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https://github.com/golang/go
synced 2024-11-21 21:04:41 -07:00
runtime: add per-M caches for MemStats
Avoid touching centralized state during memory manager opreations. R=rsc CC=golang-dev https://golang.org/cl/4766042
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@ -38,18 +38,18 @@ runtime·mallocgc(uintptr size, uint32 flag, int32 dogc, int32 zeroed)
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if(size == 0)
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size = 1;
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mstats.nmalloc++;
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c = m->mcache;
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c->local_nmalloc++;
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if(size <= MaxSmallSize) {
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// Allocate from mcache free lists.
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sizeclass = runtime·SizeToClass(size);
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size = runtime·class_to_size[sizeclass];
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c = m->mcache;
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v = runtime·MCache_Alloc(c, sizeclass, size, zeroed);
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if(v == nil)
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runtime·throw("out of memory");
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mstats.alloc += size;
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mstats.total_alloc += size;
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mstats.by_size[sizeclass].nmalloc++;
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c->local_alloc += size;
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c->local_total_alloc += size;
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c->local_by_size[sizeclass].nmalloc++;
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} else {
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// TODO(rsc): Report tracebacks for very large allocations.
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@ -61,8 +61,8 @@ runtime·mallocgc(uintptr size, uint32 flag, int32 dogc, int32 zeroed)
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if(s == nil)
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runtime·throw("out of memory");
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size = npages<<PageShift;
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mstats.alloc += size;
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mstats.total_alloc += size;
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c->local_alloc += size;
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c->local_total_alloc += size;
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v = (void*)(s->start << PageShift);
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// setup for mark sweep
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@ -128,6 +128,7 @@ runtime·free(void *v)
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// Find size class for v.
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sizeclass = s->sizeclass;
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c = m->mcache;
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if(sizeclass == 0) {
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// Large object.
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size = s->npages<<PageShift;
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@ -139,7 +140,6 @@ runtime·free(void *v)
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runtime·MHeap_Free(&runtime·mheap, s, 1);
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} else {
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// Small object.
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c = m->mcache;
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size = runtime·class_to_size[sizeclass];
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if(size > sizeof(uintptr))
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((uintptr*)v)[1] = 1; // mark as "needs to be zeroed"
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@ -147,10 +147,10 @@ runtime·free(void *v)
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// it might coalesce v and other blocks into a bigger span
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// and change the bitmap further.
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runtime·markfreed(v, size);
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mstats.by_size[sizeclass].nfree++;
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c->local_by_size[sizeclass].nfree++;
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runtime·MCache_Free(c, v, sizeclass, size);
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}
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mstats.alloc -= size;
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c->local_alloc -= size;
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if(prof)
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runtime·MProf_Free(v, size);
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m->mallocing = 0;
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@ -163,7 +163,7 @@ runtime·mlookup(void *v, byte **base, uintptr *size, MSpan **sp)
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byte *p;
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MSpan *s;
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mstats.nlookup++;
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m->mcache->local_nlookup++;
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s = runtime·MHeap_LookupMaybe(&runtime·mheap, v);
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if(sp)
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*sp = s;
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@ -192,9 +192,10 @@ runtime·mlookup(void *v, byte **base, uintptr *size, MSpan **sp)
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}
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n = runtime·class_to_size[s->sizeclass];
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if(base) {
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i = ((byte*)v - p)/n;
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if(base)
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*base = p + i*n;
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}
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if(size)
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*size = n;
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@ -214,6 +215,29 @@ runtime·allocmcache(void)
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return c;
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}
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void
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runtime·purgecachedstats(M* m)
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{
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MCache *c;
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// Protected by either heap or GC lock.
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c = m->mcache;
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mstats.heap_alloc += c->local_cachealloc;
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c->local_cachealloc = 0;
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mstats.heap_objects += c->local_objects;
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c->local_objects = 0;
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mstats.nmalloc += c->local_nmalloc;
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c->local_nmalloc = 0;
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mstats.nfree += c->local_nfree;
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c->local_nfree = 0;
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mstats.nlookup += c->local_nlookup;
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c->local_nlookup = 0;
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mstats.alloc += c->local_alloc;
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c->local_alloc= 0;
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mstats.total_alloc += c->local_total_alloc;
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c->local_total_alloc= 0;
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}
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uintptr runtime·sizeof_C_MStats = sizeof(MStats);
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#define MaxArena32 (2U<<30)
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@ -361,9 +385,6 @@ func new(n uint32) (ret *uint8) {
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void*
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runtime·stackalloc(uint32 n)
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{
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void *v;
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uintptr sys0;
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// Stackalloc must be called on scheduler stack, so that we
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// never try to grow the stack during the code that stackalloc runs.
