rust/src/libcore/pipes.rs

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// Runtime support for pipes.
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import unsafe::{forget, reinterpret_cast, transmute};
import either::{either, left, right};
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import option::unwrap;
import arc::methods;
/* Use this after the snapshot
macro_rules! move {
{ $x:expr } => { unsafe { let y <- *ptr::addr_of($x); y } }
}
*/
fn macros() {
#macro[
[#move(x), { unsafe { let y <- *ptr::addr_of(x); y } }]
];
}
enum state {
empty,
full,
blocked,
terminated
}
type packet_header_ = {
mut state: state,
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mut blocked_task: option<*rust_task>,
};
enum packet_header {
packet_header_(packet_header_)
}
type packet_<T:send> = {
header: packet_header,
mut payload: option<T>
};
enum packet<T:send> {
packet_(packet_<T>)
}
fn packet<T: send>() -> *packet<T> unsafe {
let p: *packet<T> = unsafe::transmute(~{
header: {
mut state: empty,
mut blocked_task: none::<task::task>,
},
mut payload: none::<T>
});
p
}
#[abi = "rust-intrinsic"]
extern mod rusti {
fn atomic_xchng(&dst: int, src: int) -> int;
fn atomic_xchng_acq(&dst: int, src: int) -> int;
fn atomic_xchng_rel(&dst: int, src: int) -> int;
}
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type rust_task = libc::c_void;
extern mod rustrt {
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#[rust_stack]
fn rust_get_task() -> *rust_task;
#[rust_stack]
fn task_clear_event_reject(task: *rust_task);
fn task_wait_event(this: *rust_task, killed: &mut bool) -> *libc::c_void;
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fn task_signal_event(target: *rust_task, event: *libc::c_void);
}
// We should consider moving this to core::unsafe, although I
// suspect graydon would want us to use void pointers instead.
unsafe fn uniquify<T>(x: *T) -> ~T {
unsafe { unsafe::reinterpret_cast(x) }
}
fn wait_event(this: *rust_task) -> *libc::c_void {
let mut killed = false;
let res = rustrt::task_wait_event(this, &mut killed);
if killed && !task::failing() {
fail ~"killed"
}
res
}
fn swap_state_acq(&dst: state, src: state) -> state {
unsafe {
reinterpret_cast(rusti::atomic_xchng_acq(
*(ptr::mut_addr_of(dst) as *mut int),
src as int))
}
}
fn swap_state_rel(&dst: state, src: state) -> state {
unsafe {
reinterpret_cast(rusti::atomic_xchng_rel(
*(ptr::mut_addr_of(dst) as *mut int),
src as int))
}
}
fn send<T: send>(-p: send_packet<T>, -payload: T) {
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let p_ = p.unwrap();
let p = unsafe { uniquify(p_) };
assert (*p).payload == none;
(*p).payload <- some(payload);
let old_state = swap_state_rel(p.header.state, full);
alt old_state {
empty {
// Yay, fastpath.
// The receiver will eventually clean this up.
unsafe { forget(p); }
}
full { fail ~"duplicate send" }
blocked {
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#debug("waking up task for %?", p_);
alt p.header.blocked_task {
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some(task) {
rustrt::task_signal_event(
task, ptr::addr_of(p.header) as *libc::c_void);
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}
none { fail ~"blocked packet has no task" }
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}
// The receiver will eventually clean this up.
unsafe { forget(p); }
}
terminated {
// The receiver will never receive this. Rely on drop_glue
// to clean everything up.
}
}
}
fn recv<T: send>(-p: recv_packet<T>) -> T {
option::unwrap(try_recv(p))
}
fn try_recv<T: send>(-p: recv_packet<T>) -> option<T> {
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let p_ = p.unwrap();
let p = unsafe { uniquify(p_) };
let this = rustrt::rust_get_task();
rustrt::task_clear_event_reject(this);
p.header.blocked_task = some(this);
let mut first = true;
loop {
rustrt::task_clear_event_reject(this);
let old_state = swap_state_acq(p.header.state,
blocked);
alt old_state {
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empty {
#debug("no data available on %?, going to sleep.", p_);
wait_event(this);
#debug("woke up, p.state = %?", p.header.state);
}
blocked {
if first {
fail ~"blocking on already blocked packet"
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}
}
full {
let mut payload = none;
payload <-> (*p).payload;
p.header.state = terminated;
ret some(option::unwrap(payload))
}
terminated {
assert old_state == terminated;
ret none;
}
}
first = false;
}
}
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/// Returns true if messages are available.
pure fn peek<T: send>(p: recv_packet<T>) -> bool {
alt unsafe {(*p.header()).state} {
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empty { false }
blocked { fail ~"peeking on blocked packet" }
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full | terminated { true }
}
}
fn sender_terminate<T: send>(p: *packet<T>) {
let p = unsafe { uniquify(p) };
alt swap_state_rel(p.header.state, terminated) {
empty {
// The receiver will eventually clean up.
