160727d8bSWarner Losh /*- 208ecce74SRobert Watson * Copyright (c) 2002, 2003, 2004, 2005 Jeffrey Roberson <jeff@FreeBSD.org> 308ecce74SRobert Watson * Copyright (c) 2004, 2005 Bosko Milekic <bmilekic@FreeBSD.org> 4ae4e9636SRobert Watson * Copyright (c) 2004-2006 Robert N. M. Watson 508ecce74SRobert Watson * All rights reserved. 68355f576SJeff Roberson * 78355f576SJeff Roberson * Redistribution and use in source and binary forms, with or without 88355f576SJeff Roberson * modification, are permitted provided that the following conditions 98355f576SJeff Roberson * are met: 108355f576SJeff Roberson * 1. Redistributions of source code must retain the above copyright 118355f576SJeff Roberson * notice unmodified, this list of conditions, and the following 128355f576SJeff Roberson * disclaimer. 138355f576SJeff Roberson * 2. Redistributions in binary form must reproduce the above copyright 148355f576SJeff Roberson * notice, this list of conditions and the following disclaimer in the 158355f576SJeff Roberson * documentation and/or other materials provided with the distribution. 168355f576SJeff Roberson * 178355f576SJeff Roberson * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 188355f576SJeff Roberson * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 198355f576SJeff Roberson * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 208355f576SJeff Roberson * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 218355f576SJeff Roberson * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 228355f576SJeff Roberson * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 238355f576SJeff Roberson * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 248355f576SJeff Roberson * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 258355f576SJeff Roberson * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 268355f576SJeff Roberson * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 278355f576SJeff Roberson */ 288355f576SJeff Roberson 298355f576SJeff Roberson /* 308355f576SJeff Roberson * uma_core.c Implementation of the Universal Memory allocator 318355f576SJeff Roberson * 328355f576SJeff Roberson * This allocator is intended to replace the multitude of similar object caches 338355f576SJeff Roberson * in the standard FreeBSD kernel. The intent is to be flexible as well as 348355f576SJeff Roberson * effecient. A primary design goal is to return unused memory to the rest of 358355f576SJeff Roberson * the system. This will make the system as a whole more flexible due to the 368355f576SJeff Roberson * ability to move memory to subsystems which most need it instead of leaving 378355f576SJeff Roberson * pools of reserved memory unused. 388355f576SJeff Roberson * 398355f576SJeff Roberson * The basic ideas stem from similar slab/zone based allocators whose algorithms 408355f576SJeff Roberson * are well known. 418355f576SJeff Roberson * 428355f576SJeff Roberson */ 438355f576SJeff Roberson 448355f576SJeff Roberson /* 458355f576SJeff Roberson * TODO: 468355f576SJeff Roberson * - Improve memory usage for large allocations 478355f576SJeff Roberson * - Investigate cache size adjustments 488355f576SJeff Roberson */ 498355f576SJeff Roberson 50874651b1SDavid E. O'Brien #include <sys/cdefs.h> 51874651b1SDavid E. O'Brien __FBSDID("$FreeBSD$"); 52874651b1SDavid E. O'Brien 538355f576SJeff Roberson /* I should really use ktr.. */ 548355f576SJeff Roberson /* 558355f576SJeff Roberson #define UMA_DEBUG 1 568355f576SJeff Roberson #define UMA_DEBUG_ALLOC 1 578355f576SJeff Roberson #define UMA_DEBUG_ALLOC_1 1 588355f576SJeff Roberson */ 598355f576SJeff Roberson 6048c5777eSRobert Watson #include "opt_ddb.h" 618355f576SJeff Roberson #include "opt_param.h" 6248c5777eSRobert Watson 638355f576SJeff Roberson #include <sys/param.h> 648355f576SJeff Roberson #include <sys/systm.h> 658355f576SJeff Roberson #include <sys/kernel.h> 668355f576SJeff Roberson #include <sys/types.h> 678355f576SJeff Roberson #include <sys/queue.h> 688355f576SJeff Roberson #include <sys/malloc.h> 693659f747SRobert Watson #include <sys/ktr.h> 708355f576SJeff Roberson #include <sys/lock.h> 718355f576SJeff Roberson #include <sys/sysctl.h> 728355f576SJeff Roberson #include <sys/mutex.h> 734c1cc01cSJohn Baldwin #include <sys/proc.h> 747a52a97eSRobert Watson #include <sys/sbuf.h> 758355f576SJeff Roberson #include <sys/smp.h> 7686bbae32SJeff Roberson #include <sys/vmmeter.h> 7786bbae32SJeff Roberson 788355f576SJeff Roberson #include <vm/vm.h> 798355f576SJeff Roberson #include <vm/vm_object.h> 808355f576SJeff Roberson #include <vm/vm_page.h> 818355f576SJeff Roberson #include <vm/vm_param.h> 828355f576SJeff Roberson #include <vm/vm_map.h> 838355f576SJeff Roberson #include <vm/vm_kern.h> 848355f576SJeff Roberson #include <vm/vm_extern.h> 858355f576SJeff Roberson #include <vm/uma.h> 868355f576SJeff Roberson #include <vm/uma_int.h> 87639c9550SJeff Roberson #include <vm/uma_dbg.h> 888355f576SJeff Roberson 8948eea375SJeff Roberson #include <machine/vmparam.h> 9048eea375SJeff Roberson 9148c5777eSRobert Watson #include <ddb/ddb.h> 9248c5777eSRobert Watson 938355f576SJeff Roberson /* 94099a0e58SBosko Milekic * This is the zone and keg from which all zones are spawned. The idea is that 95099a0e58SBosko Milekic * even the zone & keg heads are allocated from the allocator, so we use the 96099a0e58SBosko Milekic * bss section to bootstrap us. 978355f576SJeff Roberson */ 98099a0e58SBosko Milekic static struct uma_keg masterkeg; 99099a0e58SBosko Milekic static struct uma_zone masterzone_k; 100099a0e58SBosko Milekic static struct uma_zone masterzone_z; 101099a0e58SBosko Milekic static uma_zone_t kegs = &masterzone_k; 102099a0e58SBosko Milekic static uma_zone_t zones = &masterzone_z; 1038355f576SJeff Roberson 1048355f576SJeff Roberson /* This is the zone from which all of uma_slab_t's are allocated. */ 1058355f576SJeff Roberson static uma_zone_t slabzone; 106099a0e58SBosko Milekic static uma_zone_t slabrefzone; /* With refcounters (for UMA_ZONE_REFCNT) */ 1078355f576SJeff Roberson 1088355f576SJeff Roberson /* 1098355f576SJeff Roberson * The initial hash tables come out of this zone so they can be allocated 1108355f576SJeff Roberson * prior to malloc coming up. 1118355f576SJeff Roberson */ 1128355f576SJeff Roberson static uma_zone_t hashzone; 1138355f576SJeff Roberson 1141e319f6dSRobert Watson /* The boot-time adjusted value for cache line alignment. */ 1151e319f6dSRobert Watson static int uma_align_cache = 16 - 1; 1161e319f6dSRobert Watson 117961647dfSJeff Roberson static MALLOC_DEFINE(M_UMAHASH, "UMAHash", "UMA Hash Buckets"); 118961647dfSJeff Roberson 1198355f576SJeff Roberson /* 12086bbae32SJeff Roberson * Are we allowed to allocate buckets? 