1f6bde1fdSPoul-Henning Kamp /*- 2f6bde1fdSPoul-Henning Kamp * Copyright (c) 2004 Poul-Henning Kamp 3f6bde1fdSPoul-Henning Kamp * All rights reserved. 4f6bde1fdSPoul-Henning Kamp * 5f6bde1fdSPoul-Henning Kamp * Redistribution and use in source and binary forms, with or without 6f6bde1fdSPoul-Henning Kamp * modification, are permitted provided that the following conditions 7f6bde1fdSPoul-Henning Kamp * are met: 8f6bde1fdSPoul-Henning Kamp * 1. Redistributions of source code must retain the above copyright 9f6bde1fdSPoul-Henning Kamp * notice, this list of conditions and the following disclaimer. 10f6bde1fdSPoul-Henning Kamp * 2. Redistributions in binary form must reproduce the above copyright 11f6bde1fdSPoul-Henning Kamp * notice, this list of conditions and the following disclaimer in the 12f6bde1fdSPoul-Henning Kamp * documentation and/or other materials provided with the distribution. 13f6bde1fdSPoul-Henning Kamp * 14f6bde1fdSPoul-Henning Kamp * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15f6bde1fdSPoul-Henning Kamp * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16f6bde1fdSPoul-Henning Kamp * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17f6bde1fdSPoul-Henning Kamp * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18f6bde1fdSPoul-Henning Kamp * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19f6bde1fdSPoul-Henning Kamp * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20f6bde1fdSPoul-Henning Kamp * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21f6bde1fdSPoul-Henning Kamp * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22f6bde1fdSPoul-Henning Kamp * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23f6bde1fdSPoul-Henning Kamp * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24f6bde1fdSPoul-Henning Kamp * SUCH DAMAGE. 25f6bde1fdSPoul-Henning Kamp * 26f6bde1fdSPoul-Henning Kamp * $FreeBSD$ 27d9a54d5cSPoul-Henning Kamp * 28d9a54d5cSPoul-Henning Kamp * 29d9a54d5cSPoul-Henning Kamp * Unit number allocation functions. 30f6bde1fdSPoul-Henning Kamp * 31f6bde1fdSPoul-Henning Kamp * These functions implement a mixed run-length/bitmap management of unit 32d9a54d5cSPoul-Henning Kamp * number spaces in a very memory efficient manner. 33f6bde1fdSPoul-Henning Kamp * 34d9a54d5cSPoul-Henning Kamp * Allocation policy is always lowest free number first. 35f6bde1fdSPoul-Henning Kamp * 36d9a54d5cSPoul-Henning Kamp * A return value of -1 signals that no more unit numbers are available. 37f6bde1fdSPoul-Henning Kamp * 38d9a54d5cSPoul-Henning Kamp * There is no cost associated with the range of unitnumbers, so unless 39d9a54d5cSPoul-Henning Kamp * the resource really is finite, specify INT_MAX to new_unrhdr() and 40d9a54d5cSPoul-Henning Kamp * forget about checking the return value. 41f6bde1fdSPoul-Henning Kamp * 42d9a54d5cSPoul-Henning Kamp * If a mutex is not provided when the unit number space is created, a 43d9a54d5cSPoul-Henning Kamp * default global mutex is used. The advantage to passing a mutex in, is 446bccea7cSRebecca Cran * that the alloc_unrl() function can be called with the mutex already 45d9a54d5cSPoul-Henning Kamp * held (it will not be released by alloc_unrl()). 46d9a54d5cSPoul-Henning Kamp * 47d9a54d5cSPoul-Henning Kamp * The allocation function alloc_unr{l}() never sleeps (but it may block on 48d9a54d5cSPoul-Henning Kamp * the mutex of course). 49d9a54d5cSPoul-Henning Kamp * 50d9a54d5cSPoul-Henning Kamp * Freeing a unit number may require allocating memory, and can therefore 51d9a54d5cSPoul-Henning Kamp * sleep so the free_unr() function does not come in a pre-locked variant. 52f6bde1fdSPoul-Henning Kamp * 53f6bde1fdSPoul-Henning Kamp * A userland test program is included. 54f6bde1fdSPoul-Henning Kamp * 556bccea7cSRebecca Cran * Memory usage is a very complex function of the exact allocation 56d9a54d5cSPoul-Henning Kamp * pattern, but always very compact: 57d9a54d5cSPoul-Henning Kamp * * For the very typical case where a single unbroken run of unit 58d9a54d5cSPoul-Henning Kamp * numbers are allocated 44 bytes are used on i386. 59d9a54d5cSPoul-Henning Kamp * * For a unit number space of 1000 units and the random pattern 60d9a54d5cSPoul-Henning Kamp * in the usermode test program included, the worst case usage 61d9a54d5cSPoul-Henning Kamp * was 252 bytes on i386 for 500 allocated and 500 free units. 62d9a54d5cSPoul-Henning Kamp * * For a unit number space of 10000 units and the random pattern 63d9a54d5cSPoul-Henning Kamp * in the usermode test program included, the worst case usage 64d9a54d5cSPoul-Henning Kamp * was 798 bytes on i386 for 5000 allocated and 5000 free units. 65d9a54d5cSPoul-Henning Kamp * * The worst case is where every other unit number is allocated and 6696240c89SEitan Adler * the rest are free. In that case 44 + N/4 bytes are used where 67d9a54d5cSPoul-Henning Kamp * N is the number of the highest unit allocated. 68f6bde1fdSPoul-Henning Kamp */ 69f6bde1fdSPoul-Henning Kamp 708907f744SAlan Somers #include <sys/param.h> 71f6bde1fdSPoul-Henning Kamp #include <sys/types.h> 72dc872d46SKonstantin Belousov #include <sys/_unrhdr.h> 73f6bde1fdSPoul-Henning Kamp 74f6bde1fdSPoul-Henning Kamp #ifdef _KERNEL 75f6bde1fdSPoul-Henning Kamp 76794277daSAlan Somers #include <sys/bitstring.h> 77f6bde1fdSPoul-Henning Kamp #include <sys/malloc.h> 78f6bde1fdSPoul-Henning Kamp #include <sys/kernel.h> 79f6bde1fdSPoul-Henning Kamp #include <sys/systm.h> 80d9a54d5cSPoul-Henning Kamp #include <sys/limits.h> 81d9a54d5cSPoul-Henning Kamp #include <sys/lock.h> 82d9a54d5cSPoul-Henning Kamp #include <sys/mutex.h> 83f6bde1fdSPoul-Henning Kamp 84f6bde1fdSPoul-Henning Kamp /* 85f6bde1fdSPoul-Henning Kamp * In theory it would be smarter to allocate the individual blocks 86f6bde1fdSPoul-Henning Kamp * with the zone allocator, but at this time the expectation is that 87f6bde1fdSPoul-Henning Kamp * there will typically not even be enough allocations to fill a single 88f6bde1fdSPoul-Henning Kamp * page, so we stick with malloc for now. 89f6bde1fdSPoul-Henning Kamp */ 90f6bde1fdSPoul-Henning Kamp static MALLOC_DEFINE(M_UNIT, "Unitno", "Unit number allocation"); 91f6bde1fdSPoul-Henning Kamp 92f6bde1fdSPoul-Henning Kamp #define Malloc(foo) malloc(foo, M_UNIT, M_WAITOK | M_ZERO) 93f6bde1fdSPoul-Henning Kamp #define Free(foo) free(foo, M_UNIT) 94f6bde1fdSPoul-Henning Kamp 95d9a54d5cSPoul-Henning Kamp static struct mtx unitmtx; 96d9a54d5cSPoul-Henning Kamp 97d9a54d5cSPoul-Henning Kamp MTX_SYSINIT(unit, &unitmtx, "unit# allocation", MTX_DEF); 98d9a54d5cSPoul-Henning Kamp 99f6bde1fdSPoul-Henning Kamp #else /* ...USERLAND */ 100f6bde1fdSPoul-Henning Kamp 101794277daSAlan Somers #include <bitstring.h> 102794277daSAlan Somers #include <err.h> 103794277daSAlan Somers #include <errno.h> 104794277daSAlan Somers #include <getopt.h> 105794277daSAlan Somers #include <stdbool.h> 106f6bde1fdSPoul-Henning Kamp #include <stdio.h> 107f6bde1fdSPoul-Henning Kamp #include <stdlib.h> 108d9a54d5cSPoul-Henning Kamp #include <string.h> 109f6bde1fdSPoul-Henning Kamp 110f6bde1fdSPoul-Henning Kamp #define KASSERT(cond, arg) \ 111f6bde1fdSPoul-Henning Kamp do { \ 112f6bde1fdSPoul-Henning Kamp if (!