addr_of(globchan); // Create the global channel, attached to a new task let ch = unsafe { do chan_from_global_ptr(globchanp, task::builder) |po| { let ch = comm::recv(po); comm::send(ch, true); let ch = comm::recv(po); comm::send(ch, true); } }; // Talk to it let po = comm::port(); comm::send(ch, comm::chan(po)); assert comm::recv(po) == true; // This one just reuses the previous channel let ch = unsafe { do chan_from_global_ptr(globchanp, task::builder) |po| { let ch = comm::recv(po); comm::send(ch, false); } }; // Talk to the original global task let po = comm::port(); comm::send(ch, comm::chan(po)); assert comm::recv(po) == true; } #[test] fn test_from_global_chan2() { do iter::repeat(100u) || { // The global channel let globchan = 0u; let globchanp = ptr::addr_of(globchan); let resultpo = comm::port(); let resultch = comm::chan(resultpo); // Spawn a bunch of tasks that all want to compete to // create the global channel for uint::range(0u, 10u) |i| { do task::spawn || { let ch = unsafe { do chan_from_global_ptr( globchanp, task::builder) |po| { for uint::range(0u, 10u) |_j| { let ch = comm::recv(po); comm::send(ch, {i}); } } }; let po = comm::port(); comm::send(ch, comm::chan(po)); // We are the winner if our version of the // task was installed let winner = comm::recv(po); comm::send(resultch, winner == i); } } // There should be only one winner let mut winners = 0u; for uint::range(0u, 10u) |_i| { let res = comm::recv(resultpo); if res { winners += 1u }; } assert winners == 1u; } } #[doc = " Convert the current task to a 'weak' task temporarily As a weak task it will not be counted towards the runtime's set of live tasks. When there are no more outstanding live (non-weak) tasks the runtime will send an exit message on the provided channel. This function is super-unsafe. Do not use. # Safety notes * Weak tasks must either die on their own or exit upon receipt of the exit message. Failure to do so will cause the runtime to never exit * Tasks must not call `weaken_task` multiple times. This will break the kernel's accounting of live tasks. * Weak tasks must not be supervised. A supervised task keeps a reference to its parent, so the parent will not die. "] unsafe fn weaken_task(f: fn(comm::port<()>)) { let po = comm::port(); let ch = comm::chan(po); unsafe { rustrt::rust_task_weaken(unsafe::reinterpret_cast(ch)); } let _unweaken = unweaken(ch); f(po); class unweaken { let ch: comm::chan<()>; new(ch: comm::chan<()>) { self.ch = ch; } drop unsafe { rustrt::rust_task_unweaken(unsafe::reinterpret_cast(self.ch)); } } } #[test] fn test_weaken_task_then_unweaken() { do task::try || { unsafe { do weaken_task |_po| { } } }; } #[test] fn test_weaken_task_wait() { let builder = task::builder(); task::unsupervise(builder); do task::run(builder) || { unsafe { do weaken_task |po| { comm::recv(po); } } } } #[test] fn test_weaken_task_stress() { // Create a bunch of weak tasks do iter::repeat(100u) || { do task::spawn || { unsafe { do weaken_task |_po| { } } } let builder = task::builder(); task::unsupervise(builder); do task::run(builder) || { unsafe { do weaken_task |po| { // Wait for it to tell us to die comm::recv(po); } } } } } #[test] #[ignore(cfg(windows))] fn test_weaken_task_fail() { let res = do task::try || { unsafe { do weaken_task |_po| { fail; } } }; assert result::is_err(res); }