12186bbae32SJeff Roberson */ 12286bbae32SJeff Roberson static int bucketdisable = 1; 12386bbae32SJeff Roberson 124099a0e58SBosko Milekic /* Linked list of all kegs in the system */ 125099a0e58SBosko Milekic static LIST_HEAD(,uma_keg) uma_kegs = LIST_HEAD_INITIALIZER(&uma_kegs); 1268355f576SJeff Roberson 127099a0e58SBosko Milekic /* This mutex protects the keg list */ 1288355f576SJeff Roberson static struct mtx uma_mtx; 1298355f576SJeff Roberson 1308355f576SJeff Roberson /* Linked list of boot time pages */ 1318355f576SJeff Roberson static LIST_HEAD(,uma_slab) uma_boot_pages = 1328355f576SJeff Roberson LIST_HEAD_INITIALIZER(&uma_boot_pages); 1338355f576SJeff Roberson 134f353d338SAlan Cox /* This mutex protects the boot time pages list */ 135f353d338SAlan Cox static struct mtx uma_boot_pages_mtx; 1368355f576SJeff Roberson 1378355f576SJeff Roberson /* Is the VM done starting up? */ 1388355f576SJeff Roberson static int booted = 0; 1398355f576SJeff Roberson 140244f4554SBosko Milekic /* Maximum number of allowed items-per-slab if the slab header is OFFPAGE */ 141244f4554SBosko Milekic static u_int uma_max_ipers; 142244f4554SBosko Milekic static u_int uma_max_ipers_ref; 143244f4554SBosko Milekic 1449643769aSJeff Roberson /* 1459643769aSJeff Roberson * This is the handle used to schedule events that need to happen 1469643769aSJeff Roberson * outside of the allocation fast path. 1479643769aSJeff Roberson */ 1488355f576SJeff Roberson static struct callout uma_callout; 1499643769aSJeff Roberson #define UMA_TIMEOUT 20 /* Seconds for callout interval. */ 1508355f576SJeff Roberson 1518355f576SJeff Roberson /* 1528355f576SJeff Roberson * This structure is passed as the zone ctor arg so that I don't have to create 1538355f576SJeff Roberson * a special allocation function just for zones. 1548355f576SJeff Roberson */ 1558355f576SJeff Roberson struct uma_zctor_args { 1568355f576SJeff Roberson char *name; 157c3bdc05fSAndrew R. Reiter size_t size; 1588355f576SJeff Roberson uma_ctor ctor; 1598355f576SJeff Roberson uma_dtor dtor; 1608355f576SJeff Roberson uma_init uminit; 1618355f576SJeff Roberson uma_fini fini; 162099a0e58SBosko Milekic uma_keg_t keg; 163099a0e58SBosko Milekic int align; 1642018f30cSMike Silbersack u_int32_t flags; 165099a0e58SBosko Milekic }; 166099a0e58SBosko Milekic 167099a0e58SBosko Milekic struct uma_kctor_args { 168099a0e58SBosko Milekic uma_zone_t zone; 169099a0e58SBosko Milekic size_t size; 170099a0e58SBosko Milekic uma_init uminit; 171099a0e58SBosko Milekic uma_fini fini; 1728355f576SJeff Roberson int align; 1732018f30cSMike Silbersack u_int32_t flags; 1748355f576SJeff Roberson }; 1758355f576SJeff Roberson 176cae33c14SJeff Roberson struct uma_bucket_zone { 177cae33c14SJeff Roberson uma_zone_t ubz_zone; 178cae33c14SJeff Roberson char *ubz_name; 179cae33c14SJeff Roberson int ubz_entries; 180cae33c14SJeff Roberson }; 181cae33c14SJeff Roberson 182cae33c14SJeff Roberson #define BUCKET_MAX 128 183cae33c14SJeff Roberson 184cae33c14SJeff Roberson struct uma_bucket_zone bucket_zones[] = { 185cae33c14SJeff Roberson { NULL, "16 Bucket", 16 }, 186cae33c14SJeff Roberson { NULL, "32 Bucket", 32 }, 187cae33c14SJeff Roberson { NULL, "64 Bucket", 64 }, 188cae33c14SJeff Roberson { NULL, "128 Bucket", 128 }, 189cae33c14SJeff Roberson { NULL, NULL, 0} 190cae33c14SJeff Roberson }; 191cae33c14SJeff Roberson 192cae33c14SJeff Roberson #define BUCKET_SHIFT 4 193cae33c14SJeff Roberson #define BUCKET_ZONES ((BUCKET_MAX >> BUCKET_SHIFT) + 1) 194cae33c14SJeff Roberson 195f9d27e75SRobert Watson /* 196f9d27e75SRobert Watson * bucket_size[] maps requested bucket sizes to zones that allocate a bucket 197f9d27e75SRobert Watson * of approximately the right size. 198f9d27e75SRobert Watson */ 199f9d27e75SRobert Watson static uint8_t bucket_size[BUCKET_ZONES]; 200cae33c14SJeff Roberson 2012019094aSRobert Watson /* 2022019094aSRobert Watson * Flags and enumerations to be passed to internal functions. 2032019094aSRobert Watson */ 204b23f72e9SBrian Feldman enum zfreeskip { SKIP_NONE, SKIP_DTOR, SKIP_FINI }; 205b23f72e9SBrian Feldman 2062019094aSRobert Watson #define ZFREE_STATFAIL 0x00000001 /* Update zone failure statistic. */ 207f4ff923bSRobert Watson #define ZFREE_STATFREE 0x00000002 /* Update zone free statistic. */ 2082019094aSRobert Watson 2098355f576SJeff Roberson /* Prototypes.. */ 2108355f576SJeff Roberson 2118355f576SJeff Roberson static void *obj_alloc(uma_zone_t, int, u_int8_t *, int); 2128355f576SJeff Roberson static void *page_alloc(uma_zone_t, int, u_int8_t *, int); 213009b6fcbSJeff Roberson static void *startup_alloc(uma_zone_t, int, u_int8_t *, int); 2148355f576SJeff Roberson static void page_free(void *, int, u_int8_t); 2158355f576SJeff Roberson static uma_slab_t slab_zalloc(uma_zone_t, int); 2169643769aSJeff Roberson static void cache_drain(uma_zone_t); 2178355f576SJeff Roberson static void bucket_drain(uma_zone_t, uma_bucket_t); 218aaa8bb16SJeff Roberson static void bucket_cache_drain(uma_zone_t zone); 219b23f72e9SBrian Feldman static int keg_ctor(void *, int, void *, int); 220099a0e58SBosko Milekic static void keg_dtor(void *, int, void *); 221b23f72e9SBrian Feldman static int zone_ctor(void *, int, void *, int); 2229c2cd7e5SJeff Roberson static void zone_dtor(void *, int, void *); 223b23f72e9SBrian Feldman static int zero_init(void *, int, int); 2248355f576SJeff Roberson static void zone_small_init(uma_zone_t zone); 2258355f576SJeff Roberson static void zone_large_init(uma_zone_t zone); 2268355f576SJeff Roberson static void zone_foreach(void (*zfunc)(uma_zone_t)); 2278355f576SJeff Roberson static void zone_timeout(uma_zone_t zone); 2280aef6126SJeff Roberson static int hash_alloc(struct uma_hash *); 2290aef6126SJeff Roberson static int hash_expand(struct uma_hash *, struct uma_hash *); 2300aef6126SJeff Roberson static void hash_free(struct uma_hash *hash); 2318355f576SJeff Roberson static void uma_timeout(void *); 2328355f576SJeff Roberson static void uma_startup3(void); 233bbee39c6SJeff Roberson static void *uma_zalloc_internal(uma_zone_t, void *, int); 2342019094aSRobert Watson static void uma_zfree_internal(uma_zone_t, void *, void *, enum zfreeskip, 2352019094aSRobert Watson int); 23686bbae32SJeff Roberson static void bucket_enable(void); 237cae33c14SJeff Roberson static void bucket_init(void); 238cae33c14SJeff Roberson static uma_bucket_t bucket_alloc(int, int); 239cae33c14SJeff Roberson static void bucket_free(uma_bucket_t); 240cae33c14SJeff Roberson static void bucket_zone_drain(void); 241bbee39c6SJeff Roberson static int uma_zalloc_bucket(uma_zone_t zone, int flags); 242bbee39c6SJeff Roberson static uma_slab_t uma_zone_slab(uma_zone_t zone, int flags); 243bbee39c6SJeff Roberson static void *uma_slab_alloc(uma_zone_t zone, uma_slab_t slab); 244b23f72e9SBrian Feldman static uma_zone_t uma_kcreate(uma_zone_t zone, size_t size, uma_init uminit, 2452018f30cSMike Silbersack uma_fini fini, int align, u_int32_t flags); 246bbee39c6SJeff Roberson 2478355f576SJeff Roberson void uma_print_zone(uma_zone_t); 2488355f576SJeff Roberson void uma_print_stats(void); 2497a52a97eSRobert Watson static int sysctl_vm_zone_count(SYSCTL_HANDLER_ARGS); 2507a52a97eSRobert Watson static int sysctl_vm_zone_stats(SYSCTL_HANDLER_ARGS); 2518355f576SJeff Roberson 2520c3c862eSBrian Feldman #ifdef WITNESS 25355fc8c11SBrian Feldman static int nosleepwithlocks = 1; 2540c3c862eSBrian Feldman #else 2550d0837eeSBosko Milekic static int nosleepwithlocks = 0; 256ca49f12fSJohn Baldwin #endif 2570d0837eeSBosko Milekic SYSCTL_INT(_debug, OID_AUTO, nosleepwithlocks, CTLFLAG_RW, &nosleepwithlocks, 2580d0837eeSBosko Milekic 0, "Convert M_WAITOK to M_NOWAIT to avoid lock-held-across-sleep paths"); 2598355f576SJeff Roberson SYSINIT(uma_startup3, SI_SUB_VM_CONF, SI_ORDER_SECOND, uma_startup3, NULL); 2608355f576SJeff Roberson 2617a52a97eSRobert Watson SYSCTL_PROC(_vm, OID_AUTO, zone_count, CTLFLAG_RD|CTLTYPE_INT, 2627a52a97eSRobert Watson 0, 0, sysctl_vm_zone_count, "I", "Number of UMA zones"); 2637a52a97eSRobert Watson 2647a52a97eSRobert Watson SYSCTL_PROC(_vm, OID_AUTO, zone_stats, CTLFLAG_RD|CTLTYPE_STRUCT, 2657a52a97eSRobert Watson 0, 0, sysctl_vm_zone_stats, "s,struct uma_type_header", "Zone Stats"); 2667a52a97eSRobert Watson 26786bbae32SJeff Roberson /* 26886bbae32SJeff Roberson * This routine checks to see whether or not it's safe to enable buckets. 