(cond)) { \ 113f6bde1fdSPoul-Henning Kamp printf arg; \ 114d9a54d5cSPoul-Henning Kamp abort(); \ 115f6bde1fdSPoul-Henning Kamp } \ 116f6bde1fdSPoul-Henning Kamp } while (0) 117f6bde1fdSPoul-Henning Kamp 118d9a54d5cSPoul-Henning Kamp static int no_alloc; 119d9a54d5cSPoul-Henning Kamp #define Malloc(foo) _Malloc(foo, __LINE__) 120d9a54d5cSPoul-Henning Kamp static void * 121d9a54d5cSPoul-Henning Kamp _Malloc(size_t foo, int line) 122d9a54d5cSPoul-Henning Kamp { 123d9a54d5cSPoul-Henning Kamp 124d9a54d5cSPoul-Henning Kamp KASSERT(no_alloc == 0, ("malloc in wrong place() line %d", line)); 125d9a54d5cSPoul-Henning Kamp return (calloc(foo, 1)); 126d9a54d5cSPoul-Henning Kamp } 127f6bde1fdSPoul-Henning Kamp #define Free(foo) free(foo) 128f6bde1fdSPoul-Henning Kamp 129d9a54d5cSPoul-Henning Kamp struct unrhdr; 130d9a54d5cSPoul-Henning Kamp 131d9a54d5cSPoul-Henning Kamp 132d9a54d5cSPoul-Henning Kamp struct mtx { 133d9a54d5cSPoul-Henning Kamp int state; 134d9a54d5cSPoul-Henning Kamp } unitmtx; 135d9a54d5cSPoul-Henning Kamp 136d9a54d5cSPoul-Henning Kamp static void 137d9a54d5cSPoul-Henning Kamp mtx_lock(struct mtx *mp) 138d9a54d5cSPoul-Henning Kamp { 139d9a54d5cSPoul-Henning Kamp KASSERT(mp->state == 0, ("mutex already locked")); 140d9a54d5cSPoul-Henning Kamp mp->state = 1; 141d9a54d5cSPoul-Henning Kamp } 142d9a54d5cSPoul-Henning Kamp 143d9a54d5cSPoul-Henning Kamp static void 144d9a54d5cSPoul-Henning Kamp mtx_unlock(struct mtx *mp) 145d9a54d5cSPoul-Henning Kamp { 146d9a54d5cSPoul-Henning Kamp KASSERT(mp->state == 1, ("mutex not locked")); 147d9a54d5cSPoul-Henning Kamp mp->state = 0; 148d9a54d5cSPoul-Henning Kamp } 149d9a54d5cSPoul-Henning Kamp 150d9a54d5cSPoul-Henning Kamp #define MA_OWNED 9 151d9a54d5cSPoul-Henning Kamp 152d9a54d5cSPoul-Henning Kamp static void 153d9a54d5cSPoul-Henning Kamp mtx_assert(struct mtx *mp, int flag) 154d9a54d5cSPoul-Henning Kamp { 155d9a54d5cSPoul-Henning Kamp if (flag == MA_OWNED) { 156d9a54d5cSPoul-Henning Kamp KASSERT(mp->state == 1, ("mtx_assert(MA_OWNED) not true")); 157d9a54d5cSPoul-Henning Kamp } 158d9a54d5cSPoul-Henning Kamp } 159d9a54d5cSPoul-Henning Kamp 160d9a54d5cSPoul-Henning Kamp #define CTASSERT(foo) 16124e8eaf1SJaakko Heinonen #define WITNESS_WARN(flags, lock, fmt, ...) (void)0 162d9a54d5cSPoul-Henning Kamp 163d9a54d5cSPoul-Henning Kamp #endif /* USERLAND */ 164f6bde1fdSPoul-Henning Kamp 165f6bde1fdSPoul-Henning Kamp /* 166f6bde1fdSPoul-Henning Kamp * This is our basic building block. 167f6bde1fdSPoul-Henning Kamp * 168f6bde1fdSPoul-Henning Kamp * It can be used in three different ways depending on the value of the ptr 169f6bde1fdSPoul-Henning Kamp * element: 170f6bde1fdSPoul-Henning Kamp * If ptr is NULL, it represents a run of free items. 171f6bde1fdSPoul-Henning Kamp * If ptr points to the unrhdr it represents a run of allocated items. 1728907f744SAlan Somers * Otherwise it points to a bitstring of allocated items. 173f6bde1fdSPoul-Henning Kamp * 174f6bde1fdSPoul-Henning Kamp * For runs the len field is the length of the run. 175f6bde1fdSPoul-Henning Kamp * For bitmaps the len field represents the number of allocated items. 176f6bde1fdSPoul-Henning Kamp * 177f6bde1fdSPoul-Henning Kamp * The bitmap is the same size as struct unr to optimize memory management. 178f6bde1fdSPoul-Henning Kamp */ 179f6bde1fdSPoul-Henning Kamp struct unr { 180f6bde1fdSPoul-Henning Kamp TAILQ_ENTRY(unr) list; 181f6bde1fdSPoul-Henning Kamp u_int len; 182f6bde1fdSPoul-Henning Kamp void *ptr; 183f6bde1fdSPoul-Henning Kamp }; 184f6bde1fdSPoul-Henning Kamp 185d9a54d5cSPoul-Henning Kamp struct unrb { 1868907f744SAlan Somers bitstr_t map[sizeof(struct unr) / sizeof(bitstr_t)]; 187d9a54d5cSPoul-Henning Kamp }; 188d9a54d5cSPoul-Henning Kamp 1898907f744SAlan Somers CTASSERT((sizeof(struct unr) % sizeof(bitstr_t)) == 0); 190d9a54d5cSPoul-Henning Kamp 1918907f744SAlan Somers /* Number of bits we can store in the bitmap */ 1928907f744SAlan Somers #define NBITS (8 * sizeof(((struct unrb*)NULL)->map)) 1938907f744SAlan Somers 1948907f744SAlan Somers /* Is the unrb empty in at least the first len bits? */ 1958907f744SAlan Somers static inline bool 1968907f744SAlan Somers ub_empty(struct unrb *ub, int len) { 1978907f744SAlan Somers int first_set; 1988907f744SAlan Somers 1998907f744SAlan Somers bit_ffs(ub->map, len, &first_set); 2008907f744SAlan Somers return (first_set == -1); 2018907f744SAlan Somers } 2028907f744SAlan Somers 2038907f744SAlan Somers /* Is the unrb full? That is, is the number of set elements equal to len? */ 2048907f744SAlan Somers static inline bool 2058907f744SAlan Somers ub_full(struct unrb *ub, int len) 2068907f744SAlan Somers { 2078907f744SAlan Somers int first_clear; 2088907f744SAlan Somers 2098907f744SAlan Somers bit_ffc(ub->map, len, &first_clear); 2108907f744SAlan Somers return (first_clear == -1); 2118907f744SAlan Somers } 2128907f744SAlan Somers 213f6bde1fdSPoul-Henning Kamp 214f6bde1fdSPoul-Henning Kamp #if defined(DIAGNOSTIC) || !defined(_KERNEL) 215f6bde1fdSPoul-Henning Kamp /* 216f6bde1fdSPoul-Henning Kamp * Consistency check function. 217f6bde1fdSPoul-Henning Kamp * 218f6bde1fdSPoul-Henning Kamp * Checks the internal consistency as well as we can. 219f6bde1fdSPoul-Henning Kamp * 220f6bde1fdSPoul-Henning Kamp * Called at all boundaries of this API. 221f6bde1fdSPoul-Henning Kamp */ 222f6bde1fdSPoul-Henning Kamp static void 223f6bde1fdSPoul-Henning Kamp check_unrhdr(struct unrhdr *uh, int line) 224f6bde1fdSPoul-Henning Kamp { 225f6bde1fdSPoul-Henning Kamp struct unr *up; 226d9a54d5cSPoul-Henning Kamp struct unrb *ub; 2271b82e02fSAlan Somers int w; 2281b82e02fSAlan Somers u_int y, z; 229f6bde1fdSPoul-Henning Kamp 230d9a54d5cSPoul-Henning Kamp y = uh->first; 231f6bde1fdSPoul-Henning Kamp z = 0; 232f6bde1fdSPoul-Henning Kamp TAILQ_FOREACH(up, &uh->head, list) { 233f6bde1fdSPoul-Henning Kamp z++; 234f6bde1fdSPoul-Henning Kamp if (up->ptr != uh && up->ptr != NULL) { 235d9a54d5cSPoul-Henning Kamp ub = up->ptr; 236d9a54d5cSPoul-Henning Kamp KASSERT (up->len <= NBITS, 2378907f744SAlan Somers ("UNR inconsistency: len %u max %zd (line %d)\n", 238d9a54d5cSPoul-Henning Kamp