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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgo/] [runtime/] [malloc.goc] - Rev 818
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// 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 <stddef.h>#include <errno.h>#include <stdlib.h>#include "go-alloc.h"#include "runtime.h"#include "arch.h"#include "malloc.h"#include "go-string.h"#include "interface.h"#include "go-type.h"MHeap runtime_mheap;extern MStats mstats; // defined in extern.goextern volatile int32 runtime_MemProfileRate__asm__ ("libgo_runtime.runtime.MemProfileRate");// 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 flag, int32 dogc, int32 zeroed){M *m;G *g;int32 sizeclass, rate;MCache *c;uintptr npages;MSpan *s;void *v;m = runtime_m();g = runtime_g();if(g->status == Gsyscall)dogc = 0;if(runtime_gcwaiting && g != m->g0 && m->locks == 0 && g->status != Gsyscall) {runtime_gosched();m = runtime_m();}if(m->mallocing)runtime_throw("malloc/free - deadlock");m->mallocing = 1;if(size == 0)size = 1;c = m->mcache;c->local_nmalloc++;if(size <= MaxSmallSize) {// Allocate from mcache free lists.sizeclass = runtime_SizeToClass(size);size = runtime_class_to_size[sizeclass];v = runtime_MCache_Alloc(c, sizeclass, size, zeroed);if(v == nil)runtime_throw("out of memory");c->local_alloc += size;c->local_total_alloc += size;c->local_by_size[sizeclass].nmalloc++;} 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, !(flag & FlagNoGC));if(s == nil)runtime_throw("out of memory");size = npages<<PageShift;c->local_alloc += size;c->local_total_alloc += size;v = (void*)(s->start << PageShift);// setup for mark sweepruntime_markspan(v, 0, 0, true);}if(!(flag & FlagNoGC))runtime_markallocated(v, size, (flag&FlagNoPointers) != 0);m->mallocing = 0;if(!(flag & FlagNoProfiling) && (rate = runtime_MemProfileRate) > 0) {if(size >= (uint32) rate)goto profile;if((uint32) m->mcache->next_sample > size)m->mcache->next_sample -= size;else {// pick next profile time// If you change this, also change allocmcache.if(rate > 0x3fffffff) // make 2*rate not overflowrate = 0x3fffffff;m->mcache->next_sample = runtime_fastrand1() % (2*rate);profile:runtime_setblockspecial(v, true);runtime_MProf_Malloc(v, size);}}if(dogc && mstats.heap_alloc >= mstats.next_gc)runtime_gc(0);return v;}void*__go_alloc(uintptr size){return runtime_mallocgc(size, 0, 0, 1);}// Free the object whose base pointer is v.void__go_free(void *v){M *m;int32 sizeclass;MSpan *s;MCache *c;uint32 prof;uintptr size;if(v == nil)return;// If you change this also change mgc0.c:/^sweep,// which has a copy of the guts of free.m = runtime_m();if(m->mallocing)runtime_throw("malloc/free - deadlock");m->mallocing = 1;if(!runtime_mlookup(v, nil, nil, &s)) {// runtime_printf("free %p: not an allocated block\n", v);runtime_throw("free runtime_mlookup");}prof = runtime_blockspecial(v);// Find size class for v.sizeclass = s->sizeclass;c = m->mcache;if(sizeclass == 0) {// Large object.size = s->npages<<PageShift;*(uintptr*)(s->start<<PageShift) = 1; // mark as "needs to be zeroed"// Must mark v freed before calling unmarkspan and MHeap_Free:// they might coalesce v into other spans and change the bitmap further.runtime_markfreed(v, size);runtime_unmarkspan(v, 1<<PageShift);runtime_MHeap_Free(&runtime_mheap, s, 1);} else {// Small object.size = runtime_class_to_size[sizeclass];if(size > sizeof(uintptr))((uintptr*)v)[1] = 1; // mark as "needs to be zeroed"// Must mark v freed before calling MCache_Free:// it might coalesce v and other blocks into a bigger span// and change the bitmap further.runtime_markfreed(v, size);c->local_by_size[sizeclass].nfree++;runtime_MCache_Free(c, v, sizeclass, size);}c->local_alloc -= size;if(prof)runtime_MProf_Free(v, size);m->mallocing = 0;}int32runtime_mlookup(void *v, byte **base, uintptr *size, MSpan **sp){uintptr n, i;byte *p;MSpan *s;runtime_m()->mcache->local_nlookup++;s = runtime_MHeap_LookupMaybe(&runtime_mheap, v);if(sp)*sp = s;if(s == nil) {runtime_checkfreed(v, 1);if(base)*base = nil;if(size)*size = 0;return 0;}p = (byte*)((uintptr)s->start<<PageShift);if(s->sizeclass == 0) {// Large object.if(base)*base = p;if(size)*size = s->npages<<PageShift;return 1;}if((byte*)v >= (byte*)s->limit) {// pointers past the last block do not count as pointers.return 0;}n = runtime_class_to_size[s->sizeclass];if(base) {i = ((byte*)v - p)/n;*base = p + i*n;}if(size)*size = n;return 1;}MCache*runtime_allocmcache(void){int32 rate;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);// Set first allocation sample size.rate = runtime_MemProfileRate;if(rate > 0x3fffffff) // make 2*rate not overflowrate = 0x3fffffff;if(rate != 0)c->next_sample = runtime_fastrand1() % (2*rate);return c;}voidruntime_purgecachedstats(M* m){MCache *c;// Protected by either heap or GC lock.c = m->mcache;mstats.heap_alloc += c->local_cachealloc;c->local_cachealloc = 0;mstats.heap_objects += c->local_objects;c->local_objects = 0;mstats.nmalloc += c->local_nmalloc;c->local_nmalloc = 0;mstats.nfree += c->local_nfree;c->local_nfree = 0;mstats.nlookup += c->local_nlookup;c->local_nlookup = 0;mstats.alloc += c->local_alloc;c->local_alloc= 0;mstats.total_alloc += c->local_total_alloc;c->local_total_alloc= 0;}extern uintptr runtime_sizeof_C_MStats__asm__ ("libgo_runtime.runtime.Sizeof_C_MStats");#define MaxArena32 (2U<<30)voidruntime_mallocinit(void){byte *p;uintptr arena_size, bitmap_size;extern byte end[];byte *want;runtime_sizeof_C_MStats = sizeof(MStats);runtime_InitSizes();// Set up the allocation arena, a contiguous area of memory where// allocated data will be found. The arena begins with a bitmap large// enough to hold 4 bits per allocated word.if(sizeof(void*) == 8) {// On a 64-bit machine, allocate from a single contiguous reservation.// 16 GB should be big enough for now.//// The code will work with the reservation at any address, but ask// SysReserve to use 0x000000f800000000 if possible.// Allocating a 16 GB region takes away 36 bits, and the amd64// doesn't let us choose the top 17 bits, so that leaves the 11 bits// in the middle of 0x00f8 for us to choose. Choosing 0x00f8 means// that the valid memory addresses will begin 0x00f8, 0x00f9, 0x00fa, 0x00fb.// None of the bytes f8 f9 fa fb can appear in valid UTF-8, and// they are otherwise as far from ff (likely a common byte) as possible.// Choosing 0x00 for the leading 6 bits was more arbitrary, but it// is not a common ASCII code point either. Using 0x11f8 instead// caused out of memory errors on OS X during thread allocations.// These choices are both for debuggability and to reduce the// odds of the conservative garbage collector not collecting memory// because some non-pointer block of memory had a bit pattern// that matched a memory address.//// Actually we reserve 17 GB (because the bitmap ends up being 1 GB)// but it hardly matters: fc is not valid UTF-8 either, and we have to// allocate 15 GB before we get that far.arena_size = (uintptr)(16LL<<30);bitmap_size = arena_size / (sizeof(void*)*8/4);p = runtime_SysReserve((void*)(0x00f8ULL<<32), bitmap_size + arena_size);if(p == nil)runtime_throw("runtime: cannot reserve arena virtual address space");} else {// On a 32-bit machine, we can't typically get away// with a giant virtual address space reservation.// Instead we map the memory information bitmap// immediately after the data segment, large enough// to handle another 2GB of mappings (256 MB),// along with a reservation for another 512 MB of memory.// When that gets used up, we'll start asking the kernel// for any memory anywhere and hope it's in the 2GB// following the bitmap (presumably the executable begins// near the bottom of memory, so we'll have to use up// most of memory before the kernel resorts to giving out// memory before the beginning of the text segment).