26986bbae32SJeff Roberson */ 27086bbae32SJeff Roberson 27186bbae32SJeff Roberson static void 27286bbae32SJeff Roberson bucket_enable(void) 27386bbae32SJeff Roberson { 27486bbae32SJeff Roberson if (cnt.v_free_count < cnt.v_free_min) 27586bbae32SJeff Roberson bucketdisable = 1; 27686bbae32SJeff Roberson else 27786bbae32SJeff Roberson bucketdisable = 0; 27886bbae32SJeff Roberson } 27986bbae32SJeff Roberson 280dc2c7965SRobert Watson /* 281dc2c7965SRobert Watson * Initialize bucket_zones, the array of zones of buckets of various sizes. 282dc2c7965SRobert Watson * 283dc2c7965SRobert Watson * For each zone, calculate the memory required for each bucket, consisting 284dc2c7965SRobert Watson * of the header and an array of pointers. Initialize bucket_size[] to point 285dc2c7965SRobert Watson * the range of appropriate bucket sizes at the zone. 286dc2c7965SRobert Watson */ 287cae33c14SJeff Roberson static void 288cae33c14SJeff Roberson bucket_init(void) 289cae33c14SJeff Roberson { 290cae33c14SJeff Roberson struct uma_bucket_zone *ubz; 291cae33c14SJeff Roberson int i; 292cae33c14SJeff Roberson int j; 293cae33c14SJeff Roberson 294cae33c14SJeff Roberson for (i = 0, j = 0; bucket_zones[j].ubz_entries != 0; j++) { 295cae33c14SJeff Roberson int size; 296cae33c14SJeff Roberson 297cae33c14SJeff Roberson ubz = &bucket_zones[j]; 298cae33c14SJeff Roberson size = roundup(sizeof(struct uma_bucket), sizeof(void *)); 299cae33c14SJeff Roberson size += sizeof(void *) * ubz->ubz_entries; 300cae33c14SJeff Roberson ubz->ubz_zone = uma_zcreate(ubz->ubz_name, size, 301b60f5b79SJeff Roberson NULL, NULL, NULL, NULL, UMA_ALIGN_PTR, UMA_ZFLAG_INTERNAL); 302cae33c14SJeff Roberson for (; i <= ubz->ubz_entries; i += (1 << BUCKET_SHIFT)) 303cae33c14SJeff Roberson bucket_size[i >> BUCKET_SHIFT] = j; 304cae33c14SJeff Roberson } 305cae33c14SJeff Roberson } 306cae33c14SJeff Roberson 307dc2c7965SRobert Watson /* 308dc2c7965SRobert Watson * Given a desired number of entries for a bucket, return the zone from which 309dc2c7965SRobert Watson * to allocate the bucket. 310dc2c7965SRobert Watson */ 311dc2c7965SRobert Watson static struct uma_bucket_zone * 312dc2c7965SRobert Watson bucket_zone_lookup(int entries) 313dc2c7965SRobert Watson { 314dc2c7965SRobert Watson int idx; 315dc2c7965SRobert Watson 316dc2c7965SRobert Watson idx = howmany(entries, 1 << BUCKET_SHIFT); 317dc2c7965SRobert Watson return (&bucket_zones[bucket_size[idx]]); 318dc2c7965SRobert Watson } 319dc2c7965SRobert Watson 320cae33c14SJeff Roberson static uma_bucket_t 321cae33c14SJeff Roberson bucket_alloc(int entries, int bflags) 322cae33c14SJeff Roberson { 323cae33c14SJeff Roberson struct uma_bucket_zone *ubz; 324cae33c14SJeff Roberson uma_bucket_t bucket; 325cae33c14SJeff Roberson 326cae33c14SJeff Roberson /* 327cae33c14SJeff Roberson * This is to stop us from allocating per cpu buckets while we're 3283803b26bSDag-Erling Smørgrav * running out of vm.boot_pages. Otherwise, we would exhaust the 329cae33c14SJeff Roberson * boot pages. This also prevents us from allocating buckets in 330cae33c14SJeff Roberson * low memory situations. 331cae33c14SJeff Roberson */ 332cae33c14SJeff Roberson if (bucketdisable) 333cae33c14SJeff Roberson return (NULL); 334dc2c7965SRobert Watson 335dc2c7965SRobert Watson ubz = bucket_zone_lookup(entries); 336cae33c14SJeff Roberson bucket = uma_zalloc_internal(ubz->ubz_zone, NULL, bflags); 337cae33c14SJeff Roberson if (bucket) { 338cae33c14SJeff Roberson #ifdef INVARIANTS 339cae33c14SJeff Roberson bzero(bucket->ub_bucket, sizeof(void *) * ubz->ubz_entries); 340cae33c14SJeff Roberson #endif 341cae33c14SJeff Roberson bucket->ub_cnt = 0; 342cae33c14SJeff Roberson bucket->ub_entries = ubz->ubz_entries; 343cae33c14SJeff Roberson } 344cae33c14SJeff Roberson 345cae33c14SJeff Roberson return (bucket); 346cae33c14SJeff Roberson } 347cae33c14SJeff Roberson 348cae33c14SJeff Roberson static void 349cae33c14SJeff Roberson bucket_free(uma_bucket_t bucket) 350cae33c14SJeff Roberson { 351cae33c14SJeff Roberson struct uma_bucket_zone *ubz; 352cae33c14SJeff Roberson 353dc2c7965SRobert Watson ubz = bucket_zone_lookup(bucket->ub_entries); 354f4ff923bSRobert Watson uma_zfree_internal(ubz->ubz_zone, bucket, NULL, SKIP_NONE, 355f4ff923bSRobert Watson ZFREE_STATFREE); 356cae33c14SJeff Roberson } 357cae33c14SJeff Roberson 358cae33c14SJeff Roberson static void 359cae33c14SJeff Roberson bucket_zone_drain(void) 360cae33c14SJeff Roberson { 361cae33c14SJeff Roberson struct uma_bucket_zone *ubz; 362cae33c14SJeff Roberson 363cae33c14SJeff Roberson for (ubz = &bucket_zones[0]; ubz->ubz_entries != 0; ubz++) 364cae33c14SJeff Roberson zone_drain(ubz->ubz_zone); 365cae33c14SJeff Roberson } 366cae33c14SJeff Roberson 3678355f576SJeff Roberson 3688355f576SJeff Roberson /* 3698355f576SJeff Roberson * Routine called by timeout which is used to fire off some time interval 3709643769aSJeff Roberson * based calculations. (stats, hash size, etc.) 3718355f576SJeff Roberson * 3728355f576SJeff Roberson * Arguments: 3738355f576SJeff Roberson * arg Unused 3748355f576SJeff Roberson * 3758355f576SJeff Roberson * Returns: 3768355f576SJeff Roberson * Nothing 3778355f576SJeff Roberson */ 3788355f576SJeff Roberson static void 3798355f576SJeff Roberson uma_timeout(void *unused) 3808355f576SJeff Roberson { 38186bbae32SJeff Roberson bucket_enable(); 3828355f576SJeff Roberson zone_foreach(zone_timeout); 3838355f576SJeff Roberson 3848355f576SJeff Roberson /* Reschedule this event */ 3859643769aSJeff Roberson callout_reset(&uma_callout, UMA_TIMEOUT * hz, uma_timeout, NULL); 3868355f576SJeff Roberson } 3878355f576SJeff Roberson 3888355f576SJeff Roberson /* 3899643769aSJeff Roberson * Routine to perform timeout driven calculations. This expands the 3909643769aSJeff Roberson * hashes and does per cpu statistics aggregation. 3918355f576SJeff Roberson * 3928355f576SJeff Roberson * Arguments: 3938355f576SJeff Roberson * zone The zone to operate on 3948355f576SJeff Roberson * 3958355f576SJeff Roberson * Returns: 3968355f576SJeff Roberson * Nothing 3978355f576SJeff Roberson */ 3988355f576SJeff Roberson static void 3998355f576SJeff Roberson zone_timeout(uma_zone_t zone) 4008355f576SJeff Roberson { 401099a0e58SBosko Milekic uma_keg_t keg; 4028355f576SJeff Roberson u_int64_t alloc; 4038355f576SJeff Roberson 404099a0e58SBosko Milekic keg = zone->uz_keg; 4058355f576SJeff Roberson alloc = 0; 4068355f576SJeff Roberson 4078355f576SJeff Roberson /* 4088355f576SJeff Roberson * Expand the zone hash table. 