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// Doing so would cause a deadlock (issue 1547).
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@ -382,11 +403,7 @@ runtime·stackalloc(uint32 n)
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runtime·printf("stackalloc: in malloc, size=%d want %d", FixedStack, n);
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runtime·throw("stackalloc");
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}
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sys0 = m->stackalloc->sys;
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v = runtime·FixAlloc_Alloc(m->stackalloc);
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mstats.stacks_inuse += FixedStack;
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mstats.stacks_sys += m->stackalloc->sys - sys0;
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return v;
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return runtime·FixAlloc_Alloc(m->stackalloc);
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}
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return runtime·mallocgc(n, FlagNoProfiling|FlagNoGC, 0, 0);
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}
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@ -394,13 +411,8 @@ runtime·stackalloc(uint32 n)
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void
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runtime·stackfree(void *v, uintptr n)
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{
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uintptr sys0;
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if(m->mallocing || m->gcing || n == FixedStack) {
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sys0 = m->stackalloc->sys;
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runtime·FixAlloc_Free(m->stackalloc, v);
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mstats.stacks_inuse -= FixedStack;
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mstats.stacks_sys += m->stackalloc->sys - sys0;
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return;
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}
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runtime·free(v);
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@ -185,10 +185,10 @@ void runtime·FixAlloc_Free(FixAlloc *f, void *p);
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// Shared with Go: if you edit this structure, also edit extern.go.
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struct MStats
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{
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// General statistics. No locking; approximate.
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// General statistics.
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uint64 alloc; // bytes allocated and still in use
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uint64 total_alloc; // bytes allocated (even if freed)
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uint64 sys; // bytes obtained from system (should be sum of xxx_sys below)
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uint64 sys; // bytes obtained from system (should be sum of xxx_sys below, no locking, approximate)
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uint64 nlookup; // number of pointer lookups
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uint64 nmalloc; // number of mallocs
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uint64 nfree; // number of frees
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@ -221,7 +221,6 @@ struct MStats
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bool debuggc;
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// Statistics about allocation size classes.
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// No locking; approximate.
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struct {
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uint32 size;
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uint64 nmalloc;
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@ -267,9 +266,20 @@ struct MCache
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{
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MCacheList list[NumSizeClasses];
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uint64 size;
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int64 local_alloc; // bytes allocated (or freed) since last lock of heap
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int64 local_objects; // objects allocated (or freed) since last lock of heap
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int64 local_cachealloc; // bytes allocated (or freed) from cache since last lock of heap
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int64 local_objects; // objects allocated (or freed) from cache since last lock of heap
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int64 local_alloc; // bytes allocated and still in use since last lock of heap
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int64 local_total_alloc; // bytes allocated (even if freed) since last lock of heap
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int64 local_nmalloc; // number of mallocs since last lock of heap
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int64 local_nfree; // number of frees since last lock of heap
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int64 local_nlookup; // number of pointer lookups since last lock of heap
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int32 next_sample; // trigger heap sample after allocating this many bytes
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// Statistics about allocation size classes since last lock of heap
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struct {
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int64 nmalloc;
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int64 nfree;
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} local_by_size[NumSizeClasses];
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};
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void* runtime·MCache_Alloc(MCache *c, int32 sizeclass, uintptr size, int32 zeroed);
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@ -378,6 +388,7 @@ void runtime·markspan(void *v, uintptr size, uintptr n, bool leftover);
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void runtime·unmarkspan(void *v, uintptr size);
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bool runtime·blockspecial(void*);
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void runtime·setblockspecial(void*);
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void runtime·purgecachedstats(M*);
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enum
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{
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@ -48,7 +48,7 @@ runtime·MCache_Alloc(MCache *c, int32 sizeclass, uintptr size, int32 zeroed)
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v->next = nil;
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}
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}
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c->local_alloc += size;
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c->local_cachealloc += size;
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c->local_objects++;
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return v;
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}
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@ -90,7 +90,7 @@ runtime·MCache_Free(MCache *c, void *v, int32 sizeclass, uintptr size)
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l->list = p;
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l->nlist++;
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c->size += size;
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c->local_alloc -= size;
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c->local_cachealloc -= size;
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c->local_objects--;
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if(l->nlist >= MaxMCacheListLen) {
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@ -484,6 +484,7 @@ sweep(void)
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// Mark freed; restore block boundary bit.