up->len, NBITS, line)); 239f6bde1fdSPoul-Henning Kamp z++; 240f6bde1fdSPoul-Henning Kamp w = 0; 2411b82e02fSAlan Somers bit_count(ub->map, 0, up->len, &w); 242d9a54d5cSPoul-Henning Kamp y += w; 243d9a54d5cSPoul-Henning Kamp } else if (up->ptr != NULL) 244f6bde1fdSPoul-Henning Kamp y += up->len; 245f6bde1fdSPoul-Henning Kamp } 246f6bde1fdSPoul-Henning Kamp KASSERT (y == uh->busy, 247f6bde1fdSPoul-Henning Kamp ("UNR inconsistency: items %u found %u (line %d)\n", 248f6bde1fdSPoul-Henning Kamp uh->busy, y, line)); 249f6bde1fdSPoul-Henning Kamp KASSERT (z == uh->alloc, 250f6bde1fdSPoul-Henning Kamp ("UNR inconsistency: chunks %u found %u (line %d)\n", 251f6bde1fdSPoul-Henning Kamp uh->alloc, z, line)); 252f6bde1fdSPoul-Henning Kamp } 253f6bde1fdSPoul-Henning Kamp 254f6bde1fdSPoul-Henning Kamp #else 255f6bde1fdSPoul-Henning Kamp 256f6bde1fdSPoul-Henning Kamp static __inline void 2578907f744SAlan Somers check_unrhdr(struct unrhdr *uh __unused, int line __unused) 258f6bde1fdSPoul-Henning Kamp { 259f6bde1fdSPoul-Henning Kamp 260f6bde1fdSPoul-Henning Kamp } 261f6bde1fdSPoul-Henning Kamp 262f6bde1fdSPoul-Henning Kamp #endif 263f6bde1fdSPoul-Henning Kamp 264f6bde1fdSPoul-Henning Kamp 265f6bde1fdSPoul-Henning Kamp /* 266f6bde1fdSPoul-Henning Kamp * Userland memory management. Just use calloc and keep track of how 267f6bde1fdSPoul-Henning Kamp * many elements we have allocated for check_unrhdr(). 268f6bde1fdSPoul-Henning Kamp */ 269f6bde1fdSPoul-Henning Kamp 270f6bde1fdSPoul-Henning Kamp static __inline void * 271d9a54d5cSPoul-Henning Kamp new_unr(struct unrhdr *uh, void **p1, void **p2) 272f6bde1fdSPoul-Henning Kamp { 273d9a54d5cSPoul-Henning Kamp void *p; 274f6bde1fdSPoul-Henning Kamp 275d9a54d5cSPoul-Henning Kamp uh->alloc++; 276d9a54d5cSPoul-Henning Kamp KASSERT(*p1 != NULL || *p2 != NULL, ("Out of cached memory")); 277d9a54d5cSPoul-Henning Kamp if (*p1 != NULL) { 278d9a54d5cSPoul-Henning Kamp p = *p1; 279d9a54d5cSPoul-Henning Kamp *p1 = NULL; 280d9a54d5cSPoul-Henning Kamp return (p); 281d9a54d5cSPoul-Henning Kamp } else { 282d9a54d5cSPoul-Henning Kamp p = *p2; 283d9a54d5cSPoul-Henning Kamp *p2 = NULL; 284d9a54d5cSPoul-Henning Kamp return (p); 285d9a54d5cSPoul-Henning Kamp } 286f6bde1fdSPoul-Henning Kamp } 287f6bde1fdSPoul-Henning Kamp 288f6bde1fdSPoul-Henning Kamp static __inline void 289f6bde1fdSPoul-Henning Kamp delete_unr(struct unrhdr *uh, void *ptr) 290f6bde1fdSPoul-Henning Kamp { 29109828ba9SKonstantin Belousov struct unr *up; 292d9a54d5cSPoul-Henning Kamp 293f6bde1fdSPoul-Henning Kamp uh->alloc--; 29409828ba9SKonstantin Belousov up = ptr; 29509828ba9SKonstantin Belousov TAILQ_INSERT_TAIL(&uh->ppfree, up, list); 29609828ba9SKonstantin Belousov } 29709828ba9SKonstantin Belousov 29809828ba9SKonstantin Belousov void 29909828ba9SKonstantin Belousov clean_unrhdrl(struct unrhdr *uh) 30009828ba9SKonstantin Belousov { 30109828ba9SKonstantin Belousov struct unr *up; 30209828ba9SKonstantin Belousov 30309828ba9SKonstantin Belousov mtx_assert(uh->mtx, MA_OWNED); 30409828ba9SKonstantin Belousov while ((up = TAILQ_FIRST(&uh->ppfree)) != NULL) { 30509828ba9SKonstantin Belousov TAILQ_REMOVE(&uh->ppfree, up, list); 30609828ba9SKonstantin Belousov mtx_unlock(uh->mtx); 30709828ba9SKonstantin Belousov Free(up); 30809828ba9SKonstantin Belousov mtx_lock(uh->mtx); 30909828ba9SKonstantin Belousov } 31009828ba9SKonstantin Belousov 31109828ba9SKonstantin Belousov } 31209828ba9SKonstantin Belousov 31309828ba9SKonstantin Belousov void 31409828ba9SKonstantin Belousov clean_unrhdr(struct unrhdr *uh) 31509828ba9SKonstantin Belousov { 31609828ba9SKonstantin Belousov 31709828ba9SKonstantin Belousov mtx_lock(uh->mtx); 31809828ba9SKonstantin Belousov clean_unrhdrl(uh); 31909828ba9SKonstantin Belousov mtx_unlock(uh->mtx); 320f6bde1fdSPoul-Henning Kamp } 321f6bde1fdSPoul-Henning Kamp 322dc872d46SKonstantin Belousov void 323dc872d46SKonstantin Belousov init_unrhdr(struct unrhdr *uh, int low, int high, struct mtx *mutex) 324f6bde1fdSPoul-Henning Kamp { 325f6bde1fdSPoul-Henning Kamp 326831aa555SJaakko Heinonen KASSERT(low >= 0 && low <= high, 327501812f2SJaakko Heinonen ("UNR: use error: new_unrhdr(%d, %d)", low, high)); 328d9a54d5cSPoul-Henning Kamp if (mutex != NULL) 329d9a54d5cSPoul-Henning Kamp uh->mtx = mutex; 330d9a54d5cSPoul-Henning Kamp else 331d9a54d5cSPoul-Henning Kamp uh->mtx = &unitmtx; 332f6bde1fdSPoul-Henning Kamp TAILQ_INIT(&uh->head); 33309828ba9SKonstantin Belousov TAILQ_INIT(&uh->ppfree); 334f6bde1fdSPoul-Henning Kamp uh->low = low; 335f6bde1fdSPoul-Henning Kamp uh->high = high; 336d9a54d5cSPoul-Henning Kamp uh->first = 0; 337d9a54d5cSPoul-Henning Kamp uh->last = 1 + (high - low); 338f6bde1fdSPoul-Henning Kamp check_unrhdr(uh, __LINE__); 339dc872d46SKonstantin Belousov } 340dc872d46SKonstantin Belousov 341dc872d46SKonstantin Belousov /* 342dc872d46SKonstantin Belousov * Allocate a new unrheader set. 343dc872d46SKonstantin Belousov * 344dc872d46SKonstantin Belousov * Highest and lowest valid values given as parameters. 345dc872d46SKonstantin Belousov */ 346dc872d46SKonstantin Belousov 347dc872d46SKonstantin Belousov struct unrhdr * 348dc872d46SKonstantin Belousov new_unrhdr(int low, int high, struct mtx *mutex) 349dc872d46SKonstantin Belousov { 350dc872d46SKonstantin Belousov struct unrhdr *uh; 351dc872d46SKonstantin Belousov 352dc872d46SKonstantin Belousov uh = Malloc(sizeof *uh); 353dc872d46SKonstantin Belousov init_unrhdr(uh, low, high, mutex); 354f6bde1fdSPoul-Henning Kamp return (uh); 355f6bde1fdSPoul-Henning Kamp } 356f6bde1fdSPoul-Henning Kamp 357e4fea39eSPoul-Henning Kamp void 358e4fea39eSPoul-Henning Kamp delete_unrhdr(struct unrhdr *uh) 359e4fea39eSPoul-Henning Kamp { 360e4fea39eSPoul-Henning Kamp 361d9a54d5cSPoul-Henning Kamp check_unrhdr(uh, __LINE__); 362e4fea39eSPoul-Henning Kamp KASSERT(uh->busy == 0, ("unrhdr has %u allocations", uh->busy)); 363e4fea39eSPoul-Henning Kamp KASSERT(uh->alloc == 0, ("UNR memory leak in delete_unrhdr")); 36409828ba9SKonstantin Belousov KASSERT(TAILQ_FIRST(&uh->ppfree) == NULL, 36509828ba9SKonstantin Belousov ("unrhdr has postponed item for free")); 366e4fea39eSPoul-Henning Kamp Free(uh); 367e4fea39eSPoul-Henning Kamp } 368e4fea39eSPoul-Henning Kamp 369333dcaa4SMatt Joras void 370333dcaa4SMatt Joras clear_unrhdr(struct unrhdr *uh) 371333dcaa4SMatt Joras { 372333dcaa4SMatt Joras struct unr *up, *uq; 373333dcaa4SMatt Joras 374333dcaa4SMatt Joras KASSERT(TAILQ_EMPTY(&uh->ppfree), 375333dcaa4SMatt Joras ("unrhdr has postponed item for free")); 376*0d8e0405SMatt Joras TAILQ_FOREACH_SAFE(up, &uh->head, list, uq) { 377333dcaa4SMatt Joras if (up->ptr != uh) { 378333dcaa4SMatt Joras Free(up->ptr); 379333dcaa4SMatt Joras } 380333dcaa4SMatt Joras Free(up); 381333dcaa4SMatt Joras } 382333dcaa4SMatt Joras uh->busy = 0; 383333dcaa4SMatt Joras uh->alloc = 0; 384*0d8e0405SMatt Joras init_unrhdr(uh, uh->low, uh->high, uh->mtx); 385*0d8e0405SMatt Joras 386*0d8e0405SMatt Joras check_unrhdr(uh, __LINE__); 387333dcaa4SMatt Joras } 388333dcaa4SMatt Joras 389d9a54d5cSPoul-Henning Kamp static __inline int 390d9a54d5cSPoul-Henning Kamp is_bitmap(struct unrhdr *uh, struct unr *up) 391d9a54d5cSPoul-Henning Kamp { 392d9a54d5cSPoul-Henning Kamp return (up->ptr != uh && up->ptr != NULL); 393d9a54d5cSPoul-Henning Kamp } 394d9a54d5cSPoul-Henning Kamp 395f6bde1fdSPoul-Henning Kamp /* 396d9a54d5cSPoul-Henning Kamp * Look for sequence of items which can be combined into a bitmap, if 397d9a54d5cSPoul-Henning Kamp * multiple are present, take the one which saves most memory. 