unsafe { forget(p) }
}
blocked {
// wake up the target
let target = p.header.blocked_task.get();
rustrt::task_signal_event(target,
ptr::addr_of(p.header) as *libc::c_void);
// The receiver will eventually clean up.
unsafe { forget(p) }
}
full {
// This is impossible
fail ~"you dun goofed"
}
terminated {
// I have to clean up, use drop_glue
}
}
}
fn receiver_terminate<T: send>(p: *packet<T>) {
let p = unsafe { uniquify(p) };
alt swap_state_rel(p.header.state, terminated) {
empty {
// the sender will clean up
unsafe { forget(p) }
}
blocked {
// this shouldn't happen.
fail ~"terminating a blocked packet"
}
terminated | full {
// I have to clean up, use drop_glue
}
}
}
impl private_methods for *packet_header {
// Returns the old state.
unsafe fn mark_blocked(this: *rust_task) -> state {
let self = &*self;
self.blocked_task = some(this);
swap_state_acq(self.state, blocked)
}
unsafe fn unblock() {
let self = &*self;
alt swap_state_acq(self.state, empty) {
empty | blocked { }
terminated { self.state = terminated; }
full { self.state = full; }
}
}
}
#[doc = "Returns when one of the packet headers reports data is
available."]
fn wait_many(pkts: &[*packet_header]) -> uint {
let this = rustrt::rust_get_task();
rustrt::task_clear_event_reject(this);
let mut data_avail = false;
let mut ready_packet = pkts.len();
for pkts.eachi |i, p| unsafe {
let old = p.mark_blocked(this);
alt old {
full | terminated {
data_avail = true;
ready_packet = i;
(*p).state = old;
break;
}
blocked { fail ~"blocking on blocked packet" }
empty { }
}
}
while !data_avail {
#debug("sleeping on %? packets", pkts.len());
let event = wait_event(this) as *packet_header;
let pos = vec::position(pkts, |p| p == event);
alt pos {
some(i) {
ready_packet = i;
data_avail = true;
}
none {
#debug("ignoring spurious event, %?", event);
}
}
}
#debug("%?", pkts[ready_packet]);
for pkts.each |p| { unsafe{p.unblock()} }
#debug("%?, %?", ready_packet, pkts[ready_packet]);
unsafe {
assert (*pkts[ready_packet]).state == full
|| (*pkts[ready_packet]).state == terminated;
}
ready_packet
}
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fn select2<A: send, B: send>(
+a: recv_packet<A>,
+b: recv_packet<B>)
-> either<(option<A>, recv_packet<B>), (recv_packet<A>, option<B>)>
{
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let i = wait_many([a.header(), b.header()]/_);
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unsafe {
alt i {
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0 { left((try_recv(a), b)) }
1 { right((a, try_recv(b))) }
_ { fail ~"select2 return an invalid packet" }
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}
}
}
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trait selectable {
pure fn header() -> *packet_header;
}
fn selecti<T: selectable>(endpoints: &[T]) -> uint {
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wait_many(endpoints.map(|p| p.header()))
}
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fn select2i<A: selectable, B: selectable>(a: A, b: B) -> either<(), ()> {
alt wait_many([a.header(), b.header()]/_) {
0 { left(()) }
1 { right(()) }
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_ { fail ~"wait returned unexpected index" }
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}
}
#[doc = "Waits on a set of endpoints. Returns a message, its index,
and a list of the remaining endpoints."]
fn select<T: send>(+endpoints: ~[recv_packet<T>])
-> (uint, option<T>, ~[recv_packet<T>])
{
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let ready = wait_many(endpoints.map(|p| p.header()));
let mut remaining = ~[];
let mut result = none;
do vec::consume(endpoints) |i, p| {
if i == ready {
result = try_recv(p);
}
else {
vec::push(remaining, p);
}
}
(ready, result, remaining)
}
class send_packet<T: send> {
let mut p: option<*packet<T>>;
new(p: *packet<T>) {
//#debug("take send %?", p);
self.p = some(p);
}
drop {
//if self.p != none {
// #debug("drop send %?", option::get(self.p));
//}
if self.p != none {
let mut p = none;
p <-> self.p;
sender_terminate(option::unwrap(p))
}
}
fn unwrap() -> *packet<T> {
let mut p = none;
p <-> self.p;
option::unwrap(p)
}
}
class recv_packet<T: send> {
let mut p: option<*packet<T>>;
new(p: *packet<T>) {
//#debug("take recv %?", p);
self.p = some(p);
}
drop {
//if self.p != none {
// #debug("drop recv %?", option::get(self.p));
//}
if self.p != none {
let mut p = none;
p <-> self.p;
receiver_terminate(option::unwrap(p))
}
}
fn unwrap() -> *packet<T> {
let mut p = none;
p <-> self.p;
option::unwrap(p)
}
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pure fn header() -> *packet_header {
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alt self.p {
some(packet) {
unsafe {
let packet = uniquify(packet);
let header = ptr::addr_of(packet.header);
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forget(packet);
header
}
}
none { fail ~"packet already consumed" }
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}
}
}
fn entangle<T: send>() -> (send_packet<T>, recv_packet<T>) {
let p = packet();
(send_packet(p), recv_packet(p))
}
fn spawn_service<T: send>(
init: extern fn() -> (send_packet<T>, recv_packet<T>),
+service: fn~(+recv_packet<T>))
-> send_packet<T>
{
let (client, server) = init();
// This is some nasty gymnastics required to safely move the pipe
// into a new task.
