ref: 54bac038f411c10a596adf84c06df32f8c7c4c53
dir: /os/port/xalloc.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #define datoff ((ulong)((Xhdr*)0)->data) enum { Chunk = 64*1024, Nhole = 128, Magichole = 0xDeadBabe, }; typedef struct Hole Hole; typedef struct Xalloc Xalloc; typedef struct Xhdr Xhdr; struct Hole { ulong addr; ulong size; ulong top; Hole* link; }; struct Xhdr { ulong size; ulong magix; char data[1]; }; struct Xalloc { Lock; Hole hole[Nhole]; Hole* flist; Hole* table; }; static Xalloc xlists; static void ixprt() { xsummary(); ixsummary(); } void xinit(void) { Hole *h, *eh; eh = &xlists.hole[Nhole-1]; for(h = xlists.hole; h < eh; h++) h->link = h+1; xlists.flist = xlists.hole; if(conf.npage1) xhole(conf.base1, conf.npage1*BY2PG); conf.npage1 = conf.base1+(conf.npage1*BY2PG); if(conf.npage0) xhole(conf.base0, conf.npage0*BY2PG); conf.npage0 = conf.base0+(conf.npage0*BY2PG); /* Save the bounds of kernel alloc memory for kernel mmu mapping */ conf.base0 = (ulong)KADDR(conf.base0); conf.base1 = (ulong)KADDR(conf.base1); conf.npage0 = (ulong)KADDR(conf.npage0); conf.npage1 = (ulong)KADDR(conf.npage1); debugkey('x', "xalloc/ialloc", ixprt, 0); } void* xspanalloc(ulong size, int align, ulong span) { ulong a, v, t; a = (ulong)xalloc(size+align+span); if(a == 0) panic("xspanalloc: %lud %d %lux\n", size, align, span); if(span > 2) { v = (a + span) & ~(span-1); t = v - a; if(t > 0) xhole(PADDR(a), t); t = a + span - v; if(t > 0) xhole(PADDR(v+size+align), t); } else v = a; if(align > 1) v = (v + align) & ~(align-1); return (void*)v; } void* xallocz(ulong size, int zero) { Xhdr *p; Hole *h, **l; size += BY2V + sizeof(Xhdr); size &= ~(BY2V-1); ilock(&xlists); l = &xlists.table; for(h = *l; h; h = h->link) { if(h->size >= size) { p = (Xhdr*)h->addr; h->addr += size; h->size -= size; if(h->size == 0) { *l = h->link; h->link = xlists.flist; xlists.flist = h; } iunlock(&xlists); p = KADDR(p); p->magix = Magichole; p->size = size; if(zero) memset(p->data, 0, size); return p->data; } l = &h->link; } iunlock(&xlists); return nil; } void* xalloc(ulong size) { return xallocz(size, 1); } void xfree(void *p) { Xhdr *x; x = (Xhdr*)((ulong)p - datoff); if(x->magix != Magichole) { xsummary(); panic("xfree(0x%lux) 0x%lux!=0x%lux", p, (ulong)Magichole, x->magix); } xhole(PADDR(x), x->size); } int xmerge(void *vp, void *vq) { Xhdr *p, *q; p = (Xhdr*)(((ulong)vp - offsetof(Xhdr, data[0]))); q = (Xhdr*)(((ulong)vq - offsetof(Xhdr, data[0]))); if(p->magix != Magichole || q->magix != Magichole) { xsummary(); panic("xmerge(%#p, %#p) bad magic %#lux, %#lux\n", vp, vq, p->magix, q->magix); } if((uchar*)p+p->size == (uchar*)q) { p->size += q->size; return 1; } return 0; } void xhole(ulong addr, ulong size) { ulong top; Hole *h, *c, **l; if(size == 0) return; top = addr + size; ilock(&xlists); l = &xlists.table; for(h = *l; h; h = h->link) { if(h->top == addr) { h->size += size; h->top = h->addr+h->size; c = h->link; if(c && h->top == c->addr) { h->top += c->size; h->size += c->size; h->link = c->link; c->link = xlists.flist; xlists.flist = c; } iunlock(&xlists); return; } if(h->addr > addr) break; l = &h->link; } if(h && top == h->addr) { h->addr -= size; h->size += size; iunlock(&xlists); return; } if(xlists.flist == nil) { iunlock(&xlists); print("xfree: no free holes, leaked %lud bytes\n", size); return; } h = xlists.flist; xlists.flist = h->link; h->addr = addr; h->top = top; h->size = size; h->link = *l; *l = h; iunlock(&xlists); } void xsummary(void) { int i; Hole *h; i = 0; for(h = xlists.flist; h; h = h->link) i++; print("%d holes free\n", i); i = 0; for(h = xlists.table; h; h = h->link) { print("%.8lux %.8lux %lud\n", h->addr, h->top, h->size); i += h->size; } print("%d bytes free\n", i); }