398d9a54d5cSPoul-Henning Kamp * 399d9a54d5cSPoul-Henning Kamp * Return (1) if a sequence was found to indicate that another call 400d9a54d5cSPoul-Henning Kamp * might be able to do more. Return (0) if we found no suitable sequence. 401d9a54d5cSPoul-Henning Kamp * 402d9a54d5cSPoul-Henning Kamp * NB: called from alloc_unr(), no new memory allocation allowed. 403d9a54d5cSPoul-Henning Kamp */ 404d9a54d5cSPoul-Henning Kamp static int 405d9a54d5cSPoul-Henning Kamp optimize_unr(struct unrhdr *uh) 406d9a54d5cSPoul-Henning Kamp { 407d9a54d5cSPoul-Henning Kamp struct unr *up, *uf, *us; 408d9a54d5cSPoul-Henning Kamp struct unrb *ub, *ubf; 409d9a54d5cSPoul-Henning Kamp u_int a, l, ba; 410d9a54d5cSPoul-Henning Kamp 411d9a54d5cSPoul-Henning Kamp /* 412d9a54d5cSPoul-Henning Kamp * Look for the run of items (if any) which when collapsed into 413d9a54d5cSPoul-Henning Kamp * a bitmap would save most memory. 414d9a54d5cSPoul-Henning Kamp */ 415d9a54d5cSPoul-Henning Kamp us = NULL; 416d9a54d5cSPoul-Henning Kamp ba = 0; 417d9a54d5cSPoul-Henning Kamp TAILQ_FOREACH(uf, &uh->head, list) { 418d9a54d5cSPoul-Henning Kamp if (uf->len >= NBITS) 419d9a54d5cSPoul-Henning Kamp continue; 420d9a54d5cSPoul-Henning Kamp a = 1; 421d9a54d5cSPoul-Henning Kamp if (is_bitmap(uh, uf)) 422d9a54d5cSPoul-Henning Kamp a++; 423d9a54d5cSPoul-Henning Kamp l = uf->len; 424d9a54d5cSPoul-Henning Kamp up = uf; 425d9a54d5cSPoul-Henning Kamp while (1) { 426d9a54d5cSPoul-Henning Kamp up = TAILQ_NEXT(up, list); 427d9a54d5cSPoul-Henning Kamp if (up == NULL) 428d9a54d5cSPoul-Henning Kamp break; 429d9a54d5cSPoul-Henning Kamp if ((up->len + l) > NBITS) 430d9a54d5cSPoul-Henning Kamp break; 431d9a54d5cSPoul-Henning Kamp a++; 432d9a54d5cSPoul-Henning Kamp if (is_bitmap(uh, up)) 433d9a54d5cSPoul-Henning Kamp a++; 434d9a54d5cSPoul-Henning Kamp l += up->len; 435d9a54d5cSPoul-Henning Kamp } 436d9a54d5cSPoul-Henning Kamp if (a > ba) { 437d9a54d5cSPoul-Henning Kamp ba = a; 438d9a54d5cSPoul-Henning Kamp us = uf; 439d9a54d5cSPoul-Henning Kamp } 440d9a54d5cSPoul-Henning Kamp } 441d9a54d5cSPoul-Henning Kamp if (ba < 3) 442d9a54d5cSPoul-Henning Kamp return (0); 443d9a54d5cSPoul-Henning Kamp 444d9a54d5cSPoul-Henning Kamp /* 445d9a54d5cSPoul-Henning Kamp * If the first element is not a bitmap, make it one. 446d9a54d5cSPoul-Henning Kamp * Trying to do so without allocating more memory complicates things 447d9a54d5cSPoul-Henning Kamp * a bit 448d9a54d5cSPoul-Henning Kamp */ 449d9a54d5cSPoul-Henning Kamp if (!is_bitmap(uh, us)) { 450d9a54d5cSPoul-Henning Kamp uf = TAILQ_NEXT(us, list); 451d9a54d5cSPoul-Henning Kamp TAILQ_REMOVE(&uh->head, us, list); 452d9a54d5cSPoul-Henning Kamp a = us->len; 453d9a54d5cSPoul-Henning Kamp l = us->ptr == uh ? 1 : 0; 454d9a54d5cSPoul-Henning Kamp ub = (void *)us; 4558907f744SAlan Somers bit_nclear(ub->map, 0, NBITS - 1); 4568907f744SAlan Somers if (l) 457d9a54d5cSPoul-Henning Kamp bit_nset(ub->map, 0, a); 458d9a54d5cSPoul-Henning Kamp if (!is_bitmap(uh, uf)) { 4598907f744SAlan Somers if (uf->ptr == NULL) 460d9a54d5cSPoul-Henning Kamp bit_nclear(ub->map, a, a + uf->len - 1); 4618907f744SAlan Somers else 462d9a54d5cSPoul-Henning Kamp bit_nset(ub->map, a, a + uf->len - 1); 463d9a54d5cSPoul-Henning Kamp uf->ptr = ub; 464d9a54d5cSPoul-Henning Kamp uf->len += a; 465d9a54d5cSPoul-Henning Kamp us = uf; 466d9a54d5cSPoul-Henning Kamp } else { 467d9a54d5cSPoul-Henning Kamp ubf = uf->ptr; 468d9a54d5cSPoul-Henning Kamp for (l = 0; l < uf->len; l++, a++) { 4698907f744SAlan Somers if (bit_test(ubf->map, l)) 470d9a54d5cSPoul-Henning Kamp bit_set(ub->map, a); 4718907f744SAlan Somers else 472d9a54d5cSPoul-Henning Kamp bit_clear(ub->map, a); 473d9a54d5cSPoul-Henning Kamp } 474d9a54d5cSPoul-Henning Kamp uf->len = a; 475d9a54d5cSPoul-Henning Kamp delete_unr(uh, uf->ptr); 476d9a54d5cSPoul-Henning Kamp uf->ptr = ub; 477d9a54d5cSPoul-Henning Kamp us = uf; 478d9a54d5cSPoul-Henning Kamp } 479d9a54d5cSPoul-Henning Kamp } 480d9a54d5cSPoul-Henning Kamp ub = us->ptr; 481d9a54d5cSPoul-Henning Kamp while (1) { 482d9a54d5cSPoul-Henning Kamp uf = TAILQ_NEXT(us, list); 483d9a54d5cSPoul-Henning Kamp if (uf == NULL) 484d9a54d5cSPoul-Henning Kamp return (1); 485d9a54d5cSPoul-Henning Kamp if (uf->len + us->len > NBITS) 486d9a54d5cSPoul-Henning Kamp return (1); 487d9a54d5cSPoul-Henning Kamp if (uf->ptr == NULL) { 488d9a54d5cSPoul-Henning Kamp bit_nclear(ub->map, us->len, us->len + uf->len - 1); 489d9a54d5cSPoul-Henning Kamp us->len += uf->len; 490d9a54d5cSPoul-Henning Kamp TAILQ_REMOVE(&uh->head, uf, list); 491d9a54d5cSPoul-Henning Kamp delete_unr(uh, uf); 492d9a54d5cSPoul-Henning Kamp } else if (uf->ptr == uh) { 493d9a54d5cSPoul-Henning Kamp bit_nset(ub->map, us->len, us->len + uf->len - 1); 494d9a54d5cSPoul-Henning Kamp us->len += uf->len; 495d9a54d5cSPoul-Henning Kamp TAILQ_REMOVE(&uh->head, uf, list); 496d9a54d5cSPoul-Henning Kamp delete_unr(uh, uf); 497d9a54d5cSPoul-Henning Kamp } else { 498d9a54d5cSPoul-Henning Kamp ubf = uf->ptr; 499d9a54d5cSPoul-Henning Kamp for (l = 0; l < uf->len; l++, us->len++) { 5008907f744SAlan Somers if (bit_test(ubf->map, l)) 501d9a54d5cSPoul-Henning Kamp bit_set(ub->map, us->len); 5028907f744SAlan Somers else 503d9a54d5cSPoul-Henning Kamp bit_clear(ub->map, us->len); 504d9a54d5cSPoul-Henning Kamp } 505d9a54d5cSPoul-Henning Kamp TAILQ_REMOVE(&uh->head, uf, list); 506d9a54d5cSPoul-Henning Kamp delete_unr(uh, ubf); 507d9a54d5cSPoul-Henning Kamp delete_unr(uh, uf); 508d9a54d5cSPoul-Henning Kamp } 509d9a54d5cSPoul-Henning Kamp } 510d9a54d5cSPoul-Henning Kamp } 511d9a54d5cSPoul-Henning Kamp 512d9a54d5cSPoul-Henning Kamp /* 513d9a54d5cSPoul-Henning Kamp * See if a given unr should be collapsed with a neighbor. 514d9a54d5cSPoul-Henning Kamp * 515d9a54d5cSPoul-Henning Kamp * NB: called from alloc_unr(), no new memory allocation allowed. 