/* * BIRD Library -- Bitmaps * * (c) 2019 Ondrej Zajicek * (c) 2019 CZ.NIC z.s.p.o. * * Can be freely distributed and used under the terms of the GNU GPL. */ #include #include "nest/bird.h" #include "lib/bitmap.h" #include "lib/bitops.h" #include "lib/resource.h" /* * Basic bitmap */ void bmap_init(struct bmap *b, pool *p, uint size) { b->size = BIRD_ALIGN(size, 4); b->data = mb_allocz(p, b->size); } void bmap_grow(struct bmap *b, uint need) { uint size = b->size * 2; while (size < need) size *= 2; uint old_size = b->size; b->size = size; b->data = mb_realloc(b->data, b->size); ASSERT(size >= old_size); memset(b->data + (old_size / 4), 0, size - old_size); } void bmap_free(struct bmap *b) { mb_free(b->data); b->size = 0; b->data = NULL; } /* * Hierarchical bitmap */ #define B256_SIZE(b) BIRD_ALIGN(b, 32) #define B256_STEP(b) (BIRD_ALIGN(b, 8192) >> 8) void hmap_init(struct hmap *b, pool *p, uint size) { b->size[0] = B256_SIZE(size); b->size[1] = B256_STEP(b->size[0]); b->size[2] = B256_STEP(b->size[1]); b->size[3] = sizeof(b->root); b->data[0] = mb_allocz(p, b->size[0]); b->data[1] = mb_allocz(p, b->size[1]); b->data[2] = mb_allocz(p, b->size[2]); b->data[3] = b->root; memset(b->root, 0, sizeof(b->root)); } static void hmap_grow(struct hmap *b, uint need) { uint size = b->size[0] * 2; while (size < need) size *= 2; for (uint i = 0; i < 3; i++) { uint old_size = b->size[i]; b->size[i] = size; b->data[i] = mb_realloc(b->data[i], b->size[i]); ASSERT(size >= old_size); memset(b->data[i] + (old_size / 4), 0, size - old_size); size = B256_STEP(size); } } void hmap_free(struct hmap *b) { mb_free(b->data[0]); mb_free(b->data[1]); mb_free(b->data[2]); memset(b, 0, sizeof(struct hmap)); } static inline int b256_and(u32 *p) { for (int i = 0; i < 8; i++) if (~p[i]) return 0; return 1; } void hmap_set(struct hmap *b, uint n) { if (n >= hmap_max(b)) hmap_grow(b, n/8 + 1); for (int i = 0; i < 4; i++) { BIT32_SET(b->data[i], n); n = n >> 8; /* Continue if all bits in 256-bit block are set */ if (! b256_and(b->data[i] + 8*n)) break; } } void hmap_clear(struct hmap *b, uint n) { if (n >= hmap_max(b)) return; for (int i = 0; i < 4; i++) { BIT32_CLR(b->data[i], n); n = n >> 8; } } static inline int b256_first_zero(u32 *p) { for (int i = 0; i < 8; i++) if (~p[i]) return 32*i + u32_ctz(~p[i]); return 256; } u32 hmap_first_zero(struct hmap *b) { u32 n = 0; for (int i = 3; i >= 0; i--) { if (32*n >= b->size[i]) return hmap_max(b); u32 *p = b->data[i] + 8*n; n = (n << 8) + b256_first_zero(p); } return n; } void hmap_check(struct hmap *b) { for (int i = 0; i < 2; i++) { int max = b->size[i] / 32; for (int j = 0; j < max; j++) { int x = b256_and(b->data[i] + 8*j); int y = !!BIT32_TEST(b->data[i+1], j); if (x != y) bug("Inconsistent data on %d:%d (%d vs %d)", i, j, x, y); } } }