ref: 80ad746d8032274e2e6b40d3e4d801aa2085082d
dir: /lib/thread/condvar+openbsd:6.2.myr/
use std
use sys
use "atomic"
use "common"
use "mutex"
pkg thread =
type cond = struct
_mtx : mutex#
_seq : uint32
;;
const mkcond : (mtx : mutex# -> cond)
const condwait : (cond : cond# -> void)
const condsignal : (cond : cond# -> void)
const condbroadcast : (cond : cond# -> void)
;;
const mkcond = {mtx
-> [._mtx = mtx, ._seq = 0]
}
const condwait = {cond
var seq : uint32
var mtx
mtx = cond._mtx
seq = cond._seq
mtxunlock(mtx)
/*
FIXME?: `futex` can be interrupted but `condwait` should always be done
in a loop anyway.
*/
sys.futex(&cond._seq, sys.Futexwait, (seq : int), Zptr, Zptr)
/*
We need to atomically set the mutex to contended. This allows us to
pass responsibility for waking up the potential other waiters on to the
unlocker of the mutex.
*/
mtxcontended(mtx)
}
const condsignal = {cond : cond#
xadd(&cond._seq, 1)
sys.futex(&cond._seq, sys.Futexwake, 1, Zptr, Zptr)
}
const condbroadcast = {cond : cond#
xadd(&cond._seq, 1)
sys.futex(&cond._seq, sys.Futexrequeue, 1,
(0x7fffffff : sys.timespec#),
(&cond._mtx._state : uint32#))
}