516f6bde1fdSPoul-Henning Kamp */ 517f6bde1fdSPoul-Henning Kamp static void 518f6bde1fdSPoul-Henning Kamp collapse_unr(struct unrhdr *uh, struct unr *up) 519f6bde1fdSPoul-Henning Kamp { 520f6bde1fdSPoul-Henning Kamp struct unr *upp; 521d9a54d5cSPoul-Henning Kamp struct unrb *ub; 522f6bde1fdSPoul-Henning Kamp 523d9a54d5cSPoul-Henning Kamp /* If bitmap is all set or clear, change it to runlength */ 524d9a54d5cSPoul-Henning Kamp if (is_bitmap(uh, up)) { 525d9a54d5cSPoul-Henning Kamp ub = up->ptr; 5268907f744SAlan Somers if (ub_full(ub, up->len)) { 527d9a54d5cSPoul-Henning Kamp delete_unr(uh, up->ptr); 528d9a54d5cSPoul-Henning Kamp up->ptr = uh; 5298907f744SAlan Somers } else if (ub_empty(ub, up->len)) { 530d9a54d5cSPoul-Henning Kamp delete_unr(uh, up->ptr); 531d9a54d5cSPoul-Henning Kamp up->ptr = NULL; 532d9a54d5cSPoul-Henning Kamp } 533d9a54d5cSPoul-Henning Kamp } 534d9a54d5cSPoul-Henning Kamp 535d9a54d5cSPoul-Henning Kamp /* If nothing left in runlength, delete it */ 536d9a54d5cSPoul-Henning Kamp if (up->len == 0) { 537d9a54d5cSPoul-Henning Kamp upp = TAILQ_PREV(up, unrhd, list); 538d9a54d5cSPoul-Henning Kamp if (upp == NULL) 539d9a54d5cSPoul-Henning Kamp upp = TAILQ_NEXT(up, list); 540d9a54d5cSPoul-Henning Kamp TAILQ_REMOVE(&uh->head, up, list); 541d9a54d5cSPoul-Henning Kamp delete_unr(uh, up); 542d9a54d5cSPoul-Henning Kamp up = upp; 543d9a54d5cSPoul-Henning Kamp } 544d9a54d5cSPoul-Henning Kamp 545d9a54d5cSPoul-Henning Kamp /* If we have "hot-spot" still, merge with neighbor if possible */ 546d9a54d5cSPoul-Henning Kamp if (up != NULL) { 547f6bde1fdSPoul-Henning Kamp upp = TAILQ_PREV(up, unrhd, list); 548f6bde1fdSPoul-Henning Kamp if (upp != NULL && up->ptr == upp->ptr) { 549f6bde1fdSPoul-Henning Kamp up->len += upp->len; 550f6bde1fdSPoul-Henning Kamp TAILQ_REMOVE(&uh->head, upp, list); 551f6bde1fdSPoul-Henning Kamp delete_unr(uh, upp); 552f6bde1fdSPoul-Henning Kamp } 553f6bde1fdSPoul-Henning Kamp upp = TAILQ_NEXT(up, list); 554f6bde1fdSPoul-Henning Kamp if (upp != NULL && up->ptr == upp->ptr) { 555f6bde1fdSPoul-Henning Kamp up->len += upp->len; 556f6bde1fdSPoul-Henning Kamp TAILQ_REMOVE(&uh->head, upp, list); 557f6bde1fdSPoul-Henning Kamp delete_unr(uh, upp); 558f6bde1fdSPoul-Henning Kamp } 559f6bde1fdSPoul-Henning Kamp } 560f6bde1fdSPoul-Henning Kamp 561d9a54d5cSPoul-Henning Kamp /* Merge into ->first if possible */ 562d9a54d5cSPoul-Henning Kamp upp = TAILQ_FIRST(&uh->head); 563d9a54d5cSPoul-Henning Kamp if (upp != NULL && upp->ptr == uh) { 564d9a54d5cSPoul-Henning Kamp uh->first += upp->len; 565d9a54d5cSPoul-Henning Kamp TAILQ_REMOVE(&uh->head, upp, list); 566d9a54d5cSPoul-Henning Kamp delete_unr(uh, upp); 567d9a54d5cSPoul-Henning Kamp if (up == upp) 568d9a54d5cSPoul-Henning Kamp up = NULL; 569d9a54d5cSPoul-Henning Kamp } 570d9a54d5cSPoul-Henning Kamp 571d9a54d5cSPoul-Henning Kamp /* Merge into ->last if possible */ 572d9a54d5cSPoul-Henning Kamp upp = TAILQ_LAST(&uh->head, unrhd); 573d9a54d5cSPoul-Henning Kamp if (upp != NULL && upp->ptr == NULL) { 574d9a54d5cSPoul-Henning Kamp uh->last += upp->len; 575d9a54d5cSPoul-Henning Kamp TAILQ_REMOVE(&uh->head, upp, list); 576d9a54d5cSPoul-Henning Kamp delete_unr(uh, upp); 577d9a54d5cSPoul-Henning Kamp if (up == upp) 578d9a54d5cSPoul-Henning Kamp up = NULL; 579d9a54d5cSPoul-Henning Kamp } 580d9a54d5cSPoul-Henning Kamp 581d9a54d5cSPoul-Henning Kamp /* Try to make bitmaps */ 582d9a54d5cSPoul-Henning Kamp while (optimize_unr(uh)) 583d9a54d5cSPoul-Henning Kamp continue; 584d9a54d5cSPoul-Henning Kamp } 585d9a54d5cSPoul-Henning Kamp 586f6bde1fdSPoul-Henning Kamp /* 587f6bde1fdSPoul-Henning Kamp * Allocate a free unr. 588f6bde1fdSPoul-Henning Kamp */ 589d9a54d5cSPoul-Henning Kamp int 590d9a54d5cSPoul-Henning Kamp alloc_unrl(struct unrhdr *uh) 591f6bde1fdSPoul-Henning Kamp { 592d9a54d5cSPoul-Henning Kamp struct unr *up; 593d9a54d5cSPoul-Henning Kamp struct unrb *ub; 594f6bde1fdSPoul-Henning Kamp u_int x; 595f6bde1fdSPoul-Henning Kamp int y; 596f6bde1fdSPoul-Henning Kamp 597d9a54d5cSPoul-Henning Kamp mtx_assert(uh->mtx, MA_OWNED); 598f6bde1fdSPoul-Henning Kamp check_unrhdr(uh, __LINE__); 599d9a54d5cSPoul-Henning Kamp x = uh->low + uh->first; 600d9a54d5cSPoul-Henning Kamp 601f6bde1fdSPoul-Henning Kamp up = TAILQ_FIRST(&uh->head); 602f6bde1fdSPoul-Henning Kamp 603d9a54d5cSPoul-Henning Kamp /* 604d9a54d5cSPoul-Henning Kamp * If we have an ideal split, just adjust the first+last 605d9a54d5cSPoul-Henning Kamp */ 606d9a54d5cSPoul-Henning Kamp if (up == NULL && uh->last > 0) { 607d9a54d5cSPoul-Henning Kamp uh->first++; 608d9a54d5cSPoul-Henning Kamp uh->last--; 609f6bde1fdSPoul-Henning Kamp uh->busy++; 610f6bde1fdSPoul-Henning Kamp return (x); 611f6bde1fdSPoul-Henning Kamp } 612f6bde1fdSPoul-Henning Kamp 613f6bde1fdSPoul-Henning Kamp /* 614d9a54d5cSPoul-Henning Kamp * We can always allocate from the first list element, so if we have 615d9a54d5cSPoul-Henning Kamp * nothing on the list, we must have run out of unit numbers. 616f6bde1fdSPoul-Henning Kamp */ 61793f6c81eSPoul-Henning Kamp if (up == NULL) 618d9a54d5cSPoul-Henning Kamp return (-1); 619d9a54d5cSPoul-Henning Kamp 620d9a54d5cSPoul-Henning Kamp KASSERT(up->ptr != uh, ("UNR first element is allocated")); 621d9a54d5cSPoul-Henning Kamp 622d9a54d5cSPoul-Henning Kamp if (up->ptr == NULL) { /* free run */ 623d9a54d5cSPoul-Henning Kamp uh->first++; 624f6bde1fdSPoul-Henning Kamp up->len--; 625d9a54d5cSPoul-Henning Kamp } else { /* bitmap */ 626d9a54d5cSPoul-Henning Kamp ub = up->ptr; 627d9a54d5cSPoul-Henning Kamp bit_ffc(ub->map, up->len, &y); 628d9a54d5cSPoul-Henning Kamp KASSERT(y != -1, ("UNR corruption: No clear bit in bitmap.")); 629d9a54d5cSPoul-Henning Kamp bit_set(ub->map, y); 630d9a54d5cSPoul-Henning Kamp x += y; 631d9a54d5cSPoul-Henning Kamp } 632f6bde1fdSPoul-Henning Kamp uh->busy++; 633d9a54d5cSPoul-Henning Kamp collapse_unr(uh, up); 634f6bde1fdSPoul-Henning Kamp return (x); 635f6bde1fdSPoul-Henning Kamp } 636f6bde1fdSPoul-Henning Kamp 637d9a54d5cSPoul-Henning Kamp int 638d9a54d5cSPoul-Henning Kamp alloc_unr(struct unrhdr *uh) 639d9a54d5cSPoul-Henning Kamp { 640d9a54d5cSPoul-Henning Kamp int i; 641d9a54d5cSPoul-Henning Kamp 642d9a54d5cSPoul-Henning Kamp mtx_lock(uh->mtx); 643d9a54d5cSPoul-Henning Kamp i = alloc_unrl(uh); 64409828ba9SKonstantin Belousov clean_unrhdrl(uh); 645d9a54d5cSPoul-Henning Kamp mtx_unlock(uh->mtx); 646d9a54d5cSPoul-Henning Kamp return (i); 647d9a54d5cSPoul-Henning Kamp } 648d9a54d5cSPoul-Henning Kamp 64913c02cbbSJaakko Heinonen static int 65013c02cbbSJaakko Heinonen alloc_unr_specificl(struct unrhdr *uh, u_int item, void **p1, void **p2) 