4098355f576SJeff Roberson * 4108355f576SJeff Roberson * This is done if the number of slabs is larger than the hash size. 4118355f576SJeff Roberson * What I'm trying to do here is completely reduce collisions. This 4128355f576SJeff Roberson * may be a little aggressive. Should I allow for two collisions max? 4138355f576SJeff Roberson */ 4145d1ae027SRobert Watson ZONE_LOCK(zone); 415099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_HASH && 416099a0e58SBosko Milekic keg->uk_pages / keg->uk_ppera >= keg->uk_hash.uh_hashsize) { 4170aef6126SJeff Roberson struct uma_hash newhash; 4180aef6126SJeff Roberson struct uma_hash oldhash; 4190aef6126SJeff Roberson int ret; 4205300d9ddSJeff Roberson 4210aef6126SJeff Roberson /* 4220aef6126SJeff Roberson * This is so involved because allocating and freeing 4230aef6126SJeff Roberson * while the zone lock is held will lead to deadlock. 4240aef6126SJeff Roberson * I have to do everything in stages and check for 4250aef6126SJeff Roberson * races. 4260aef6126SJeff Roberson */ 427099a0e58SBosko Milekic newhash = keg->uk_hash; 4285300d9ddSJeff Roberson ZONE_UNLOCK(zone); 4290aef6126SJeff Roberson ret = hash_alloc(&newhash); 4305300d9ddSJeff Roberson ZONE_LOCK(zone); 4310aef6126SJeff Roberson if (ret) { 432099a0e58SBosko Milekic if (hash_expand(&keg->uk_hash, &newhash)) { 433099a0e58SBosko Milekic oldhash = keg->uk_hash; 434099a0e58SBosko Milekic keg->uk_hash = newhash; 4350aef6126SJeff Roberson } else 4360aef6126SJeff Roberson oldhash = newhash; 4370aef6126SJeff Roberson 4380aef6126SJeff Roberson ZONE_UNLOCK(zone); 4390aef6126SJeff Roberson hash_free(&oldhash); 4400aef6126SJeff Roberson ZONE_LOCK(zone); 4410aef6126SJeff Roberson } 4425300d9ddSJeff Roberson } 4438355f576SJeff Roberson ZONE_UNLOCK(zone); 4448355f576SJeff Roberson } 4458355f576SJeff Roberson 4468355f576SJeff Roberson /* 4475300d9ddSJeff Roberson * Allocate and zero fill the next sized hash table from the appropriate 4485300d9ddSJeff Roberson * backing store. 4495300d9ddSJeff Roberson * 4505300d9ddSJeff Roberson * Arguments: 4510aef6126SJeff Roberson * hash A new hash structure with the old hash size in uh_hashsize 4525300d9ddSJeff Roberson * 4535300d9ddSJeff Roberson * Returns: 4540aef6126SJeff Roberson * 1 on sucess and 0 on failure. 4555300d9ddSJeff Roberson */ 45637c84183SPoul-Henning Kamp static int 4570aef6126SJeff Roberson hash_alloc(struct uma_hash *hash) 4585300d9ddSJeff Roberson { 4590aef6126SJeff Roberson int oldsize; 4605300d9ddSJeff Roberson int alloc; 4615300d9ddSJeff Roberson 4620aef6126SJeff Roberson oldsize = hash->uh_hashsize; 4630aef6126SJeff Roberson 4645300d9ddSJeff Roberson /* We're just going to go to a power of two greater */ 4650aef6126SJeff Roberson if (oldsize) { 4660aef6126SJeff Roberson hash->uh_hashsize = oldsize * 2; 4670aef6126SJeff Roberson alloc = sizeof(hash->uh_slab_hash[0]) * hash->uh_hashsize; 4680aef6126SJeff Roberson hash->uh_slab_hash = (struct slabhead *)malloc(alloc, 469961647dfSJeff Roberson M_UMAHASH, M_NOWAIT); 4705300d9ddSJeff Roberson } else { 4710aef6126SJeff Roberson alloc = sizeof(hash->uh_slab_hash[0]) * UMA_HASH_SIZE_INIT; 4720aef6126SJeff Roberson hash->uh_slab_hash = uma_zalloc_internal(hashzone, NULL, 473a163d034SWarner Losh M_WAITOK); 4740aef6126SJeff Roberson hash->uh_hashsize = UMA_HASH_SIZE_INIT; 4755300d9ddSJeff Roberson } 4760aef6126SJeff Roberson if (hash->uh_slab_hash) { 4770aef6126SJeff Roberson bzero(hash->uh_slab_hash, alloc); 4780aef6126SJeff Roberson hash->uh_hashmask = hash->uh_hashsize - 1; 4790aef6126SJeff Roberson return (1); 4800aef6126SJeff Roberson } 4815300d9ddSJeff Roberson 4820aef6126SJeff Roberson return (0); 4835300d9ddSJeff Roberson } 4845300d9ddSJeff Roberson 4855300d9ddSJeff Roberson /* 48664f051e9SJeff Roberson * Expands the hash table for HASH zones. This is done from zone_timeout 48764f051e9SJeff Roberson * to reduce collisions. This must not be done in the regular allocation 48864f051e9SJeff Roberson * path, otherwise, we can recurse on the vm while allocating pages. 4898355f576SJeff Roberson * 4908355f576SJeff Roberson * Arguments: 4910aef6126SJeff Roberson * oldhash The hash you want to expand 4920aef6126SJeff Roberson * newhash The hash structure for the new table 4938355f576SJeff Roberson * 4948355f576SJeff Roberson * Returns: 4958355f576SJeff Roberson * Nothing 4968355f576SJeff Roberson * 4978355f576SJeff Roberson * Discussion: 4988355f576SJeff Roberson */ 4990aef6126SJeff Roberson static int 5000aef6126SJeff Roberson hash_expand(struct uma_hash *oldhash, struct uma_hash *newhash) 5018355f576SJeff Roberson { 5028355f576SJeff Roberson uma_slab_t slab; 5038355f576SJeff Roberson int hval; 5048355f576SJeff Roberson int i; 5058355f576SJeff Roberson 5060aef6126SJeff Roberson if (!newhash->uh_slab_hash) 5070aef6126SJeff Roberson return (0); 5088355f576SJeff Roberson 5090aef6126SJeff Roberson if (oldhash->uh_hashsize >= newhash->uh_hashsize) 5100aef6126SJeff Roberson return (0); 5118355f576SJeff Roberson 5128355f576SJeff Roberson /* 5138355f576SJeff Roberson * I need to investigate hash algorithms for resizing without a 5148355f576SJeff Roberson * full rehash. 5158355f576SJeff Roberson */ 5168355f576SJeff Roberson 5170aef6126SJeff Roberson for (i = 0; i < oldhash->uh_hashsize; i++) 5180aef6126SJeff Roberson while (!SLIST_EMPTY(&oldhash->uh_slab_hash[i])) { 5190aef6126SJeff Roberson slab = SLIST_FIRST(&oldhash->uh_slab_hash[i]); 5200aef6126SJeff Roberson SLIST_REMOVE_HEAD(&oldhash->uh_slab_hash[i], us_hlink); 5210aef6126SJeff Roberson hval = UMA_HASH(newhash, slab->us_data); 5220aef6126SJeff Roberson SLIST_INSERT_HEAD(&newhash->uh_slab_hash[hval], 5230aef6126SJeff Roberson slab, us_hlink); 5248355f576SJeff Roberson } 5258355f576SJeff Roberson 5260aef6126SJeff Roberson return (1); 5279c2cd7e5SJeff Roberson } 5289c2cd7e5SJeff Roberson 5295300d9ddSJeff Roberson /* 5305300d9ddSJeff Roberson * Free the hash bucket to the appropriate backing store. 5315300d9ddSJeff Roberson * 5325300d9ddSJeff Roberson * Arguments: 5335300d9ddSJeff Roberson * slab_hash The hash bucket we're freeing 5345300d9ddSJeff Roberson * hashsize The number of entries in that hash bucket 5355300d9ddSJeff Roberson * 5365300d9ddSJeff Roberson * Returns: 5375300d9ddSJeff Roberson * Nothing 5385300d9ddSJeff Roberson */ 5399c2cd7e5SJeff Roberson static void 5400aef6126SJeff Roberson hash_free(struct uma_hash *hash) 5419c2cd7e5SJeff Roberson { 5420aef6126SJeff Roberson if (hash->uh_slab_hash == NULL) 5430aef6126SJeff Roberson return; 5440aef6126SJeff Roberson if (hash->uh_hashsize == UMA_HASH_SIZE_INIT) 5458355f576SJeff Roberson uma_zfree_internal(hashzone, 546f4ff923bSRobert Watson hash->uh_slab_hash, NULL, SKIP_NONE, ZFREE_STATFREE); 5478355f576SJeff Roberson else 548961647dfSJeff Roberson free(hash->uh_slab_hash, M_UMAHASH); 5498355f576SJeff Roberson } 5508355f576SJeff Roberson 5518355f576SJeff Roberson /* 5528355f576SJeff Roberson * Frees all outstanding items in a bucket 5538355f576SJeff Roberson * 5548355f576SJeff Roberson * Arguments: 5558355f576SJeff Roberson * zone The zone to free to, must be unlocked. 5568355f576SJeff Roberson * bucket The free/alloc bucket with items, cpu queue must be locked. 