// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // See malloc.h for overview. // // TODO(rsc): double-check stats. package runtime #include "runtime.h" #include "malloc.h" #include "defs.h" #include "type.h" MHeap runtime·mheap; extern MStats mstats; // defined in extern.go extern volatile int32 runtime·MemProfileRate; // Same algorithm from chan.c, but a different // instance of the static uint32 x. // Not protected by a lock - let the threads use // the same random number if they like. static uint32 fastrand1(void) { static uint32 x = 0x49f6428aUL; x += x; if(x & 0x80000000L) x ^= 0x88888eefUL; return x; } // Allocate an object of at least size bytes. // Small objects are allocated from the per-thread cache's free lists. // Large objects (> 32 kB) are allocated straight from the heap. void* runtime·mallocgc(uintptr size, uint32 refflag, int32 dogc, int32 zeroed) { int32 sizeclass, rate; MCache *c; uintptr npages; MSpan *s; void *v; uint32 *ref; if(runtime·gcwaiting && g != m->g0 && m->locks == 0) runtime·gosched(); if(m->mallocing) runtime·throw("malloc/free - deadlock"); m->mallocing = 1; if(size == 0) size = 1; mstats.nmalloc++; if(size <= MaxSmallSize) { // Allocate from mcache free lists. sizeclass = runtime·SizeToClass(size); size = runtime·class_to_size[sizeclass]; c = m->mcache; v = runtime·MCache_Alloc(c, sizeclass, size, zeroed); if(v == nil) runtime·throw("out of memory"); mstats.alloc += size; mstats.total_alloc += size; mstats.by_size[sizeclass].nmalloc++; if(!runtime·mlookup(v, nil, nil, nil, &ref)) { runtime·printf("malloc %D; runtime·mlookup failed\n", (uint64)size); runtime·throw("malloc runtime·mlookup"); } *ref = RefNone | refflag; } else { // TODO(rsc): Report tracebacks for very large allocations. // Allocate directly from heap. npages = size >> PageShift; if((size & PageMask) != 0) npages++; s = runtime·MHeap_Alloc(&runtime·mheap, npages, 0, 1); if(s == nil) runtime·throw("out of memory"); size = npages<start << PageShift); // setup for mark sweep s->gcref0 = RefNone | refflag; ref = &s->gcref0; } m->mallocing = 0; if(!(refflag & RefNoProfiling) && (rate = runtime·MemProfileRate) > 0) { if(size >= rate) goto profile; if(m->mcache->next_sample > size) m->mcache->next_sample -= size; else { // pick next profile time if(rate > 0x3fffffff) // make 2*rate not overflow rate = 0x3fffffff; m->mcache->next_sample = fastrand1() % (2*rate); profile: *ref |= RefProfiled; runtime·MProf_Malloc(v, size); } } if(dogc && mstats.heap_alloc >= mstats.next_gc) runtime·gc(0); return v; } void* runtime·malloc(uintptr size) { return runtime·mallocgc(size, 0, 0, 1); } // Free the object whose base pointer is v. void runtime·free(void *v) { int32 sizeclass, size; MSpan *s; MCache *c; uint32 prof, *ref; if(v == nil) return; if(m->mallocing) runtime·throw("malloc/free - deadlock"); m->mallocing = 1; if(!runtime·mlookup(v, nil, nil, &s, &ref)) { runtime·printf("free %p: not an allocated block\n", v); runtime·throw("free runtime·mlookup"); } prof = *ref & RefProfiled; *ref = RefFree; // Find size class for v. sizeclass = s->sizeclass; if(sizeclass == 0) { // Large object. if(prof) runtime·MProf_Free(v, s->npages<npages<npages<mcache; size = runtime·class_to_size[sizeclass]; if(size > sizeof(uintptr)) ((uintptr*)v)[1] = 1; // mark as "needs to be zeroed" if(prof) runtime·MProf_Free(v, size); mstats.alloc -= size; mstats.by_size[sizeclass].nfree++; runtime·MCache_Free(c, v, sizeclass, size); } m->mallocing = 0; } int32 runtime·mlookup(void *v, byte **base, uintptr *size, MSpan **sp, uint32 **ref) { uintptr n, nobj, i; byte *p; MSpan *s; mstats.nlookup++; s = runtime·MHeap_LookupMaybe(&runtime·mheap, (uintptr)v>>PageShift); if(sp) *sp = s; if(s == nil) { if(base) *base = nil; if(size) *size = 0; if(ref) *ref = 0; return 0; } p = (byte*)((uintptr)s->start<sizeclass == 0) { // Large object. if(base) *base = p; if(size) *size = s->npages<gcref0; return 1; } if((byte*)v >= (byte*)s->gcref) { // pointers into the gc ref counts // do not count as pointers. return 0; } n = runtime·class_to_size[s->sizeclass]; i = ((byte*)v - p)/n; if(base) *base = p + i*n; if(size) *size = n; // good for error checking, but expensive if(0) { nobj = (s->npages << PageShift) / (n + RefcountOverhead); if((byte*)s->gcref < p || (byte*)(s->gcref+nobj) > p+(s->npages<state, s, p, s->sizeclass, (uint64)nobj, (uint64)n, (uint64)s->npages); runtime·printf("s->base sizeclass %d v=%p base=%p gcref=%p blocksize=%D nobj=%D size=%D end=%p end=%p\n", s->sizeclass, v, p, s->gcref, (uint64)s->npages<gcref + nobj, p+(s->npages<gcref[i]; return 1; } MCache* runtime·allocmcache(void) { MCache *c; runtime·lock(&runtime·mheap); c = runtime·FixAlloc_Alloc(&runtime·mheap.cachealloc); mstats.mcache_inuse = runtime·mheap.cachealloc.inuse; mstats.mcache_sys = runtime·mheap.cachealloc.sys; runtime·unlock(&runtime·mheap); return c; } void runtime·mallocinit(void) { runtime·SysMemInit(); runtime·InitSizes(); runtime·MHeap_Init(&runtime·mheap, runtime·SysAlloc); m->mcache = runtime·allocmcache(); // See if it works. runtime·free(runtime·malloc(1)); } // Runtime stubs. void* runtime·mal(uintptr n) { return runtime·mallocgc(n, 0, 1, 1); } func new(n uint32) (ret *uint8) { ret = runtime·mal(n); } // Stack allocator uses malloc/free most of the time, // but if we're in the middle of malloc and need stack, // we have to do something else to avoid deadlock. // In that case, we fall back on a fixed-size free-list // allocator, assuming that inside malloc all the stack // frames are small, so that all the stack allocations // will be a single size, the minimum (right now, 5k). static struct { Lock; FixAlloc; } stacks; void* runtime·stackalloc(uint32 n) { void *v; uint32 *ref; if(m->mallocing || m->gcing) { runtime·lock(&stacks); if(stacks.size == 0) runtime·FixAlloc_Init(&stacks, n, runtime·SysAlloc, nil, nil); if(stacks.size != n) { runtime·printf("stackalloc: in malloc, size=%D want %d", (uint64)stacks.size, n); runtime·throw("stackalloc"); } v = runtime·FixAlloc_Alloc(&stacks); mstats.stacks_inuse = stacks.inuse; mstats.stacks_sys = stacks.sys; runtime·unlock(&stacks); return v; } v = runtime·mallocgc(n, RefNoProfiling, 0, 0); if(!runtime·mlookup(v, nil, nil, nil, &ref)) runtime·throw("stackalloc runtime·mlookup"); *ref = RefStack; return v; } void runtime·stackfree(void *v) { if(m->mallocing || m->gcing) { runtime·lock(&stacks); runtime·FixAlloc_Free(&stacks, v); mstats.stacks_inuse = stacks.inuse; mstats.stacks_sys = stacks.sys; runtime·unlock(&stacks); return; } runtime·free(v); } func Alloc(n uintptr) (p *byte) { p = runtime·malloc(n); } func Free(p *byte) { runtime·free(p); } func Lookup(p *byte) (base *byte, size uintptr) { runtime·mlookup(p, &base, &size, nil, nil); } func GC() { runtime·gc(1); } func SetFinalizer(obj Eface, finalizer Eface) { byte *base; uintptr size; FuncType *ft; int32 i, nret; Type *t; if(obj.type == nil) { runtime·printf("runtime.SetFinalizer: first argument is nil interface\n"); throw: runtime·throw("runtime.SetFinalizer"); } if(obj.type->kind != KindPtr) { runtime·printf("runtime.SetFinalizer: first argument is %S, not pointer\n", *obj.type->string); goto throw; } if(!runtime·mlookup(obj.data, &base, &size, nil, nil) || obj.data != base) { runtime·printf("runtime.SetFinalizer: pointer not at beginning of allocated block\n"); goto throw; } nret = 0; if(finalizer.type != nil) { if(finalizer.type->kind != KindFunc) { badfunc: runtime·printf("runtime.SetFinalizer: second argument is %S, not func(%S)\n", *finalizer.type->string, *obj.type->string); goto throw; } ft = (FuncType*)finalizer.type; if(ft->dotdotdot || ft->in.len != 1 || *(Type**)ft->in.array != obj.type) goto badfunc; // compute size needed for return parameters for(i=0; iout.len; i++) { t = ((Type**)ft->out.array)[i]; nret = (nret + t->align - 1) & ~(t->align - 1); nret += t->size; } nret = (nret + sizeof(void*)-1) & ~(sizeof(void*)-1); if(runtime·getfinalizer(obj.data, 0)) { runtime·printf("runtime.SetFinalizer: finalizer already set"); goto throw; } } runtime·addfinalizer(obj.data, finalizer.data, nret); }