65113c02cbbSJaakko Heinonen { 65213c02cbbSJaakko Heinonen struct unr *up, *upn; 65313c02cbbSJaakko Heinonen struct unrb *ub; 65413c02cbbSJaakko Heinonen u_int i, last, tl; 65513c02cbbSJaakko Heinonen 65613c02cbbSJaakko Heinonen mtx_assert(uh->mtx, MA_OWNED); 65713c02cbbSJaakko Heinonen 65813c02cbbSJaakko Heinonen if (item < uh->low + uh->first || item > uh->high) 65913c02cbbSJaakko Heinonen return (-1); 66013c02cbbSJaakko Heinonen 66113c02cbbSJaakko Heinonen up = TAILQ_FIRST(&uh->head); 66213c02cbbSJaakko Heinonen /* Ideal split. */ 66313c02cbbSJaakko Heinonen if (up == NULL && item - uh->low == uh->first) { 66413c02cbbSJaakko Heinonen uh->first++; 66513c02cbbSJaakko Heinonen uh->last--; 66613c02cbbSJaakko Heinonen uh->busy++; 66713c02cbbSJaakko Heinonen check_unrhdr(uh, __LINE__); 66813c02cbbSJaakko Heinonen return (item); 66913c02cbbSJaakko Heinonen } 67013c02cbbSJaakko Heinonen 67113c02cbbSJaakko Heinonen i = item - uh->low - uh->first; 67213c02cbbSJaakko Heinonen 67313c02cbbSJaakko Heinonen if (up == NULL) { 67413c02cbbSJaakko Heinonen up = new_unr(uh, p1, p2); 67513c02cbbSJaakko Heinonen up->ptr = NULL; 67613c02cbbSJaakko Heinonen up->len = i; 67713c02cbbSJaakko Heinonen TAILQ_INSERT_TAIL(&uh->head, up, list); 67813c02cbbSJaakko Heinonen up = new_unr(uh, p1, p2); 67913c02cbbSJaakko Heinonen up->ptr = uh; 68013c02cbbSJaakko Heinonen up->len = 1; 68113c02cbbSJaakko Heinonen TAILQ_INSERT_TAIL(&uh->head, up, list); 68213c02cbbSJaakko Heinonen uh->last = uh->high - uh->low - i; 68313c02cbbSJaakko Heinonen uh->busy++; 68413c02cbbSJaakko Heinonen check_unrhdr(uh, __LINE__); 68513c02cbbSJaakko Heinonen return (item); 68613c02cbbSJaakko Heinonen } else { 68713c02cbbSJaakko Heinonen /* Find the item which contains the unit we want to allocate. */ 68813c02cbbSJaakko Heinonen TAILQ_FOREACH(up, &uh->head, list) { 68913c02cbbSJaakko Heinonen if (up->len > i) 69013c02cbbSJaakko Heinonen break; 69113c02cbbSJaakko Heinonen i -= up->len; 69213c02cbbSJaakko Heinonen } 69313c02cbbSJaakko Heinonen } 69413c02cbbSJaakko Heinonen 69513c02cbbSJaakko Heinonen if (up == NULL) { 69613c02cbbSJaakko Heinonen if (i > 0) { 69713c02cbbSJaakko Heinonen up = new_unr(uh, p1, p2); 69813c02cbbSJaakko Heinonen up->ptr = NULL; 69913c02cbbSJaakko Heinonen up->len = i; 70013c02cbbSJaakko Heinonen TAILQ_INSERT_TAIL(&uh->head, up, list); 70113c02cbbSJaakko Heinonen } 70213c02cbbSJaakko Heinonen up = new_unr(uh, p1, p2); 70313c02cbbSJaakko Heinonen up->ptr = uh; 70413c02cbbSJaakko Heinonen up->len = 1; 70513c02cbbSJaakko Heinonen TAILQ_INSERT_TAIL(&uh->head, up, list); 70613c02cbbSJaakko Heinonen goto done; 70713c02cbbSJaakko Heinonen } 70813c02cbbSJaakko Heinonen 70913c02cbbSJaakko Heinonen if (is_bitmap(uh, up)) { 71013c02cbbSJaakko Heinonen ub = up->ptr; 71113c02cbbSJaakko Heinonen if (bit_test(ub->map, i) == 0) { 71213c02cbbSJaakko Heinonen bit_set(ub->map, i); 71313c02cbbSJaakko Heinonen goto done; 71413c02cbbSJaakko Heinonen } else 71513c02cbbSJaakko Heinonen return (-1); 71613c02cbbSJaakko Heinonen } else if (up->ptr == uh) 71713c02cbbSJaakko Heinonen return (-1); 71813c02cbbSJaakko Heinonen 71913c02cbbSJaakko Heinonen KASSERT(up->ptr == NULL, 72013c02cbbSJaakko Heinonen ("alloc_unr_specificl: up->ptr != NULL (up=%p)", up)); 72113c02cbbSJaakko Heinonen 72213c02cbbSJaakko Heinonen /* Split off the tail end, if any. */ 72313c02cbbSJaakko Heinonen tl = up->len - (1 + i); 72413c02cbbSJaakko Heinonen if (tl > 0) { 72513c02cbbSJaakko Heinonen upn = new_unr(uh, p1, p2); 72613c02cbbSJaakko Heinonen upn->ptr = NULL; 72713c02cbbSJaakko Heinonen upn->len = tl; 72813c02cbbSJaakko Heinonen TAILQ_INSERT_AFTER(&uh->head, up, upn, list); 72913c02cbbSJaakko Heinonen } 73013c02cbbSJaakko Heinonen 73113c02cbbSJaakko Heinonen /* Split off head end, if any */ 73213c02cbbSJaakko Heinonen if (i > 0) { 73313c02cbbSJaakko Heinonen upn = new_unr(uh, p1, p2); 73413c02cbbSJaakko Heinonen upn->len = i; 73513c02cbbSJaakko Heinonen upn->ptr = NULL; 73613c02cbbSJaakko Heinonen TAILQ_INSERT_BEFORE(up, upn, list); 73713c02cbbSJaakko Heinonen } 73813c02cbbSJaakko Heinonen up->len = 1; 73913c02cbbSJaakko Heinonen up->ptr = uh; 74013c02cbbSJaakko Heinonen 74113c02cbbSJaakko Heinonen done: 74213c02cbbSJaakko Heinonen last = uh->high - uh->low - (item - uh->low); 74313c02cbbSJaakko Heinonen if (uh->last > last) 74413c02cbbSJaakko Heinonen uh->last = last; 74513c02cbbSJaakko Heinonen uh->busy++; 74613c02cbbSJaakko Heinonen collapse_unr(uh, up); 74713c02cbbSJaakko Heinonen check_unrhdr(uh, __LINE__); 74813c02cbbSJaakko Heinonen return (item); 74913c02cbbSJaakko Heinonen } 75013c02cbbSJaakko Heinonen 75113c02cbbSJaakko Heinonen int 75213c02cbbSJaakko Heinonen alloc_unr_specific(struct unrhdr *uh, u_int item) 75313c02cbbSJaakko Heinonen { 75413c02cbbSJaakko Heinonen void *p1, *p2; 75513c02cbbSJaakko Heinonen int i; 75613c02cbbSJaakko Heinonen 75713c02cbbSJaakko Heinonen WITNESS_WARN(WARN_GIANTOK | WARN_SLEEPOK, NULL, "alloc_unr_specific"); 75813c02cbbSJaakko Heinonen 75913c02cbbSJaakko Heinonen p1 = Malloc(sizeof(struct unr)); 76013c02cbbSJaakko Heinonen p2 = Malloc(sizeof(struct unr)); 76113c02cbbSJaakko Heinonen 76213c02cbbSJaakko Heinonen mtx_lock(uh->mtx); 76313c02cbbSJaakko Heinonen i = alloc_unr_specificl(uh, item, &p1, &p2); 76413c02cbbSJaakko Heinonen mtx_unlock(uh->mtx); 76513c02cbbSJaakko Heinonen 76613c02cbbSJaakko Heinonen if (p1 != NULL) 76713c02cbbSJaakko Heinonen Free(p1); 76813c02cbbSJaakko Heinonen if (p2 != NULL) 76913c02cbbSJaakko Heinonen Free(p2); 77013c02cbbSJaakko Heinonen 77113c02cbbSJaakko Heinonen return (i); 77213c02cbbSJaakko Heinonen } 77313c02cbbSJaakko Heinonen 774f6bde1fdSPoul-Henning Kamp /* 775f6bde1fdSPoul-Henning Kamp * Free a unr. 776f6bde1fdSPoul-Henning Kamp * 777f6bde1fdSPoul-Henning Kamp * If we can save unrs by using a bitmap, do so. 778f6bde1fdSPoul-Henning Kamp */ 779d9a54d5cSPoul-Henning Kamp static void 780d9a54d5cSPoul-Henning Kamp free_unrl(struct unrhdr *uh, u_int item, void **p1, void **p2) 781f6bde1fdSPoul-Henning Kamp { 782d9a54d5cSPoul-Henning Kamp struct unr *up, *upp, *upn; 783d9a54d5cSPoul-Henning Kamp struct unrb *ub; 784d9a54d5cSPoul-Henning Kamp u_int pl; 785f6bde1fdSPoul-Henning Kamp 786f6bde1fdSPoul-Henning Kamp KASSERT(item >= uh->low && item <= uh->high, 787f6bde1fdSPoul-Henning Kamp ("UNR: free_unr(%u) out of range [%u...