let server = ~mut some(server);
do task::spawn |move service| {
let mut server_ = none;
server_ <-> *server;
service(option::unwrap(server_))
}
client
}
fn spawn_service_recv<T: send>(
init: extern fn() -> (recv_packet<T>, send_packet<T>),
+service: fn~(+send_packet<T>))
-> recv_packet<T>
{
let (client, server) = init();
// This is some nasty gymnastics required to safely move the pipe
// into a new task.
let server = ~mut some(server);
do task::spawn |move service| {
let mut server_ = none;
server_ <-> *server;
service(option::unwrap(server_))
}
client
}
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// Streams - Make pipes a little easier in general.
proto! streamp {
open:send<T: send> {
data(T) -> open<T>
}
}
type chan_<T:send> = { mut endp: option<streamp::client::open<T>> };
enum chan<T:send> {
chan_(chan_<T>)
}
type port_<T:send> = { mut endp: option<streamp::server::open<T>> };
enum port<T:send> {
port_(port_<T>)
}
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fn stream<T:send>() -> (chan<T>, port<T>) {
let (c, s) = streamp::init();
(chan_({ mut endp: some(c) }), port_({ mut endp: some(s) }))
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}
impl chan<T: send> for chan<T> {
fn send(+x: T) {
let mut endp = none;
endp <-> self.endp;
self.endp = some(
streamp::client::data(unwrap(endp), x))
}
}
impl port<T: send> for port<T> {
fn recv() -> T {
let mut endp = none;
endp <-> self.endp;
let streamp::data(x, endp) = pipes::recv(unwrap(endp));
self.endp = some(endp);
x
}
fn try_recv() -> option<T> {
let mut endp = none;
endp <-> self.endp;
alt pipes::try_recv(unwrap(endp)) {
some(streamp::data(x, endp)) {
self.endp = some(#move(endp));
some(#move(x))
}
none { none }
}
}
pure fn peek() -> bool unchecked {
let mut endp = none;
endp <-> self.endp;
let peek = alt endp {
some(endp) {
pipes::peek(endp)
}
none { fail ~"peeking empty stream" }
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};
self.endp <-> endp;
peek
}
}
// Treat a whole bunch of ports as one.
class port_set<T: send> {
let mut ports: ~[pipes::port<T>];
new() { self.ports = ~[]; }
fn add(+port: pipes::port<T>) {
vec::push(self.ports, port)
}
fn try_recv() -> option<T> {
let mut result = none;
while result == none && self.ports.len() > 0 {
let i = pipes::wait_many(self.ports.map(|p| p.header()));
// dereferencing an unsafe pointer nonsense to appease the
// borrowchecker.
alt unsafe {(*ptr::addr_of(self.ports[i])).try_recv()} {
some(m) {
result = some(#move(m));
}
none {
// Remove this port.
let mut ports = ~[];
self.ports <-> ports;
vec::consume(ports,
|j, x| if i != j { vec::push(self.ports, x) });
}
}
}
result
}
fn recv() -> T {
option::unwrap(self.try_recv())
}
}
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impl<T: send> of selectable for pipes::port<T> {
pure fn header() -> *pipes::packet_header unchecked {
alt self.endp {
some(endp) {
endp.header()
}
none { fail ~"peeking empty stream" }
}
}
}
type shared_chan<T: send> = arc::exclusive<pipes::chan<T>>;
trait send_on_shared_chan<T> {
fn send(+x: T);
}
impl chan<T: send> of send_on_shared_chan<T> for shared_chan<T> {
fn send(+x: T) {
let mut xx = some(x);
do self.with |_c, chan| {
let mut x = none;
x <-> xx;
chan.send(option::unwrap(x))
}
}
}
fn shared_chan<T:send>(+c: pipes::chan<T>) -> shared_chan<T> {
arc::exclusive(c)
}