ref: f0aa2bfef6b39d26792d66be56565fca32d4a842
dir: /zalloc.c/
#include <u.h> #include <libc.h> #include "asif.h" /* "simple" "slab allocation" free lists: no memory is ever freed, left to be * reclaimed by the kernel on exit; should be able to detect some bugs, but * still convoluted. keeps track of used nodes to be able to reap them all at * once. */ typedef struct Zhouse Zhouse; typedef struct Znode Znode; typedef struct Zhdr Zhdr; typedef struct Ztail Ztail; struct Zhdr{ Zhouse *z; Znode *next; Znode *prev; }; struct Znode{ Zhdr; void data[]; }; struct Ztail{ Zhouse *z; }; struct Zhouse{ Zpool; Znode used; Znode; }; enum{ Ninc = 2048, }; static Ztail * n2t(Znode *p) { return (Ztail *)((uchar *)p + sizeof(Zhdr) + p->z->elsize); } static Znode * v2n(uchar *data) { return (Znode *)(data - sizeof(Zhdr)); } static void zcheckpool(Znode *p, Zhouse *z) { Ztail *t; assert(p == nil || p != z); assert(z != nil && z->elsize > 0); if(p != nil){ assert(p->z == z); t = n2t(p); assert(t->z == z); } } static void zlink(Znode *p, Znode *l, int clr) { if(clr){ p->next->prev = p->prev; p->prev->next = p->next; } p->prev = l->prev; p->next = l; l->prev->next = p; l->prev = p; } void znuke(Zpool *zp) { Zhouse *z; if(zp == nil) return; z = (Zhouse *)zp; /* prev → z → NEXT → … → PREV → next; contents must be zeroed */ z->used.prev->next = z->next; z->next->prev = z->used.prev; z->next = z->used.next; z->used.next->prev = &z->Znode; z->used.next = z->used.prev = &z->used; } static Znode * zpop(Zhouse *z) { Znode *p; p = z->next; assert(p != z); zlink(p, &z->used, 1); return p; } static void _zfree(Znode *p) { Zhouse *z; if(p == nil) return; z = p->z; zcheckpool(p, z); memset(p->data, 0, z->elsize); zlink(p, &z->Znode, 1); } void zfree(void *data) { if(data == nil) return; _zfree(v2n(data)); } static void zfeed(Zhouse *z) { ulong n; uchar *u, *v; Znode *p; Ztail *t; if(z->next != z) return; zcheckpool(nil, z); n = sizeof(Zhdr) + z->elsize + sizeof *t; u = emalloc(Ninc * n); for(v=u; v<u+Ninc*n; v+=n){ p = (Znode *)v; p->z = z; t = n2t(p); t->z = z; zlink(p, &z->Znode, 0); } } void * zalloc(Zpool *zp) { Znode *p; Zhouse *z; z = (Zhouse *)zp; zfeed(z); p = zpop(z); memset(p->data, 0, z->elsize); return p->data; } Zpool * znew(usize elsize) { Zhouse *z; assert(elsize > 0); z = emalloc(sizeof *z); z->elsize = elsize; z->next = z->prev = z; z->used.next = z->used.prev = &z->used; zfeed(z); return z; }