5578355f576SJeff Roberson * 5588355f576SJeff Roberson * Returns: 5598355f576SJeff Roberson * Nothing 5608355f576SJeff Roberson */ 5618355f576SJeff Roberson 5628355f576SJeff Roberson static void 5638355f576SJeff Roberson bucket_drain(uma_zone_t zone, uma_bucket_t bucket) 5648355f576SJeff Roberson { 5658355f576SJeff Roberson uma_slab_t slab; 5668355f576SJeff Roberson int mzone; 5678355f576SJeff Roberson void *item; 5688355f576SJeff Roberson 5698355f576SJeff Roberson if (bucket == NULL) 5708355f576SJeff Roberson return; 5718355f576SJeff Roberson 5728355f576SJeff Roberson slab = NULL; 5738355f576SJeff Roberson mzone = 0; 5748355f576SJeff Roberson 5758355f576SJeff Roberson /* We have to lookup the slab again for malloc.. */ 576099a0e58SBosko Milekic if (zone->uz_keg->uk_flags & UMA_ZONE_MALLOC) 5778355f576SJeff Roberson mzone = 1; 5788355f576SJeff Roberson 579cae33c14SJeff Roberson while (bucket->ub_cnt > 0) { 580cae33c14SJeff Roberson bucket->ub_cnt--; 581cae33c14SJeff Roberson item = bucket->ub_bucket[bucket->ub_cnt]; 5828355f576SJeff Roberson #ifdef INVARIANTS 583cae33c14SJeff Roberson bucket->ub_bucket[bucket->ub_cnt] = NULL; 5848355f576SJeff Roberson KASSERT(item != NULL, 5858355f576SJeff Roberson ("bucket_drain: botched ptr, item is NULL")); 5868355f576SJeff Roberson #endif 5878355f576SJeff Roberson /* 5888355f576SJeff Roberson * This is extremely inefficient. The slab pointer was passed 5898355f576SJeff Roberson * to uma_zfree_arg, but we lost it because the buckets don't 5908355f576SJeff Roberson * hold them. This will go away when free() gets a size passed 5918355f576SJeff Roberson * to it. 5928355f576SJeff Roberson */ 59399571dc3SJeff Roberson if (mzone) 59499571dc3SJeff Roberson slab = vtoslab((vm_offset_t)item & (~UMA_SLAB_MASK)); 5952019094aSRobert Watson uma_zfree_internal(zone, item, slab, SKIP_DTOR, 0); 5968355f576SJeff Roberson } 5978355f576SJeff Roberson } 5988355f576SJeff Roberson 5998355f576SJeff Roberson /* 6008355f576SJeff Roberson * Drains the per cpu caches for a zone. 6018355f576SJeff Roberson * 6025d1ae027SRobert Watson * NOTE: This may only be called while the zone is being turn down, and not 6035d1ae027SRobert Watson * during normal operation. This is necessary in order that we do not have 6045d1ae027SRobert Watson * to migrate CPUs to drain the per-CPU caches. 6055d1ae027SRobert Watson * 6068355f576SJeff Roberson * Arguments: 6078355f576SJeff Roberson * zone The zone to drain, must be unlocked. 6088355f576SJeff Roberson * 6098355f576SJeff Roberson * Returns: 6108355f576SJeff Roberson * Nothing 6118355f576SJeff Roberson */ 6128355f576SJeff Roberson static void 6139643769aSJeff Roberson cache_drain(uma_zone_t zone) 6148355f576SJeff Roberson { 6158355f576SJeff Roberson uma_cache_t cache; 6168355f576SJeff Roberson int cpu; 6178355f576SJeff Roberson 6188355f576SJeff Roberson /* 6195d1ae027SRobert Watson * XXX: It is safe to not lock the per-CPU caches, because we're 6205d1ae027SRobert Watson * tearing down the zone anyway. I.e., there will be no further use 6215d1ae027SRobert Watson * of the caches at this point. 6225d1ae027SRobert Watson * 6235d1ae027SRobert Watson * XXX: It would good to be able to assert that the zone is being 6245d1ae027SRobert Watson * torn down to prevent improper use of cache_drain(). 6255d1ae027SRobert Watson * 6265d1ae027SRobert Watson * XXX: We lock the zone before passing into bucket_cache_drain() as 6275d1ae027SRobert Watson * it is used elsewhere. Should the tear-down path be made special 6285d1ae027SRobert Watson * there in some form? 6298355f576SJeff Roberson */ 630b6c71225SJohn Baldwin for (cpu = 0; cpu <= mp_maxid; cpu++) { 6318355f576SJeff Roberson if (CPU_ABSENT(cpu)) 6328355f576SJeff Roberson continue; 6338355f576SJeff Roberson cache = &zone->uz_cpu[cpu]; 6348355f576SJeff Roberson bucket_drain(zone, cache->uc_allocbucket); 6358355f576SJeff Roberson bucket_drain(zone, cache->uc_freebucket); 636174ab450SBosko Milekic if (cache->uc_allocbucket != NULL) 637cae33c14SJeff Roberson bucket_free(cache->uc_allocbucket); 638174ab450SBosko Milekic if (cache->uc_freebucket != NULL) 639cae33c14SJeff Roberson bucket_free(cache->uc_freebucket); 640d56368d7SBosko Milekic cache->uc_allocbucket = cache->uc_freebucket = NULL; 641d56368d7SBosko Milekic } 642aaa8bb16SJeff Roberson ZONE_LOCK(zone); 643aaa8bb16SJeff Roberson bucket_cache_drain(zone); 644aaa8bb16SJeff Roberson ZONE_UNLOCK(zone); 645aaa8bb16SJeff Roberson } 646aaa8bb16SJeff Roberson 647aaa8bb16SJeff Roberson /* 648aaa8bb16SJeff Roberson * Drain the cached buckets from a zone. Expects a locked zone on entry. 649aaa8bb16SJeff Roberson */ 650aaa8bb16SJeff Roberson static void 651aaa8bb16SJeff Roberson bucket_cache_drain(uma_zone_t zone) 652aaa8bb16SJeff Roberson { 653aaa8bb16SJeff Roberson uma_bucket_t bucket; 6548355f576SJeff Roberson 6558355f576SJeff Roberson /* 6568355f576SJeff Roberson * Drain the bucket queues and free the buckets, we just keep two per 6578355f576SJeff Roberson * cpu (alloc/free). 6588355f576SJeff Roberson */ 6598355f576SJeff Roberson while ((bucket = LIST_FIRST(&zone->uz_full_bucket)) != NULL) { 6608355f576SJeff Roberson LIST_REMOVE(bucket, ub_link); 6618355f576SJeff Roberson ZONE_UNLOCK(zone); 6628355f576SJeff Roberson bucket_drain(zone, bucket); 663cae33c14SJeff Roberson bucket_free(bucket); 6648355f576SJeff Roberson ZONE_LOCK(zone); 6658355f576SJeff Roberson } 6668355f576SJeff Roberson 6678355f576SJeff Roberson /* Now we do the free queue.. */ 6688355f576SJeff Roberson while ((bucket = LIST_FIRST(&zone->uz_free_bucket)) != NULL) { 6698355f576SJeff Roberson LIST_REMOVE(bucket, ub_link); 670cae33c14SJeff Roberson bucket_free(bucket); 6718355f576SJeff Roberson } 6728355f576SJeff Roberson } 6738355f576SJeff Roberson 6748355f576SJeff Roberson /* 6758355f576SJeff Roberson * Frees pages from a zone back to the system. This is done on demand from 6768355f576SJeff Roberson * the pageout daemon. 6778355f576SJeff Roberson * 6788355f576SJeff Roberson * Arguments: 6798355f576SJeff Roberson * zone The zone to free pages from 6809c2cd7e5SJeff Roberson * all Should we drain all items? 6818355f576SJeff Roberson * 6828355f576SJeff Roberson * Returns: 6838355f576SJeff Roberson * Nothing. 6848355f576SJeff Roberson */ 6856c125b8dSMohan Srinivasan void 6869643769aSJeff Roberson zone_drain(uma_zone_t zone) 6878355f576SJeff Roberson { 6881e183df2SStefan Farfeleder struct slabhead freeslabs = { 0 }; 689099a0e58SBosko Milekic uma_keg_t keg; 6908355f576SJeff Roberson uma_slab_t slab; 6918355f576SJeff Roberson uma_slab_t n; 6928355f576SJeff Roberson u_int8_t flags; 6938355f576SJeff Roberson u_int8_t *mem; 6948355f576SJeff Roberson int i; 6958355f576SJeff Roberson 696099a0e58SBosko Milekic keg = zone->uz_keg; 697099a0e58SBosko Milekic 6988355f576SJeff Roberson /* 699099a0e58SBosko Milekic * We don't want to take pages from statically allocated zones at this 7008355f576SJeff Roberson * time 7018355f576SJeff Roberson */ 702099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_NOFREE || keg->uk_freef == NULL) 7038355f576SJeff Roberson return; 7048355f576SJeff Roberson 7058355f576SJeff Roberson ZONE_LOCK(zone); 7068355f576SJeff Roberson 7078355f576SJeff Roberson #ifdef UMA_DEBUG 708099a0e58SBosko Milekic printf("%s free items: %u\n", zone->uz_name, keg->uk_free); 7098355f576SJeff Roberson #endif 710aaa8bb16SJeff Roberson bucket_cache_drain(zone); 711099a0e58SBosko Milekic if (keg->uk_free == 0) 7128355f576SJeff Roberson