mirror of
https://github.com/golang/go
synced 2024-11-22 21:10:03 -07:00
1f8a40d85c
though they still build in src/runtime. use cgo instead of hand-written wrappers. R=r DELTA=740 (289 added, 300 deleted, 151 changed) OCL=23326 CL=23331
177 lines
3.2 KiB
C
177 lines
3.2 KiB
C
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Semaphore implementation exposed to Go.
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// Intended use is provide a sleep and wakeup
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// primitive that can be used in the contended case
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// of other synchronization primitives.
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// Thus it targets the same goal as Linux's futex,
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// but it has much simpler semantics.
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//
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// That is, don't think of these as semaphores.
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// Think of them as a way to implement sleep and wakeup
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// such that every sleep is paired with a single wakeup,
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// even if, due to races, the wakeup happens before the sleep.
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//
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// See Mullender and Cox, ``Semaphores in Plan 9,''
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// http://swtch.com/semaphore.pdf
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#include "runtime.h"
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typedef struct Sema Sema;
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struct Sema
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{
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uint32 *addr;
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G *g;
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Sema *prev;
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Sema *next;
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};
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// TODO: For now, a linked list; maybe a hash table of linked lists later.
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static Sema *semfirst, *semlast;
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static Lock semlock;
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static void
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semqueue(uint32 *addr, Sema *s)
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{
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s->addr = addr;
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s->g = nil;
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lock(&semlock);
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s->prev = semlast;
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s->next = nil;
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if(semlast)
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semlast->next = s;
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else
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semfirst = s;
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semlast = s;
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unlock(&semlock);
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}
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static void
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semdequeue(Sema *s)
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{
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lock(&semlock);
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if(s->next)
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s->next->prev = s->prev;
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else
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semlast = s->prev;
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if(s->prev)
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s->prev->next = s->next;
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else
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semfirst = s->next;
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s->prev = nil;
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s->next = nil;
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unlock(&semlock);
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}
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static void
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semwakeup(uint32 *addr)
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{
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Sema *s;
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lock(&semlock);
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for(s=semfirst; s; s=s->next) {
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if(s->addr == addr && s->g) {
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ready(s->g);
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s->g = nil;
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break;
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}
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}
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unlock(&semlock);
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}
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// Step 1 of sleep: make ourselves available for wakeup.
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// TODO(rsc): Maybe we can write a version without
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// locks by using cas on s->g. Maybe not: I need to
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// think more about whether it would be correct.
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static void
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semsleep1(Sema *s)
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{
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lock(&semlock);
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s->g = g;
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unlock(&semlock);
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}
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// Decided not to go through with it: undo step 1.
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static void
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semsleepundo1(Sema *s)
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{
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lock(&semlock);
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if(s->g != nil) {
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s->g = nil; // back ourselves out
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} else {
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// If s->g == nil already, semwakeup
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// already readied us. Since we never stopped
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// running, readying us just set g->readyonstop.
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// Clear it.
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if(g->readyonstop == 0)
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*(int32*)0x555 = 555;
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g->readyonstop = 0;
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}
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unlock(&semlock);
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}
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// Step 2: wait for the wakeup.
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static void
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semsleep2(Sema *s)
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{
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USED(s);
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g->status = Gwaiting;
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sys·Gosched();
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}
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static int32
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cansemacquire(uint32 *addr)
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{
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uint32 v;
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while((v = *addr) > 0)
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if(cas(addr, v, v-1))
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return 1;
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return 0;
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}
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// For now has no return value.
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// Might return an ok (not interrupted) bool in the future?
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void
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semacquire(uint32 *addr)
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{
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Sema s;
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// Easy case.
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if(cansemacquire(addr))
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return;
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// Harder case:
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// queue
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// try semacquire one more time, sleep if failed
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// dequeue
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// wake up one more guy to avoid races (TODO(rsc): maybe unnecessary?)
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semqueue(addr, &s);
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for(;;) {
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semsleep1(&s);
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if(cansemacquire(addr)) {
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semsleepundo1(&s);
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break;
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}
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semsleep2(&s);
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}
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semdequeue(&s);
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semwakeup(addr);
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}
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void
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semrelease(uint32 *addr)
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{
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uint32 v;
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for(;;) {
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v = *addr;
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if(cas(addr, v, v+1))
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break;
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}
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semwakeup(addr);
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}
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