Commit 9f38b6c9 authored by Dmitriy Vyukov's avatar Dmitriy Vyukov

runtime: clean up GC code

Remove C version of GC.
Convert freeOSMemory to Go.
Restore g0 check in GC.
Remove unknownGCPercent check in GC,
it's initialized explicitly now.

LGTM=rsc
R=golang-codereviews, rsc
CC=golang-codereviews, khr
https://golang.org/cl/139910043
parent 6f19fd43
......@@ -407,33 +407,19 @@ func profilealloc(mp *m, x unsafe.Pointer, size uintptr) {
// force = 1 - do GC regardless of current heap usage
// force = 2 - go GC and eager sweep
func gogc(force int32) {
if !memstats.enablegc {
return
}
// TODO: should never happen? Only C calls malloc while holding a lock?
// The gc is turned off (via enablegc) until the bootstrap has completed.
// Also, malloc gets called in the guts of a number of libraries that might be
// holding locks. To avoid deadlocks during stoptheworld, don't bother
// trying to run gc while holding a lock. The next mallocgc without a lock
// will do the gc instead.
mp := acquirem()
if mp.locks > 1 {
if gp := getg(); gp == mp.g0 || mp.locks > 1 || !memstats.enablegc || panicking != 0 || gcpercent < 0 {
releasem(mp)
return
}
releasem(mp)
mp = nil
if panicking != 0 {
return
}
if gcpercent == gcpercentUnknown {
lock(&mheap_.lock)
if gcpercent == gcpercentUnknown {
gcpercent = readgogc()
}
unlock(&mheap_.lock)
}
if gcpercent < 0 {
return
}
semacquire(&worldsema, false)
if force == 0 && memstats.heap_alloc < memstats.next_gc {
......
......@@ -519,7 +519,6 @@ void runtime·MHeap_Scavenge(int32 k, uint64 now, uint64 limit);
void* runtime·persistentalloc(uintptr size, uintptr align, uint64 *stat);
int32 runtime·mlookup(void *v, byte **base, uintptr *size, MSpan **s);
void runtime·gc(int32 force);
uintptr runtime·sweepone(void);
void runtime·markspan(void *v, uintptr size, uintptr n, bool leftover);
void runtime·unmarkspan(void *v, uintptr size);
......
......@@ -1284,82 +1284,6 @@ runtime·gcinit(void)
runtime·gcbssmask = unrollglobgcprog(runtime·gcbss, runtime·ebss - runtime·bss);
}
// force = 1 - do GC regardless of current heap usage
// force = 2 - go GC and eager sweep
void
runtime·gc(int32 force)
{
struct gc_args a;
int32 i;
// The gc is turned off (via enablegc) until
// the bootstrap has completed.
// Also, malloc gets called in the guts
// of a number of libraries that might be
// holding locks. To avoid priority inversion
// problems, don't bother trying to run gc
// while holding a lock. The next mallocgc
// without a lock will do the gc instead.
if(!mstats.enablegc || g == g->m->g0 || g->m->locks > 0 || runtime·panicking)
return;
if(runtime·gcpercent < 0)
return;
runtime·semacquire(&runtime·worldsema, false);
if(force==0 && mstats.heap_alloc < mstats.next_gc) {
// typically threads which lost the race to grab
// worldsema exit here when gc is done.
runtime·semrelease(&runtime·worldsema);
return;
}
// Ok, we're doing it! Stop everybody else
a.start_time = runtime·nanotime();
a.eagersweep = force >= 2;
g->m->gcing = 1;
runtime·stoptheworld();
runtime·clearpools();
// Run gc on the g0 stack. We do this so that the g stack
// we're currently running on will no longer change. Cuts
// the root set down a bit (g0 stacks are not scanned, and
// we don't need to scan gc's internal state). Also an
// enabler for copyable stacks.
for(i = 0; i < (runtime·debug.gctrace > 1 ? 2 : 1); i++) {
if(i > 0)
a.start_time = runtime·nanotime();
// switch to g0, call gc(&a), then switch back
g->param = &a;
runtime·casgstatus(g, Grunning, Gwaiting);
g->waitreason = runtime·gostringnocopy((byte*)"garbage collection");
runtime·mcall(mgc);
}
// all done
g->m->gcing = 0;
g->m->locks++;
runtime·semrelease(&runtime·worldsema);
runtime·starttheworld();
g->m->locks--;
// now that gc is done, kick off finalizer thread if needed
if(!ConcurrentSweep) {
// give the queued finalizers, if any, a chance to run
runtime·gosched();
}
}
static void
mgc(G *gp)
{
gc(gp->param);
gp->param = nil;
runtime·casgstatus(gp, Gwaiting, Grunning);
runtime·gogo(&gp->sched);
}
void
runtime·gc_m(void)
{
......@@ -1502,7 +1426,7 @@ gc(struct gc_args *args)
if(ConcurrentSweep && !args->eagersweep) {
runtime·lock(&gclock);
if(sweep.g == nil)
sweep.g = runtime·newproc1(&bgsweepv, nil, 0, 0, runtime·gc);
sweep.g = runtime·newproc1(&bgsweepv, nil, 0, 0, gc);
else if(sweep.parked) {
sweep.parked = false;
runtime·ready(sweep.g);
......
......@@ -34,3 +34,8 @@ func gc_unixnanotime(now *int64) {
sec, nsec := timenow()
*now = sec*1e9 + int64(nsec)
}
func freeOSMemory() {
gogc(2) // force GC and do eager sweep
onM(&scavenge_m)
}
......@@ -622,19 +622,10 @@ runtime·MHeap_Scavenge(int32 k, uint64 now, uint64 limit)
}
}
static void
scavenge_m(G *gp)
{
runtime·MHeap_Scavenge(-1, ~(uintptr)0, 0);
runtime·gogo(&gp->sched);
}
void
runtimedebug·freeOSMemory(void)
runtime·scavenge_m(void)
{
runtime·gc(2); // force GC and do eager sweep
runtime·mcall(scavenge_m);
runtime·MHeap_Scavenge(-1, ~(uintptr)0, 0);
}
// Initialize a new span with the given start and npages.
......
......@@ -78,6 +78,7 @@ var (
largeAlloc_m,
mprofMalloc_m,
gc_m,
scavenge_m,
setFinalizer_m,
removeFinalizer_m,
markallocated_m,
......@@ -111,7 +112,6 @@ func memmove(to unsafe.Pointer, from unsafe.Pointer, n uintptr)
func fastrand2() uint32
const (
gcpercentUnknown = -2
concurrentSweep = true
)
......
......@@ -61,3 +61,6 @@ TEXT reflect·chanlen(SB), NOSPLIT, $0-0
TEXT reflect·chancap(SB), NOSPLIT, $0-0
JMP runtime·reflect_chancap(SB)
TEXT runtimedebug·freeOSMemory(SB), NOSPLIT, $0-0
JMP runtime·freeOSMemory(SB)
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