goto finished; 7138355f576SJeff Roberson 714099a0e58SBosko Milekic slab = LIST_FIRST(&keg->uk_free_slab); 7159643769aSJeff Roberson while (slab) { 7168355f576SJeff Roberson n = LIST_NEXT(slab, us_link); 7178355f576SJeff Roberson 7188355f576SJeff Roberson /* We have no where to free these to */ 7198355f576SJeff Roberson if (slab->us_flags & UMA_SLAB_BOOT) { 7208355f576SJeff Roberson slab = n; 7218355f576SJeff Roberson continue; 7228355f576SJeff Roberson } 7238355f576SJeff Roberson 7248355f576SJeff Roberson LIST_REMOVE(slab, us_link); 725099a0e58SBosko Milekic keg->uk_pages -= keg->uk_ppera; 726099a0e58SBosko Milekic keg->uk_free -= keg->uk_ipers; 727713deb36SJeff Roberson 728099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_HASH) 729099a0e58SBosko Milekic UMA_HASH_REMOVE(&keg->uk_hash, slab, slab->us_data); 730713deb36SJeff Roberson 731713deb36SJeff Roberson SLIST_INSERT_HEAD(&freeslabs, slab, us_hlink); 732713deb36SJeff Roberson 733713deb36SJeff Roberson slab = n; 734713deb36SJeff Roberson } 735713deb36SJeff Roberson finished: 736713deb36SJeff Roberson ZONE_UNLOCK(zone); 737713deb36SJeff Roberson 738713deb36SJeff Roberson while ((slab = SLIST_FIRST(&freeslabs)) != NULL) { 739713deb36SJeff Roberson SLIST_REMOVE(&freeslabs, slab, uma_slab, us_hlink); 740099a0e58SBosko Milekic if (keg->uk_fini) 741099a0e58SBosko Milekic for (i = 0; i < keg->uk_ipers; i++) 742099a0e58SBosko Milekic keg->uk_fini( 743099a0e58SBosko Milekic slab->us_data + (keg->uk_rsize * i), 744099a0e58SBosko Milekic keg->uk_size); 7458355f576SJeff Roberson flags = slab->us_flags; 7468355f576SJeff Roberson mem = slab->us_data; 74799571dc3SJeff Roberson 748099a0e58SBosko Milekic if ((keg->uk_flags & UMA_ZONE_MALLOC) || 749099a0e58SBosko Milekic (keg->uk_flags & UMA_ZONE_REFCNT)) { 750b70458aeSAlan Cox vm_object_t obj; 751b70458aeSAlan Cox 752b70458aeSAlan Cox if (flags & UMA_SLAB_KMEM) 753b70458aeSAlan Cox obj = kmem_object; 754b70458aeSAlan Cox else 755b70458aeSAlan Cox obj = NULL; 756099a0e58SBosko Milekic for (i = 0; i < keg->uk_ppera; i++) 75799571dc3SJeff Roberson vsetobj((vm_offset_t)mem + (i * PAGE_SIZE), 758b70458aeSAlan Cox obj); 75948eea375SJeff Roberson } 760099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_OFFPAGE) 761b23f72e9SBrian Feldman uma_zfree_internal(keg->uk_slabzone, slab, NULL, 762f4ff923bSRobert Watson SKIP_NONE, ZFREE_STATFREE); 7638355f576SJeff Roberson #ifdef UMA_DEBUG 7648355f576SJeff Roberson printf("%s: Returning %d bytes.\n", 765099a0e58SBosko Milekic zone->uz_name, UMA_SLAB_SIZE * keg->uk_ppera); 7668355f576SJeff Roberson #endif 767099a0e58SBosko Milekic keg->uk_freef(mem, UMA_SLAB_SIZE * keg->uk_ppera, flags); 7688355f576SJeff Roberson } 7698355f576SJeff Roberson } 7708355f576SJeff Roberson 7718355f576SJeff Roberson /* 7728355f576SJeff Roberson * Allocate a new slab for a zone. This does not insert the slab onto a list. 7738355f576SJeff Roberson * 7748355f576SJeff Roberson * Arguments: 7758355f576SJeff Roberson * zone The zone to allocate slabs for 7768355f576SJeff Roberson * wait Shall we wait? 7778355f576SJeff Roberson * 7788355f576SJeff Roberson * Returns: 7798355f576SJeff Roberson * The slab that was allocated or NULL if there is no memory and the 7808355f576SJeff Roberson * caller specified M_NOWAIT. 7818355f576SJeff Roberson */ 7828355f576SJeff Roberson static uma_slab_t 7838355f576SJeff Roberson slab_zalloc(uma_zone_t zone, int wait) 7848355f576SJeff Roberson { 785099a0e58SBosko Milekic uma_slabrefcnt_t slabref; 786099a0e58SBosko Milekic uma_slab_t slab; 787099a0e58SBosko Milekic uma_keg_t keg; 7888355f576SJeff Roberson u_int8_t *mem; 7898355f576SJeff Roberson u_int8_t flags; 7908355f576SJeff Roberson int i; 7918355f576SJeff Roberson 792a553d4b8SJeff Roberson slab = NULL; 793099a0e58SBosko Milekic keg = zone->uz_keg; 794a553d4b8SJeff Roberson 7958355f576SJeff Roberson #ifdef UMA_DEBUG 7968355f576SJeff Roberson printf("slab_zalloc: Allocating a new slab for %s\n", zone->uz_name); 7978355f576SJeff Roberson #endif 7988355f576SJeff Roberson ZONE_UNLOCK(zone); 799a553d4b8SJeff Roberson 800099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_OFFPAGE) { 801099a0e58SBosko Milekic slab = uma_zalloc_internal(keg->uk_slabzone, NULL, wait); 802a553d4b8SJeff Roberson if (slab == NULL) { 803a553d4b8SJeff Roberson ZONE_LOCK(zone); 804a553d4b8SJeff Roberson return NULL; 805a553d4b8SJeff Roberson } 806a553d4b8SJeff Roberson } 807a553d4b8SJeff Roberson 8083370c5bfSJeff Roberson /* 8093370c5bfSJeff Roberson * This reproduces the old vm_zone behavior of zero filling pages the 8103370c5bfSJeff Roberson * first time they are added to a zone. 8113370c5bfSJeff Roberson * 8123370c5bfSJeff Roberson * Malloced items are zeroed in uma_zalloc. 8133370c5bfSJeff Roberson */ 8143370c5bfSJeff Roberson 815099a0e58SBosko Milekic if ((keg->uk_flags & UMA_ZONE_MALLOC) == 0) 8163370c5bfSJeff Roberson wait |= M_ZERO; 8173370c5bfSJeff Roberson else 8183370c5bfSJeff Roberson wait &= ~M_ZERO; 8193370c5bfSJeff Roberson 820099a0e58SBosko Milekic mem = keg->uk_allocf(zone, keg->uk_ppera * UMA_SLAB_SIZE, 821234c7726SAlan Cox &flags, wait); 822a553d4b8SJeff Roberson if (mem == NULL) { 823b23f72e9SBrian Feldman if (keg->uk_flags & UMA_ZONE_OFFPAGE) 8245d1ae027SRobert Watson uma_zfree_internal(keg->uk_slabzone, slab, NULL, 825f4ff923bSRobert Watson SKIP_NONE, ZFREE_STATFREE); 8268355f576SJeff Roberson ZONE_LOCK(zone); 8278355f576SJeff Roberson return (NULL); 828a553d4b8SJeff Roberson } 8298355f576SJeff Roberson 8305c0e403bSJeff Roberson /* Point the slab into the allocated memory */ 831099a0e58SBosko Milekic if (!(keg->uk_flags & UMA_ZONE_OFFPAGE)) 832099a0e58SBosko Milekic slab = (uma_slab_t )(mem + keg->uk_pgoff); 8335c0e403bSJeff Roberson 834099a0e58SBosko Milekic if ((keg->uk_flags & UMA_ZONE_MALLOC) || 835099a0e58SBosko Milekic (keg->uk_flags & UMA_ZONE_REFCNT)) 836099a0e58SBosko Milekic for (i = 0; i < keg->uk_ppera; i++) 83799571dc3SJeff Roberson vsetslab((vm_offset_t)mem + (i * PAGE_SIZE), slab); 8388355f576SJeff Roberson 839099a0e58SBosko Milekic slab->us_keg = keg; 8408355f576SJeff Roberson slab->us_data = mem; 841099a0e58SBosko Milekic slab->us_freecount = keg->uk_ipers; 8428355f576SJeff Roberson slab->us_firstfree = 0; 8438355f576SJeff Roberson slab->us_flags = flags; 8448355f576SJeff Roberson 845099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_REFCNT) { 846099a0e58SBosko Milekic slabref = (uma_slabrefcnt_t)slab; 847ab14a3f7SBrian Feldman for (i = 0; i < keg->uk_ipers; i++) { 848099a0e58SBosko Milekic slabref->us_freelist[i].us_refcnt = 0; 849ab14a3f7SBrian Feldman slabref->us_freelist[i].us_item = i+1; 850ab14a3f7SBrian Feldman } 851ab14a3f7SBrian Feldman } else { 852ab14a3f7SBrian Feldman for (i = 0; i < keg->uk_ipers; i++) 853ab14a3f7SBrian Feldman slab->us_freelist[i].us_item = i+1; 854099a0e58SBosko Milekic } 855099a0e58SBosko Milekic 856b23f72e9SBrian Feldman if (keg->uk_init != NULL) { 857099a0e58SBosko Milekic for (i = 0; i < keg->uk_ipers; i++) 858b23f72e9SBrian Feldman if (keg->uk_init(slab->us_data + (keg->uk_rsize * i), 859b23f72e9SBrian Feldman keg->uk_size, wait) != 0) 860b23f72e9SBrian Feldman break; 861b23f72e9SBrian Feldman if (i != keg->uk_ipers) { 862b23f72e9SBrian Feldman if (keg->uk_fini != NULL) { 863b23f72e9SBrian Feldman for (i--; i > -1; i--) 864b23f72e9SBrian Feldman keg->uk_fini(slab->us_data + 865b23f72e9SBrian Feldman (keg->uk_rsize * i), 866099a0e58SBosko Milekic keg->uk_size); 867b23f72e9SBrian Feldman } 868b23f72e9SBrian Feldman if ((keg->uk_flags & UMA_ZONE_MALLOC) || 869b70458aeSAlan Cox (keg->uk_flags & UMA_ZONE_REFCNT)) { 870b70458aeSAlan Cox vm_object_t obj; 871b70458aeSAlan Cox 872b70458aeSAlan Cox if (flags & UMA_SLAB_KMEM) 873b70458aeSAlan Cox obj = kmem_object; 874b70458aeSAlan Cox else 875b70458aeSAlan Cox obj = NULL; 876b23f72e9SBrian Feldman for (i = 0; i < keg->uk_ppera; i++) 877b23f72e9SBrian Feldman vsetobj((vm_offset_t)mem + 878b70458aeSAlan Cox (i * PAGE_SIZE), obj); 879b70458aeSAlan Cox } 880b23f72e9SBrian Feldman if (keg->uk_flags & UMA_ZONE_OFFPAGE) 881b23f72e9SBrian Feldman uma_zfree_internal(keg->uk_slabzone, slab, 882f4ff923bSRobert Watson NULL, SKIP_NONE, ZFREE_STATFREE); 883b23f72e9SBrian Feldman keg->uk_freef(mem, UMA_SLAB_SIZE * keg->uk_ppera, 884b23f72e9SBrian Feldman flags); 885b23f72e9SBrian Feldman ZONE_LOCK(zone); 886b23f72e9SBrian Feldman return (NULL); 887b23f72e9SBrian Feldman } 888b23f72e9SBrian Feldman } 8895c0e403bSJeff Roberson ZONE_LOCK(zone); 8905c0e403bSJeff Roberson 891099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_HASH) 892099a0e58SBosko Milekic UMA_HASH_INSERT(&keg->uk_hash, slab, mem); 8938355f576SJeff Roberson 894099a0e58SBosko Milekic keg->uk_pages += keg->uk_ppera; 895099a0e58SBosko Milekic keg->uk_free += keg->uk_ipers; 8968355f576SJeff Roberson 8978355f576SJeff Roberson return (slab); 8988355f576SJeff Roberson } 8998355f576SJeff Roberson 9008355f576SJeff Roberson /* 901009b6fcbSJeff Roberson * This function is intended to be used early on in place of page_alloc() so 902009b6fcbSJeff Roberson * that we may use the boot time page cache to satisfy allocations before 903009b6fcbSJeff Roberson * the VM is ready. 904009b6fcbSJeff Roberson */ 905009b6fcbSJeff Roberson static void * 906009b6fcbSJeff Roberson startup_alloc(uma_zone_t zone, int bytes, u_int8_t *pflag, int wait) 907009b6fcbSJeff Roberson { 908099a0e58SBosko Milekic uma_keg_t keg; 909f353d338SAlan Cox uma_slab_t tmps; 910099a0e58SBosko Milekic 911099a0e58SBosko Milekic keg = zone->uz_keg; 912099a0e58SBosko Milekic 913009b6fcbSJeff Roberson /* 914009b6fcbSJeff Roberson * Check our small startup cache to see if it has pages remaining. 915009b6fcbSJeff Roberson */ 916f353d338SAlan Cox mtx_lock(&uma_boot_pages_mtx); 917f353d338SAlan Cox if ((tmps = LIST_FIRST(&uma_boot_pages)) != NULL) { 918009b6fcbSJeff Roberson LIST_REMOVE(tmps, us_link); 919f353d338SAlan Cox mtx_unlock(&uma_boot_pages_mtx); 920009b6fcbSJeff Roberson *pflag = tmps->us_flags; 921009b6fcbSJeff Roberson return (tmps->us_data); 922009b6fcbSJeff Roberson } 923f353d338SAlan Cox mtx_unlock(&uma_boot_pages_mtx); 924009b6fcbSJeff Roberson if (booted == 0) 9253803b26bSDag-Erling Smørgrav panic("UMA: Increase vm.boot_pages"); 926009b6fcbSJeff Roberson /* 927009b6fcbSJeff Roberson * Now that we've booted reset these users to their real allocator. 928009b6fcbSJeff Roberson */ 929009b6fcbSJeff Roberson #ifdef UMA_MD_SMALL_ALLOC 930099a0e58SBosko Milekic keg->uk_allocf = uma_small_alloc; 931009b6fcbSJeff Roberson #else 932099a0e58SBosko Milekic keg->uk_allocf = page_alloc; 933009b6fcbSJeff Roberson #endif 934099a0e58SBosko Milekic return keg->uk_allocf(zone, bytes, pflag, wait); 935009b6fcbSJeff Roberson } 936009b6fcbSJeff Roberson 937009b6fcbSJeff Roberson /* 9388355f576SJeff Roberson * Allocates a number of pages from the system 9398355f576SJeff Roberson * 9408355f576SJeff Roberson * Arguments: 9418355f576SJeff Roberson * zone Unused 9428355f576SJeff Roberson * bytes The number of bytes requested 9438355f576SJeff Roberson * wait Shall we wait? 9448355f576SJeff Roberson * 9458355f576SJeff Roberson * Returns: 9468355f576SJeff Roberson * A pointer to the alloced memory or possibly 9478355f576SJeff Roberson * NULL if M_NOWAIT is set. 9488355f576SJeff Roberson */ 9498355f576SJeff Roberson static void * 9508355f576SJeff Roberson page_alloc(uma_zone_t zone, int bytes, u_int8_t *pflag, int wait) 9518355f576SJeff Roberson { 9528355f576SJeff Roberson void *p; /* Returned page */ 9538355f576SJeff Roberson 9548355f576SJeff Roberson *pflag = UMA_SLAB_KMEM; 9558355f576SJeff Roberson p = (void *) kmem_malloc(kmem_map, bytes, wait); 9568355f576SJeff Roberson 9578355f576SJeff Roberson return (p); 9588355f576SJeff Roberson } 9598355f576SJeff Roberson 9608355f576SJeff Roberson /* 9618355f576SJeff Roberson * Allocates a number of pages from within an object 9628355f576SJeff Roberson * 9638355f576SJeff Roberson * Arguments: 9648355f576SJeff Roberson * zone Unused 9658355f576SJeff Roberson * bytes The number of bytes requested 9668355f576SJeff Roberson * wait Shall we wait? 9678355f576SJeff Roberson * 9688355f576SJeff Roberson * Returns: 9698355f576SJeff Roberson * A pointer to the alloced memory or possibly 9708355f576SJeff Roberson * NULL if M_NOWAIT is set. 9718355f576SJeff Roberson */ 9728355f576SJeff Roberson static void * 9738355f576SJeff Roberson obj_alloc(uma_zone_t zone, int bytes, u_int8_t *flags, int wait) 9748355f576SJeff Roberson { 975b245ac95SAlan Cox vm_object_t object; 976b245ac95SAlan Cox vm_offset_t retkva, zkva; 9778355f576SJeff Roberson vm_page_t p; 978b245ac95SAlan Cox int pages, startpages; 9798355f576SJeff Roberson 980099a0e58SBosko Milekic object = zone->uz_keg->uk_obj; 98155f7c614SArchie Cobbs retkva = 0; 9828355f576SJeff Roberson 9838355f576SJeff Roberson /* 98464f051e9SJeff Roberson * This looks a little weird since we're getting one page at a time. 9858355f576SJeff Roberson */ 986b245ac95SAlan Cox VM_OBJECT_LOCK(object); 987b245ac95SAlan Cox p = TAILQ_LAST(&object->memq, pglist); 988b245ac95SAlan Cox pages = p != NULL ? p->pindex + 1 : 0; 989b245ac95SAlan Cox startpages = pages; 990099a0e58SBosko Milekic zkva = zone->uz_keg->uk_kva + pages * PAGE_SIZE; 991b245ac95SAlan Cox for (; bytes > 0; bytes -= PAGE_SIZE) { 992b245ac95SAlan Cox p = vm_page_alloc(object, pages, 993b245ac95SAlan Cox VM_ALLOC_INTERRUPT | VM_ALLOC_WIRED); 994b245ac95SAlan Cox if (p == NULL) { 995b245ac95SAlan Cox if (pages != startpages) 996b245ac95SAlan Cox pmap_qremove(retkva, pages - startpages); 997b245ac95SAlan Cox while (pages != startpages) { 998b245ac95SAlan Cox pages--; 999b245ac95SAlan Cox p = TAILQ_LAST(&object->memq, pglist); 1000b245ac95SAlan Cox vm_page_lock_queues(); 1001b245ac95SAlan Cox vm_page_unwire(p, 0); 1002b245ac95SAlan Cox vm_page_free(p); 1003b245ac95SAlan Cox vm_page_unlock_queues(); 1004b245ac95SAlan Cox } 1005b245ac95SAlan Cox retkva = 0; 1006b245ac95SAlan Cox goto done; 1007b245ac95SAlan Cox } 1008b245ac95SAlan Cox pmap_qenter(zkva, &p, 1); 100955f7c614SArchie Cobbs if (retkva == 0) 10108355f576SJeff Roberson retkva = zkva; 1011b245ac95SAlan Cox zkva += PAGE_SIZE; 10128355f576SJeff Roberson pages += 1; 10138355f576SJeff Roberson } 1014b245ac95SAlan Cox done: 1015b245ac95SAlan Cox VM_OBJECT_UNLOCK(object); 10168355f576SJeff Roberson *flags = UMA_SLAB_PRIV; 10178355f576SJeff Roberson 10188355f576SJeff Roberson return ((void *)retkva); 10198355f576SJeff Roberson } 10208355f576SJeff Roberson 