//// Alternatively we could reserve 512 MB bitmap, enough// for 4GB of mappings, and then accept any memory the// kernel threw at us, but normally that's a waste of 512 MB// of address space, which is probably too much in a 32-bit world.bitmap_size = MaxArena32 / (sizeof(void*)*8/4);arena_size = 512<<20;// SysReserve treats the address we ask for, end, as a hint,// not as an absolute requirement. If we ask for the end// of the data segment but the operating system requires// a little more space before we can start allocating, it will// give out a slightly higher pointer. Except QEMU, which// is buggy, as usual: it won't adjust the pointer upward.// So adjust it upward a little bit ourselves: 1/4 MB to get// away from the running binary image and then round up// to a MB boundary.want = (byte*)(((uintptr)end + (1<<18) + (1<<20) - 1)&~((1<<20)-1));if(0xffffffff - (uintptr)want <= bitmap_size + arena_size)want = 0;p = runtime_SysReserve(want, bitmap_size + arena_size);if(p == nil)runtime_throw("runtime: cannot reserve arena virtual address space");}if((uintptr)p & (((uintptr)1<<PageShift)-1))runtime_throw("runtime: SysReserve returned unaligned address");runtime_mheap.bitmap = p;runtime_mheap.arena_start = p + bitmap_size;runtime_mheap.arena_used = runtime_mheap.arena_start;runtime_mheap.arena_end = runtime_mheap.arena_start + arena_size;// Initialize the rest of the allocator.runtime_MHeap_Init(&runtime_mheap, runtime_SysAlloc);runtime_m()->mcache = runtime_allocmcache();// See if it works.runtime_free(runtime_malloc(1));}void*runtime_MHeap_SysAlloc(MHeap *h, uintptr n){byte *p;if(n <= (uintptr)(h->arena_end - h->arena_used)) {// Keep taking from our reservation.p = h->arena_used;runtime_SysMap(p, n);h->arena_used += n;runtime_MHeap_MapBits(h);return p;}// On 64-bit, our reservation is all we have.if(sizeof(void*) == 8)return nil;// On 32-bit, once the reservation is gone we can// try to get memory at a location chosen by the OS// and hope that it is in the range we allocated bitmap for.p = runtime_SysAlloc(n);if(p == nil)return nil;if(p < h->arena_start || (uintptr)(p+n - h->arena_start) >= MaxArena32) {runtime_printf("runtime: memory allocated by OS not in usable range\n");runtime_SysFree(p, n);return nil;}if(p+n > h->arena_used) {h->arena_used = p+n;if(h->arena_used > h->arena_end)h->arena_end = h->arena_used;runtime_MHeap_MapBits(h);}return p;}// Runtime stubs.void*runtime_mal(uintptr n){return runtime_mallocgc(n, 0, 1, 1);}func new(typ *Type) (ret *uint8) {uint32 flag = typ->__code&GO_NO_POINTERS ? FlagNoPointers : 0;ret = runtime_mallocgc(typ->__size, flag, 1, 1);}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);}func GC() {runtime_gc(1);}func SetFinalizer(obj Eface, finalizer Eface) {byte *base;uintptr size;const FuncType *ft;if(obj.__type_descriptor == nil) {// runtime·printf("runtime.SetFinalizer: first argument is nil interface\n");goto throw;}if(obj.__type_descriptor->__code != GO_PTR) {// runtime_printf("runtime.SetFinalizer: first argument is %S, not pointer\n", *obj.type->string);goto throw;}if(!runtime_mlookup(obj.__object, &base, &size, nil) || obj.__object != base) {// runtime_printf("runtime.SetFinalizer: pointer not at beginning of allocated block\n");goto throw;}ft = nil;if(finalizer.__type_descriptor != nil) {if(finalizer.__type_descriptor->__code != GO_FUNC)goto badfunc;ft = (const FuncType*)finalizer.__type_descriptor;if(ft->__dotdotdot || ft->__in.__count != 1 || !__go_type_descriptors_equal(*(Type**)ft->__in.__values, obj.__type_descriptor))goto badfunc;}if(!runtime_addfinalizer(obj.__object, finalizer.__type_descriptor != nil ? *(void**)finalizer.__object : nil, ft)) {runtime_printf("runtime.SetFinalizer: finalizer already set\n");goto throw;}return;badfunc:// runtime_printf("runtime.SetFinalizer: second argument is %S, not func(%S)\n", *finalizer.type->string, *obj.type->string);throw:runtime_throw("runtime.SetFinalizer");}
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