%u]", 788f6bde1fdSPoul-Henning Kamp item, uh->low, uh->high)); 789f6bde1fdSPoul-Henning Kamp check_unrhdr(uh, __LINE__); 790f6bde1fdSPoul-Henning Kamp item -= uh->low; 791d9a54d5cSPoul-Henning Kamp upp = TAILQ_FIRST(&uh->head); 792f6bde1fdSPoul-Henning Kamp /* 793d9a54d5cSPoul-Henning Kamp * Freeing in the ideal split case 794f6bde1fdSPoul-Henning Kamp */ 795d9a54d5cSPoul-Henning Kamp if (item + 1 == uh->first && upp == NULL) { 796d9a54d5cSPoul-Henning Kamp uh->last++; 797d9a54d5cSPoul-Henning Kamp uh->first--; 798d9a54d5cSPoul-Henning Kamp uh->busy--; 799f6bde1fdSPoul-Henning Kamp check_unrhdr(uh, __LINE__); 800f6bde1fdSPoul-Henning Kamp return; 801f6bde1fdSPoul-Henning Kamp } 802d9a54d5cSPoul-Henning Kamp /* 803d9a54d5cSPoul-Henning Kamp * Freeing in the ->first section. Create a run starting at the 804d9a54d5cSPoul-Henning Kamp * freed item. The code below will subdivide it. 805d9a54d5cSPoul-Henning Kamp */ 806d9a54d5cSPoul-Henning Kamp if (item < uh->first) { 807d9a54d5cSPoul-Henning Kamp up = new_unr(uh, p1, p2); 808d9a54d5cSPoul-Henning Kamp up->ptr = uh; 809d9a54d5cSPoul-Henning Kamp up->len = uh->first - item; 810d9a54d5cSPoul-Henning Kamp TAILQ_INSERT_HEAD(&uh->head, up, list); 811d9a54d5cSPoul-Henning Kamp uh->first -= up->len; 812f6bde1fdSPoul-Henning Kamp } 813f6bde1fdSPoul-Henning Kamp 814d9a54d5cSPoul-Henning Kamp item -= uh->first; 815d9a54d5cSPoul-Henning Kamp 816d9a54d5cSPoul-Henning Kamp /* Find the item which contains the unit we want to free */ 817d9a54d5cSPoul-Henning Kamp TAILQ_FOREACH(up, &uh->head, list) { 818d9a54d5cSPoul-Henning Kamp if (up->len > item) 819d9a54d5cSPoul-Henning Kamp break; 820d9a54d5cSPoul-Henning Kamp item -= up->len; 821d9a54d5cSPoul-Henning Kamp } 822d9a54d5cSPoul-Henning Kamp 823d9a54d5cSPoul-Henning Kamp /* Handle bitmap items */ 824d9a54d5cSPoul-Henning Kamp if (is_bitmap(uh, up)) { 825d9a54d5cSPoul-Henning Kamp ub = up->ptr; 826d9a54d5cSPoul-Henning Kamp 827d9a54d5cSPoul-Henning Kamp KASSERT(bit_test(ub->map, item) != 0, 828d9a54d5cSPoul-Henning Kamp ("UNR: Freeing free item %d (bitmap)\n", item)); 829d9a54d5cSPoul-Henning Kamp bit_clear(ub->map, item); 830d9a54d5cSPoul-Henning Kamp uh->busy--; 831d9a54d5cSPoul-Henning Kamp collapse_unr(uh, up); 832d9a54d5cSPoul-Henning Kamp return; 833d9a54d5cSPoul-Henning Kamp } 834d9a54d5cSPoul-Henning Kamp 835d9a54d5cSPoul-Henning Kamp KASSERT(up->ptr == uh, ("UNR Freeing free item %d (run))\n", item)); 836f6bde1fdSPoul-Henning Kamp 837f6bde1fdSPoul-Henning Kamp /* Just this one left, reap it */ 838f6bde1fdSPoul-Henning Kamp if (up->len == 1) { 839f6bde1fdSPoul-Henning Kamp up->ptr = NULL; 840f6bde1fdSPoul-Henning Kamp uh->busy--; 841f6bde1fdSPoul-Henning Kamp collapse_unr(uh, up); 842f6bde1fdSPoul-Henning Kamp return; 843f6bde1fdSPoul-Henning Kamp } 844f6bde1fdSPoul-Henning Kamp 845d9a54d5cSPoul-Henning Kamp /* Check if we can shift the item into the previous 'free' run */ 846f6bde1fdSPoul-Henning Kamp upp = TAILQ_PREV(up, unrhd, list); 847d9a54d5cSPoul-Henning Kamp if (item == 0 && upp != NULL && upp->ptr == NULL) { 848f6bde1fdSPoul-Henning Kamp upp->len++; 849f6bde1fdSPoul-Henning Kamp up->len--; 850f6bde1fdSPoul-Henning Kamp uh->busy--; 851d9a54d5cSPoul-Henning Kamp collapse_unr(uh, up); 852f6bde1fdSPoul-Henning Kamp return; 853f6bde1fdSPoul-Henning Kamp } 854f6bde1fdSPoul-Henning Kamp 855d9a54d5cSPoul-Henning Kamp /* Check if we can shift the item to the next 'free' run */ 856f6bde1fdSPoul-Henning Kamp upn = TAILQ_NEXT(up, list); 857d9a54d5cSPoul-Henning Kamp if (item == up->len - 1 && upn != NULL && upn->ptr == NULL) { 858f6bde1fdSPoul-Henning Kamp upn->len++; 859f6bde1fdSPoul-Henning Kamp up->len--; 860f6bde1fdSPoul-Henning Kamp uh->busy--; 861d9a54d5cSPoul-Henning Kamp collapse_unr(uh, up); 862f6bde1fdSPoul-Henning Kamp return; 863f6bde1fdSPoul-Henning Kamp } 864f6bde1fdSPoul-Henning Kamp 865f6bde1fdSPoul-Henning Kamp /* Split off the tail end, if any. */ 866d9a54d5cSPoul-Henning Kamp pl = up->len - (1 + item); 867f6bde1fdSPoul-Henning Kamp if (pl > 0) { 868d9a54d5cSPoul-Henning Kamp upp = new_unr(uh, p1, p2); 869f6bde1fdSPoul-Henning Kamp upp->ptr = uh; 870f6bde1fdSPoul-Henning Kamp upp->len = pl; 871f6bde1fdSPoul-Henning Kamp TAILQ_INSERT_AFTER(&uh->head, up, upp, list); 872f6bde1fdSPoul-Henning Kamp } 873f6bde1fdSPoul-Henning Kamp 874d9a54d5cSPoul-Henning Kamp /* Split off head end, if any */ 875d9a54d5cSPoul-Henning Kamp if (item > 0) { 876d9a54d5cSPoul-Henning Kamp upp = new_unr(uh, p1, p2); 877d9a54d5cSPoul-Henning Kamp upp->len = item; 878d9a54d5cSPoul-Henning Kamp upp->ptr = uh; 879d9a54d5cSPoul-Henning Kamp TAILQ_INSERT_BEFORE(up, upp, list); 880d9a54d5cSPoul-Henning Kamp } 881f6bde1fdSPoul-Henning Kamp up->len = 1; 882f6bde1fdSPoul-Henning Kamp up->ptr = NULL; 883f6bde1fdSPoul-Henning Kamp uh->busy--; 884d9a54d5cSPoul-Henning Kamp collapse_unr(uh, up); 885f6bde1fdSPoul-Henning Kamp } 886f6bde1fdSPoul-Henning Kamp 887d9a54d5cSPoul-Henning Kamp void 888d9a54d5cSPoul-Henning Kamp free_unr(struct unrhdr *uh, u_int item) 889d9a54d5cSPoul-Henning Kamp { 890d9a54d5cSPoul-Henning Kamp void *p1, *p2; 891f6bde1fdSPoul-Henning Kamp 8927550e3eaSKonstantin Belousov WITNESS_WARN(WARN_GIANTOK | WARN_SLEEPOK, NULL, "free_unr"); 893d9a54d5cSPoul-Henning Kamp p1 = Malloc(sizeof(struct unr)); 894d9a54d5cSPoul-Henning Kamp p2 = Malloc(sizeof(struct unr)); 895d9a54d5cSPoul-Henning Kamp mtx_lock(uh->mtx); 896d9a54d5cSPoul-Henning Kamp free_unrl(uh, item, &p1, &p2); 89709828ba9SKonstantin Belousov clean_unrhdrl(uh); 898d9a54d5cSPoul-Henning Kamp mtx_unlock(uh->mtx); 899d9a54d5cSPoul-Henning Kamp if (p1 != NULL) 900d9a54d5cSPoul-Henning Kamp Free(p1); 901d9a54d5cSPoul-Henning Kamp if (p2 != NULL) 902d9a54d5cSPoul-Henning Kamp Free(p2); 903f6bde1fdSPoul-Henning Kamp } 904f6bde1fdSPoul-Henning Kamp 90593f6c81eSPoul-Henning Kamp #ifndef _KERNEL /* USERLAND test driver */ 90693f6c81eSPoul-Henning Kamp 907f6bde1fdSPoul-Henning Kamp /* 908794277daSAlan Somers * Simple stochastic test driver for the above functions. The code resides 909794277daSAlan Somers * here so that it can access static functions and structures. 