/* SPDX-License-Identifier: LGPL-2.1-or-later */ #include #include #include #include #include #include "alloc-util.h" #include "bitmap.h" #include "hashmap.h" #include "macro.h" #include "memory-util.h" /* Bitmaps are only meant to store relatively small numbers * (corresponding to, say, an enum), so it is ok to limit * the max entry. 64k should be plenty. */ #define BITMAPS_MAX_ENTRY 0xffff /* This indicates that we reached the end of the bitmap */ #define BITMAP_END (UINT_MAX) #define BITMAP_NUM_TO_OFFSET(n) ((n) / (sizeof(uint64_t) * 8)) #define BITMAP_NUM_TO_REM(n) ((n) % (sizeof(uint64_t) * 8)) #define BITMAP_OFFSET_TO_NUM(offset, rem) ((offset) * sizeof(uint64_t) * 8 + (rem)) Bitmap* bitmap_new(void) { return new0(Bitmap, 1); } Bitmap* bitmap_copy(Bitmap *b) { Bitmap *ret; ret = bitmap_new(); if (!ret) return NULL; ret->bitmaps = newdup(uint64_t, b->bitmaps, b->n_bitmaps); if (!ret->bitmaps) return mfree(ret); ret->n_bitmaps = b->n_bitmaps; return ret; } Bitmap* bitmap_free(Bitmap *b) { if (!b) return NULL; free(b->bitmaps); return mfree(b); } int bitmap_ensure_allocated(Bitmap **b) { Bitmap *a; assert(b); if (*b) return 0; a = bitmap_new(); if (!a) return -ENOMEM; *b = a; return 0; } int bitmap_set(Bitmap *b, unsigned n) { uint64_t bitmask; unsigned offset; assert(b); /* we refuse to allocate huge bitmaps */ if (n > BITMAPS_MAX_ENTRY) return -ERANGE; offset = BITMAP_NUM_TO_OFFSET(n); if (offset >= b->n_bitmaps) { if (!GREEDY_REALLOC0(b->bitmaps, offset + 1)) return -ENOMEM; b->n_bitmaps = offset + 1; } bitmask = UINT64_C(1) << BITMAP_NUM_TO_REM(n); b->bitmaps[offset] |= bitmask; return 0; } void bitmap_unset(Bitmap *b, unsigned n) { uint64_t bitmask; unsigned offset; if (!b) return; offset = BITMAP_NUM_TO_OFFSET(n); if (offset >= b->n_bitmaps) return; bitmask = UINT64_C(1) << BITMAP_NUM_TO_REM(n); b->bitmaps[offset] &= ~bitmask; } bool bitmap_isset(const Bitmap *b, unsigned n) { uint64_t bitmask; unsigned offset; if (!b) return false; offset = BITMAP_NUM_TO_OFFSET(n); if (offset >= b->n_bitmaps) return false; bitmask = UINT64_C(1) << BITMAP_NUM_TO_REM(n); return !!(b->bitmaps[offset] & bitmask); } bool bitmap_isclear(const Bitmap *b) { unsigned i; if (!b) return true; for (i = 0; i < b->n_bitmaps; i++) if (b->bitmaps[i] != 0) return false; return true; } void bitmap_clear(Bitmap *b) { if (!b) return; b->bitmaps = mfree(b->bitmaps); b->n_bitmaps = 0; } bool bitmap_iterate(const Bitmap *b, Iterator *i, unsigned *n) { uint64_t bitmask; unsigned offset, rem; assert(i); assert(n); if (!b || i->idx == BITMAP_END) return false; offset = BITMAP_NUM_TO_OFFSET(i->idx); rem = BITMAP_NUM_TO_REM(i->idx); bitmask = UINT64_C(1) << rem; for (; offset < b->n_bitmaps; offset ++) { if (b->bitmaps[offset]) { for (; bitmask; bitmask <<= 1, rem ++) { if (b->bitmaps[offset] & bitmask) { *n = BITMAP_OFFSET_TO_NUM(offset, rem); i->idx = *n + 1; return true; } } } rem = 0; bitmask = 1; } i->idx = BITMAP_END; return false; } bool bitmap_equal(const Bitmap *a, const Bitmap *b) { size_t common_n_bitmaps; const Bitmap *c; unsigned i; if (a == b) return true; if (!a != !b) return false; if (!a) return true; common_n_bitmaps = MIN(a->n_bitmaps, b->n_bitmaps); if (memcmp_safe(a->bitmaps, b->bitmaps, sizeof(uint64_t) * common_n_bitmaps) != 0) return false; c = a->n_bitmaps > b->n_bitmaps ? a : b; for (i = common_n_bitmaps; i < c->n_bitmaps; i++) if (c->bitmaps[i] != 0) return false; return true; }