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*bitp = (*bitp & ~(bitMask<<shift)) | (bitBlockBoundary<<shift);
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c = m->mcache;
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if(s->sizeclass == 0) {
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// Free large span.
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runtime·unmarkspan(p, 1<<PageShift);
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@ -491,14 +492,13 @@ sweep(void)
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runtime·MHeap_Free(&runtime·mheap, s, 1);
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} else {
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// Free small object.
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c = m->mcache;
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if(size > sizeof(uintptr))
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((uintptr*)p)[1] = 1; // mark as "needs to be zeroed"
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mstats.by_size[s->sizeclass].nfree++;
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c->local_by_size[s->sizeclass].nfree++;
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runtime·MCache_Free(c, p, s->sizeclass, size);
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}
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mstats.alloc -= size;
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mstats.nfree++;
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c->local_alloc -= size;
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c->local_nfree++;
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}
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}
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}
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@ -533,14 +533,26 @@ cachestats(void)
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{
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M *m;
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MCache *c;
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int32 i;
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uint64 stacks_inuse;
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uint64 stacks_sys;
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stacks_inuse = 0;
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stacks_sys = 0;
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for(m=runtime·allm; m; m=m->alllink) {
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runtime·purgecachedstats(m);
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stacks_inuse += m->stackalloc->inuse;
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stacks_sys += m->stackalloc->sys;
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c = m->mcache;
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mstats.heap_alloc += c->local_alloc;
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c->local_alloc = 0;
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mstats.heap_objects += c->local_objects;
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c->local_objects = 0;
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for(i=0; i<nelem(c->local_by_size); i++) {
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mstats.by_size[i].nmalloc += c->local_by_size[i].nmalloc;
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c->local_by_size[i].nmalloc = 0;
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mstats.by_size[i].nfree += c->local_by_size[i].nfree;
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c->local_by_size[i].nfree = 0;
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}
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}
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mstats.stacks_inuse = stacks_inuse;
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mstats.stacks_sys = stacks_sys;
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}
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void
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@ -603,6 +615,7 @@ runtime·gc(int32 force)
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sweep();
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t2 = runtime·nanotime();
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stealcache();
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cachestats();
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mstats.next_gc = mstats.heap_alloc+mstats.heap_alloc*gcpercent/100;
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m->gcing = 0;
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@ -57,10 +57,7 @@ runtime·MHeap_Alloc(MHeap *h, uintptr npage, int32 sizeclass, int32 acct)
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MSpan *s;
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runtime·lock(h);
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mstats.heap_alloc += m->mcache->local_alloc;
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m->mcache->local_alloc = 0;
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mstats.heap_objects += m->mcache->local_objects;
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m->mcache->local_objects = 0;
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runtime·purgecachedstats(m);
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s = MHeap_AllocLocked(h, npage, sizeclass);
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if(s != nil) {
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mstats.heap_inuse += npage<<PageShift;
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@ -258,10 +255,7 @@ void
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runtime·MHeap_Free(MHeap *h, MSpan *s, int32 acct)
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{
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runtime·lock(h);
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mstats.heap_alloc += m->mcache->local_alloc;
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m->mcache->local_alloc = 0;
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mstats.heap_objects += m->mcache->local_objects;
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m->mcache->local_objects = 0;
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runtime·purgecachedstats(m);
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mstats.heap_inuse -= s->npages<<PageShift;
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if(acct) {
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mstats.heap_alloc -= s->npages<<PageShift;
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@ -47,6 +47,7 @@ func main() {
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b := runtime.Alloc(uintptr(j))
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during := runtime.MemStats.Alloc
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runtime.Free(b)
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runtime.GC()
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if a := runtime.MemStats.Alloc; a != 0 {
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println("allocated ", j, ": wrong stats: during=", during, " after=", a, " (want 0)")
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panic("fail")
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@ -60,6 +60,7 @@ func AllocAndFree(size, count int) {
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fmt.Printf("size=%d count=%d stats=%+v\n", size, count, *stats)
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}
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n3 := stats.Alloc
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runtime.GC()
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for j := 0; j < count; j++ {
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i := j
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if *reverse {
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@ -72,6 +73,7 @@ func AllocAndFree(size, count int) {
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panic("fail")
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}
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runtime.Free(b[i])
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runtime.GC()
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if stats.Alloc != uint64(alloc-n) {
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println("free alloc got", stats.Alloc, "expected", alloc-n, "after free of", n)
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panic("fail")
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