/* * This file is a part of SMalloc. * SMalloc is MIT licensed. * Copyright (c) 2017 Andrey Rys. */ #include "smalloc_i.h" /* * Please do NOT use this function directly or rely on it's presence. * It may go away in future SMalloc versions, or it's calling * signature may change. It is internal function, hence "_i" suffix. */ void *sm_realloc_pool_i(struct smalloc_pool *spool, void *p, size_t n, int nomove) { struct smalloc_hdr *basehdr, *shdr, *dhdr; void *r; char *s; int found; size_t rsz, usz, x; uintptr_t tag; if (!smalloc_verify_pool(spool)) { errno = EINVAL; return NULL; } if (!p) return sm_malloc_pool(spool, n); if (!n && p) { sm_free_pool(spool, p); return NULL; } /* determine user size */ shdr = USER_TO_HEADER(p); if (!smalloc_is_alloc(spool, shdr)) smalloc_UB(spool, p); usz = shdr->usz; rsz = shdr->rsz; /* newsize is lesser than allocated - truncate */ if (n <= usz) { if (spool->do_zero) memset(p + n, 0, shdr->rsz - n); s = CHAR_PTR(HEADER_TO_USER(shdr)); s += usz; memset(s, 0, HEADER_SZ); if (spool->do_zero) memset(s+HEADER_SZ, 0, rsz - usz); shdr->rsz = (n%HEADER_SZ)?(((n/HEADER_SZ)+1)*HEADER_SZ):n; shdr->usz = n; shdr->tag = tag = smalloc_mktag(shdr); s = CHAR_PTR(HEADER_TO_USER(shdr)); s += shdr->usz; for (x = 0; x < sizeof(struct smalloc_hdr); x += sizeof(uintptr_t)) { tag = smalloc_uinthash(tag); memcpy(s+x, &tag, sizeof(uintptr_t)); } memset(s+x, 0xff, shdr->rsz - shdr->usz); return p; } /* newsize is bigger than allocated, but there is free room - modify */ if (n > usz && n <= rsz) { if (spool->do_zero) { s = CHAR_PTR(HEADER_TO_USER(shdr)); s += usz; memset(s, 0, HEADER_SZ); } shdr->usz = n; shdr->tag = tag = smalloc_mktag(shdr); s = CHAR_PTR(HEADER_TO_USER(shdr)); s += shdr->usz; for (x = 0; x < sizeof(struct smalloc_hdr); x += sizeof(uintptr_t)) { tag = smalloc_uinthash(tag); memcpy(s+x, &tag, sizeof(uintptr_t)); } memset(s+x, 0xff, shdr->rsz - shdr->usz); return p; } /* newsize is bigger, larger than rsz but there are free blocks beyond - extend */ basehdr = spool->pool; dhdr = shdr+(rsz/HEADER_SZ); found = 0; while (CHAR_PTR(dhdr)-CHAR_PTR(basehdr) < spool->pool_size) { x = CHAR_PTR(dhdr)-CHAR_PTR(shdr); if (smalloc_is_alloc(spool, dhdr)) goto allocblock; if (n + HEADER_SZ <= x) { x -= HEADER_SZ; found = 1; goto outfound; } dhdr++; } outfound: /* write new numbers of same allocation */ if (found) { if (spool->do_zero) { s = CHAR_PTR(HEADER_TO_USER(shdr)); s += usz; memset(s, 0, HEADER_SZ); memset(s+HEADER_SZ, 0, rsz - usz); } shdr->rsz = x; shdr->usz = n; shdr->tag = tag = smalloc_mktag(shdr); s = CHAR_PTR(HEADER_TO_USER(shdr)); s += shdr->usz; for (x = 0; x < sizeof(struct smalloc_hdr); x += sizeof(uintptr_t)) { tag = smalloc_uinthash(tag); memcpy(s+x, &tag, sizeof(uintptr_t)); } memset(s+x, 0xff, shdr->rsz - shdr->usz); return p; } allocblock: /* newsize is bigger than allocated and no free space - move */ if (nomove) { /* fail if user asked */ errno = ERANGE; return NULL; } r = sm_malloc_pool(spool, n); if (!r) return NULL; memcpy(r, p, usz); sm_free_pool(spool, p); return r; }