910f6bde1fdSPoul-Henning Kamp */ 911f6bde1fdSPoul-Henning Kamp 912794277daSAlan Somers static bool verbose; 913794277daSAlan Somers #define VPRINTF(...) {if (verbose) printf(__VA_ARGS__);} 914794277daSAlan Somers 915f6bde1fdSPoul-Henning Kamp static void 916f6bde1fdSPoul-Henning Kamp print_unr(struct unrhdr *uh, struct unr *up) 917f6bde1fdSPoul-Henning Kamp { 918f6bde1fdSPoul-Henning Kamp u_int x; 919d9a54d5cSPoul-Henning Kamp struct unrb *ub; 920f6bde1fdSPoul-Henning Kamp 921f6bde1fdSPoul-Henning Kamp printf(" %p len = %5u ", up, up->len); 922f6bde1fdSPoul-Henning Kamp if (up->ptr == NULL) 923f6bde1fdSPoul-Henning Kamp printf("free\n"); 924f6bde1fdSPoul-Henning Kamp else if (up->ptr == uh) 925f6bde1fdSPoul-Henning Kamp printf("alloc\n"); 926f6bde1fdSPoul-Henning Kamp else { 927d9a54d5cSPoul-Henning Kamp ub = up->ptr; 9288907f744SAlan Somers printf("bitmap ["); 929d9a54d5cSPoul-Henning Kamp for (x = 0; x < up->len; x++) { 930d9a54d5cSPoul-Henning Kamp if (bit_test(ub->map, x)) 931d9a54d5cSPoul-Henning Kamp printf("#"); 932f6bde1fdSPoul-Henning Kamp else 933d9a54d5cSPoul-Henning Kamp printf(" "); 934f6bde1fdSPoul-Henning Kamp } 935f6bde1fdSPoul-Henning Kamp printf("]\n"); 936f6bde1fdSPoul-Henning Kamp } 937f6bde1fdSPoul-Henning Kamp } 938f6bde1fdSPoul-Henning Kamp 939f6bde1fdSPoul-Henning Kamp static void 940f6bde1fdSPoul-Henning Kamp print_unrhdr(struct unrhdr *uh) 941f6bde1fdSPoul-Henning Kamp { 942f6bde1fdSPoul-Henning Kamp struct unr *up; 943f6bde1fdSPoul-Henning Kamp u_int x; 944f6bde1fdSPoul-Henning Kamp 945d9a54d5cSPoul-Henning Kamp printf( 946d9a54d5cSPoul-Henning Kamp "%p low = %u high = %u first = %u last = %u busy %u chunks = %u\n", 947d9a54d5cSPoul-Henning Kamp uh, uh->low, uh->high, uh->first, uh->last, uh->busy, uh->alloc); 948d9a54d5cSPoul-Henning Kamp x = uh->low + uh->first; 949f6bde1fdSPoul-Henning Kamp TAILQ_FOREACH(up, &uh->head, list) { 950f6bde1fdSPoul-Henning Kamp printf(" from = %5u", x); 951f6bde1fdSPoul-Henning Kamp print_unr(uh, up); 952f6bde1fdSPoul-Henning Kamp if (up->ptr == NULL || up->ptr == uh) 953f6bde1fdSPoul-Henning Kamp x += up->len; 954f6bde1fdSPoul-Henning Kamp else 955f6bde1fdSPoul-Henning Kamp x += NBITS; 956f6bde1fdSPoul-Henning Kamp } 957f6bde1fdSPoul-Henning Kamp } 958f6bde1fdSPoul-Henning Kamp 95913c02cbbSJaakko Heinonen static void 96013c02cbbSJaakko Heinonen test_alloc_unr(struct unrhdr *uh, u_int i, char a[]) 96113c02cbbSJaakko Heinonen { 96213c02cbbSJaakko Heinonen int j; 96313c02cbbSJaakko Heinonen 96413c02cbbSJaakko Heinonen if (a[i]) { 965794277daSAlan Somers VPRINTF("F %u\n", i); 96613c02cbbSJaakko Heinonen free_unr(uh, i); 96713c02cbbSJaakko Heinonen a[i] = 0; 96813c02cbbSJaakko Heinonen } else { 96913c02cbbSJaakko Heinonen no_alloc = 1; 97013c02cbbSJaakko Heinonen j = alloc_unr(uh); 97113c02cbbSJaakko Heinonen if (j != -1) { 97213c02cbbSJaakko Heinonen a[j] = 1; 973794277daSAlan Somers VPRINTF("A %d\n", j); 97413c02cbbSJaakko Heinonen } 97513c02cbbSJaakko Heinonen no_alloc = 0; 97613c02cbbSJaakko Heinonen } 97713c02cbbSJaakko Heinonen } 97813c02cbbSJaakko Heinonen 97913c02cbbSJaakko Heinonen static void 98013c02cbbSJaakko Heinonen test_alloc_unr_specific(struct unrhdr *uh, u_int i, char a[]) 98113c02cbbSJaakko Heinonen { 98213c02cbbSJaakko Heinonen int j; 98313c02cbbSJaakko Heinonen 98413c02cbbSJaakko Heinonen j = alloc_unr_specific(uh, i); 98513c02cbbSJaakko Heinonen if (j == -1) { 986794277daSAlan Somers VPRINTF("F %u\n", i); 98713c02cbbSJaakko Heinonen a[i] = 0; 98813c02cbbSJaakko Heinonen free_unr(uh, i); 98913c02cbbSJaakko Heinonen } else { 99013c02cbbSJaakko Heinonen a[i] = 1; 991794277daSAlan Somers VPRINTF("A %d\n", j); 99213c02cbbSJaakko Heinonen } 99313c02cbbSJaakko Heinonen } 99413c02cbbSJaakko Heinonen 995794277daSAlan Somers static void 996794277daSAlan Somers usage(char** argv) 997794277daSAlan Somers { 998794277daSAlan Somers printf("%s [-h] [-r REPETITIONS] [-v]\n", argv[0]); 999794277daSAlan Somers } 1000f6bde1fdSPoul-Henning Kamp 1001f6bde1fdSPoul-Henning Kamp int 1002794277daSAlan Somers main(int argc, char **argv) 1003f6bde1fdSPoul-Henning Kamp { 1004f6bde1fdSPoul-Henning Kamp struct unrhdr *uh; 1005794277daSAlan Somers char *a; 1006794277daSAlan Somers long count = 10000; /* Number of unrs to test */ 100737f32e53SAlan Somers long reps = 1, m; 1008794277daSAlan Somers int ch; 10095e8fcdfeSEnji Cooper u_int i, j; 1010794277daSAlan Somers 1011794277daSAlan Somers verbose = false; 1012794277daSAlan Somers 1013794277daSAlan Somers while ((ch = getopt(argc, argv, "hr:v")) != -1) { 1014794277daSAlan Somers switch (ch) { 1015794277daSAlan Somers case 'r': 1016794277daSAlan Somers errno = 0; 1017794277daSAlan Somers reps = strtol(optarg, NULL, 0); 1018794277daSAlan Somers if (errno == ERANGE || errno == EINVAL) { 1019794277daSAlan Somers usage(argv); 1020794277daSAlan Somers exit(2); 1021794277daSAlan Somers } 1022794277daSAlan Somers 1023794277daSAlan Somers break; 1024794277daSAlan Somers case 'v': 1025794277daSAlan Somers verbose = true; 1026794277daSAlan Somers break; 1027794277daSAlan Somers case 'h': 1028794277daSAlan Somers default: 1029794277daSAlan Somers usage(argv); 1030794277daSAlan Somers exit(2); 1031794277daSAlan Somers } 1032794277daSAlan Somers 1033794277daSAlan Somers 1034794277daSAlan Somers } 1035f6bde1fdSPoul-Henning Kamp 1036d9a54d5cSPoul-Henning Kamp setbuf(stdout, NULL); 1037794277daSAlan Somers uh = new_unrhdr(0, count - 1, NULL); 1038d9a54d5cSPoul-Henning Kamp print_unrhdr(uh); 1039f6bde1fdSPoul-Henning Kamp 1040794277daSAlan Somers a = calloc(count, sizeof(char)); 1041794277daSAlan Somers if (a == NULL) 1042794277daSAlan Somers err(1, "calloc failed"); 104313c02cbbSJaakko Heinonen srandomdev(); 1044f6bde1fdSPoul-Henning Kamp 1045794277daSAlan Somers printf("sizeof(struct unr) %zu\n", sizeof(struct unr)); 1046794277daSAlan Somers printf("sizeof(struct unrb) %zu\n", sizeof(struct unrb)); 1047794277daSAlan Somers printf("sizeof(struct unrhdr) %zu\n", sizeof(struct unrhdr)); 1048b4f69365SEd Maste printf("NBITS %lu\n", (unsigned long)NBITS); 1049794277daSAlan Somers for (m = 0; m < count * reps; m++) { 1050d9a54d5cSPoul-Henning Kamp j = random(); 1051794277daSAlan Somers i = (j >> 1) % count; 1052d9a54d5cSPoul-Henning Kamp #if 0 1053d9a54d5cSPoul-Henning Kamp if (a[i] && (j & 1)) 1054d9a54d5cSPoul-Henning Kamp continue; 1055d9a54d5cSPoul-Henning Kamp #endif 105613c02cbbSJaakko Heinonen if ((random() & 1) != 0) 105713c02cbbSJaakko Heinonen test_alloc_unr(uh, i, a); 105813c02cbbSJaakko Heinonen else 105913c02cbbSJaakko Heinonen test_alloc_unr_specific(uh, i, a); 106013c02cbbSJaakko Heinonen 1061794277daSAlan Somers if (verbose) 1062f6bde1fdSPoul-Henning Kamp print_unrhdr(uh); 1063f6bde1fdSPoul-Henning Kamp check_unrhdr(uh, __LINE__); 1064f6bde1fdSPoul-Henning Kamp } 106537f32e53SAlan Somers for (i = 0; i < (u_int)count; i++) { 1066d9a54d5cSPoul-Henning Kamp if (a[i]) { 1067794277daSAlan Somers if (verbose) { 1068d9a54d5cSPoul-Henning Kamp printf("C %u\n", i); 1069e4fea39eSPoul-Henning Kamp print_unrhdr(uh); 1070d9a54d5cSPoul-Henning Kamp } 1071794277daSAlan Somers free_unr(uh, i); 1072794277daSAlan Somers } 1073d9a54d5cSPoul-Henning Kamp } 1074d9a54d5cSPoul-Henning Kamp print_unrhdr(uh); 1075e4fea39eSPoul-Henning Kamp delete_unrhdr(uh); 1076794277daSAlan Somers free(a); 1077f6bde1fdSPoul-Henning Kamp return (0); 1078f6bde1fdSPoul-Henning Kamp } 1079f6bde1fdSPoul-Henning Kamp #endif 1080