/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include /* * Initialize a bitset_t. * After bitset_init(), the bitset will be zero sized. */ void bitset_init(bitset_t *b) { bzero(b, sizeof (bitset_t)); } /* * Uninitialize a bitset_t. * This will free the bitset's data, leaving it zero sized. */ void bitset_fini(bitset_t *b) { if (b->bs_words > 0) kmem_free(b->bs_set, b->bs_words * sizeof (ulong_t)); } /* * Resize a bitset to where it can hold sz number of bits. * This can either grow or shrink the bitset holding capacity. * In the case of shrinkage, elements that reside outside the new * holding capacity of the bitset are lost. */ void bitset_resize(bitset_t *b, uint_t sz) { uint_t nwords; ulong_t *bset_new, *bset_tmp; nwords = BT_BITOUL(sz); if (b->bs_words == nwords) return; /* already properly sized */ /* * Allocate the new ulong_t array, and copy the old one, if there * was an old one. */ if (nwords > 0) { bset_new = kmem_zalloc(nwords * sizeof (ulong_t), KM_SLEEP); if (b->bs_words > 0) bcopy(b->bs_set, bset_new, MIN(b->bs_words, nwords) * sizeof (ulong_t)); } else { bset_new = NULL; } /* swap out the old ulong_t array for new one */ bset_tmp = b->bs_set; b->bs_set = bset_new; /* free up the old array */ if (b->bs_words > 0) kmem_free(bset_tmp, b->bs_words * sizeof (ulong_t)); b->bs_words = nwords; } /* * Returns the current holding capacity of the bitset */ uint_t bitset_capacity(bitset_t *b) { return (b->bs_words * BT_NBIPUL); } /* * Add and delete bits in the bitset. * * Adding a bit that is already set, and clearing a bit that's already clear * is legal. * * Adding or deleting an element that falls outside the bitset's current * holding capacity is illegal. */ /* * Set a bit */ void bitset_add(bitset_t *b, uint_t elt) { ASSERT(b->bs_words * BT_NBIPUL > elt); BT_SET(b->bs_set, elt); } /* * Set a bit in an atomically safe way */ void bitset_atomic_add(bitset_t *b, uint_t elt) { ASSERT(b->bs_words * BT_NBIPUL > elt); BT_ATOMIC_SET(b->bs_set, elt); } /* * Atomically test that a given bit isn't set, and set it. * Returns -1 if the bit was already set. */ int bitset_atomic_test_and_add(bitset_t *b, uint_t elt) { int r; ASSERT(b->bs_words * BT_NBIPUL > elt); BT_ATOMIC_SET_EXCL(b->bs_set, elt, r); return (r); } /* * Clear a bit */ void bitset_del(bitset_t *b, uint_t elt) { ASSERT(b->bs_words * BT_NBIPUL > elt); BT_CLEAR(b->bs_set, elt); } /* * Clear a bit in an atomically safe way */ void bitset_atomic_del(bitset_t *b, uint_t elt) { ASSERT(b->bs_words * BT_NBIPUL > elt); BT_ATOMIC_CLEAR(b->bs_set, elt); } /* * Atomically test that a bit is set, and clear it. * Returns -1 if the bit was already clear. */ int bitset_atomic_test_and_del(bitset_t *b, uint_t elt) { int r; ASSERT(b->bs_words * BT_NBIPUL > elt); BT_ATOMIC_CLEAR_EXCL(b->bs_set, elt, r); return (r); } /* * Return non-zero if the bit is present in the set */ int bitset_in_set(bitset_t *b, uint_t elt) { if (elt >= b->bs_words * BT_NBIPUL) return (0); return (BT_TEST(b->bs_set, elt)); } /* * Return non-zero if the bitset is empty */ int bitset_is_null(bitset_t *b) { int i; for (i = 0; i < b->bs_words; i++) if (b->bs_set[i] != 0) return (0); return (1); } /* * Perform a non-victimizing search for a set bit in a word * A "seed" is passed to pseudo-randomize the search. * Return -1 if no set bit was found */ static uint_t bitset_find_in_word(ulong_t w, uint_t seed) { uint_t rotate_bit, elt = (uint_t)-1; ulong_t rotated_word; if (w == (ulong_t)0) return (elt); rotate_bit = seed % BT_NBIPUL; rotated_word = (w >> rotate_bit) | (w << (BT_NBIPUL - rotate_bit)); elt = (uint_t)(lowbit(rotated_word) - 1); if (elt != (uint_t)-1) elt = ((elt + rotate_bit) % BT_NBIPUL); return (elt); } /* * Select a bit that is set in the bitset in a non-victimizing fashion * (e.g. doesn't bias the low/high order bits/words). * Return -1 if no set bit was found */ uint_t bitset_find(bitset_t *b) { uint_t start, i; uint_t elt = (uint_t)-1; uint_t seed; seed = CPU_PSEUDO_RANDOM(); start = seed % b->bs_words; i = start; do { elt = bitset_find_in_word(b->bs_set[i], seed); if (elt != (uint_t)-1) { elt += i * BT_NBIPUL; break; } if (++i == b->bs_words) i = 0; } while (i != start); return (elt); } /* * AND, OR, and XOR bitset computations * Returns 1 if resulting bitset has any set bits */ int bitset_and(bitset_t *bs1, bitset_t *bs2, bitset_t *res) { int i, anyset; for (anyset = 0, i = 0; i < bs1->bs_words; i++) { if ((res->bs_set[i] = (bs1->bs_set[i] & bs2->bs_set[i])) != 0) anyset = 1; } return (anyset); } int bitset_or(bitset_t *bs1, bitset_t *bs2, bitset_t *res) { int i, anyset; for (anyset = 0, i = 0; i < bs1->bs_words; i++) { if ((res->bs_set[i] = (bs1->bs_set[i] | bs2->bs_set[i])) != 0) anyset = 1; } return (anyset); } int bitset_xor(bitset_t *bs1, bitset_t *bs2, bitset_t *res) { int i; int anyset = 0; for (i = 0; i < bs1->bs_words; i++) { if ((res->bs_set[i] = (bs1->bs_set[i] ^ bs2->bs_set[i])) != 0) anyset = 1; } return (anyset); } /* * return 1 if bitmaps are identical */ int bitset_match(bitset_t *bs1, bitset_t *bs2) { int i; if (bs1->bs_words != bs2->bs_words) return (0); for (i = 0; i < bs1->bs_words; i++) if (bs1->bs_set[i] != bs2->bs_set[i]) return (0); return (1); } /* * Zero a bitset_t */ void bitset_zero(bitset_t *b) { bzero(b->bs_set, sizeof (ulong_t) * b->bs_words); } /* * Copy a bitset_t */ void bitset_copy(bitset_t *src, bitset_t *dest) { bcopy(src->bs_set, dest->bs_set, sizeof (ulong_t) * src->bs_words); }