10218355f576SJeff Roberson /* 10228355f576SJeff Roberson * Frees a number of pages to the system 10238355f576SJeff Roberson * 10248355f576SJeff Roberson * Arguments: 10258355f576SJeff Roberson * mem A pointer to the memory to be freed 10268355f576SJeff Roberson * size The size of the memory being freed 10278355f576SJeff Roberson * flags The original p->us_flags field 10288355f576SJeff Roberson * 10298355f576SJeff Roberson * Returns: 10308355f576SJeff Roberson * Nothing 10318355f576SJeff Roberson */ 10328355f576SJeff Roberson static void 10338355f576SJeff Roberson page_free(void *mem, int size, u_int8_t flags) 10348355f576SJeff Roberson { 10358355f576SJeff Roberson vm_map_t map; 10363370c5bfSJeff Roberson 10378355f576SJeff Roberson if (flags & UMA_SLAB_KMEM) 10388355f576SJeff Roberson map = kmem_map; 10398355f576SJeff Roberson else 10408355f576SJeff Roberson panic("UMA: page_free used with invalid flags %d\n", flags); 10418355f576SJeff Roberson 10428355f576SJeff Roberson kmem_free(map, (vm_offset_t)mem, size); 10438355f576SJeff Roberson } 10448355f576SJeff Roberson 10458355f576SJeff Roberson /* 10468355f576SJeff Roberson * Zero fill initializer 10478355f576SJeff Roberson * 10488355f576SJeff Roberson * Arguments/Returns follow uma_init specifications 10498355f576SJeff Roberson */ 1050b23f72e9SBrian Feldman static int 1051b23f72e9SBrian Feldman zero_init(void *mem, int size, int flags) 10528355f576SJeff Roberson { 10538355f576SJeff Roberson bzero(mem, size); 1054b23f72e9SBrian Feldman return (0); 10558355f576SJeff Roberson } 10568355f576SJeff Roberson 10578355f576SJeff Roberson /* 10588355f576SJeff Roberson * Finish creating a small uma zone. This calculates ipers, and the zone size. 10598355f576SJeff Roberson * 10608355f576SJeff Roberson * Arguments 10618355f576SJeff Roberson * zone The zone we should initialize 10628355f576SJeff Roberson * 10638355f576SJeff Roberson * Returns 10648355f576SJeff Roberson * Nothing 10658355f576SJeff Roberson */ 10668355f576SJeff Roberson static void 10678355f576SJeff Roberson zone_small_init(uma_zone_t zone) 10688355f576SJeff Roberson { 1069099a0e58SBosko Milekic uma_keg_t keg; 1070244f4554SBosko Milekic u_int rsize; 1071244f4554SBosko Milekic u_int memused; 1072244f4554SBosko Milekic u_int wastedspace; 1073244f4554SBosko Milekic u_int shsize; 10748355f576SJeff Roberson 1075099a0e58SBosko Milekic keg = zone->uz_keg; 1076099a0e58SBosko Milekic KASSERT(keg != NULL, ("Keg is null in zone_small_init")); 1077099a0e58SBosko Milekic rsize = keg->uk_size; 10788355f576SJeff Roberson 10798355f576SJeff Roberson if (rsize < UMA_SMALLEST_UNIT) 10808355f576SJeff Roberson rsize = UMA_SMALLEST_UNIT; 1081099a0e58SBosko Milekic if (rsize & keg->uk_align) 1082099a0e58SBosko Milekic rsize = (rsize & ~keg->uk_align) + (keg->uk_align + 1); 10838355f576SJeff Roberson 1084099a0e58SBosko Milekic keg->uk_rsize = rsize; 1085099a0e58SBosko Milekic keg->uk_ppera = 1; 10868355f576SJeff Roberson 1087244f4554SBosko Milekic if (keg->uk_flags & UMA_ZONE_REFCNT) { 1088244f4554SBosko Milekic rsize += UMA_FRITMREF_SZ; /* linkage & refcnt */ 1089244f4554SBosko Milekic shsize = sizeof(struct uma_slab_refcnt); 1090244f4554SBosko Milekic } else { 1091244f4554SBosko Milekic rsize += UMA_FRITM_SZ; /* Account for linkage */ 1092244f4554SBosko Milekic shsize = sizeof(struct uma_slab); 1093244f4554SBosko Milekic } 10948355f576SJeff Roberson 1095244f4554SBosko Milekic keg->uk_ipers = (UMA_SLAB_SIZE - shsize) / rsize; 1096244f4554SBosko Milekic KASSERT(keg->uk_ipers != 0, ("zone_small_init: ipers is 0")); 1097244f4554SBosko Milekic memused = keg->uk_ipers * rsize + shsize; 1098244f4554SBosko Milekic wastedspace = UMA_SLAB_SIZE - memused; 1099244f4554SBosko Milekic 110020e8e865SBosko Milekic /* 1101244f4554SBosko Milekic * We can't do OFFPAGE if we're internal or if we've been 110220e8e865SBosko Milekic * asked to not go to the VM for buckets. If we do this we 110320e8e865SBosko Milekic * may end up going to the VM (kmem_map) for slabs which we 110420e8e865SBosko Milekic * do not want to do if we're UMA_ZFLAG_CACHEONLY as a 110520e8e865SBosko Milekic * result of UMA_ZONE_VM, which clearly forbids it. 110620e8e865SBosko Milekic */ 1107099a0e58SBosko Milekic if ((keg->uk_flags & UMA_ZFLAG_INTERNAL) || 1108099a0e58SBosko Milekic (keg->uk_flags & UMA_ZFLAG_CACHEONLY)) 11098355f576SJeff Roberson return; 1110244f4554SBosko Milekic 1111244f4554SBosko Milekic if ((wastedspace >= UMA_MAX_WASTE) && 1112244f4554SBosko Milekic (keg->uk_ipers < (UMA_SLAB_SIZE / keg->uk_rsize))) { 1113244f4554SBosko Milekic keg->uk_ipers = UMA_SLAB_SIZE / keg->uk_rsize; 1114244f4554SBosko Milekic KASSERT(keg->uk_ipers <= 255, 1115244f4554SBosko Milekic ("zone_small_init: keg->uk_ipers too high!")); 1116244f4554SBosko Milekic #ifdef UMA_DEBUG 1117244f4554SBosko Milekic printf("UMA decided we need offpage slab headers for " 1118244f4554SBosko Milekic "zone: %s, calculated wastedspace = %d, " 1119244f4554SBosko Milekic "maximum wasted space allowed = %d, " 1120244f4554SBosko Milekic "calculated ipers = %d, " 1121244f4554SBosko Milekic "new wasted space = %d\n", zone->uz_name, wastedspace, 1122244f4554SBosko Milekic UMA_MAX_WASTE, keg->uk_ipers, 1123244f4554SBosko Milekic UMA_SLAB_SIZE - keg->uk_ipers * keg->uk_rsize); 1124244f4554SBosko Milekic #endif 1125099a0e58SBosko Milekic keg->uk_flags |= UMA_ZONE_OFFPAGE; 1126099a0e58SBosko Milekic if ((keg->uk_flags & UMA_ZONE_MALLOC) == 0) 1127099a0e58SBosko Milekic keg->uk_flags |= UMA_ZONE_HASH; 11288355f576SJeff Roberson } 11298355f576SJeff Roberson } 11308355f576SJeff Roberson 11318355f576SJeff Roberson /* 11328355f576SJeff Roberson * Finish creating a large (> UMA_SLAB_SIZE) uma zone. Just give in and do 11338355f576SJeff Roberson * OFFPAGE for now. When I can allow for more dynamic slab sizes this will be 11348355f576SJeff Roberson * more complicated. 11358355f576SJeff Roberson * 11368355f576SJeff Roberson * Arguments 11378355f576SJeff Roberson * zone The zone we should initialize 11388355f576SJeff Roberson * 11398355f576SJeff Roberson * Returns 11408355f576SJeff Roberson * Nothing 11418355f576SJeff Roberson */ 11428355f576SJeff Roberson static void 11438355f576SJeff Roberson zone_large_init(uma_zone_t zone) 11448355f576SJeff Roberson { 1145099a0e58SBosko Milekic uma_keg_t keg; 11468355f576SJeff Roberson int pages; 11478355f576SJeff Roberson 1148099a0e58SBosko Milekic keg = zone->uz_keg; 1149099a0e58SBosko Milekic 1150099a0e58SBosko Milekic KASSERT(keg != NULL, ("Keg is null in zone_large_init")); 1151099a0e58SBosko Milekic KASSERT((keg->uk_flags & UMA_ZFLAG_CACHEONLY) == 0, 115220e8e865SBosko Milekic ("zone_large_init: Cannot large-init a UMA_ZFLAG_CACHEONLY zone")); 115320e8e865SBosko Milekic 1154099a0e58SBosko Milekic pages = keg->uk_size / UMA_SLAB_SIZE; 11558355f576SJeff Roberson 11568355f576SJeff Roberson /* Account for remainder */ 1157099a0e58SBosko Milekic if ((pages * UMA_SLAB_SIZE) < keg->uk_size) 11588355f576SJeff Roberson pages++; 11598355f576SJeff Roberson 1160099a0e58SBosko Milekic keg->uk_ppera = pages; 1161099a0e58SBosko Milekic keg->uk_ipers = 1; 11628355f576SJeff Roberson 1163099a0e58SBosko Milekic keg->uk_flags |= UMA_ZONE_OFFPAGE; 1164099a0e58SBosko Milekic if ((keg->uk_flags & UMA_ZONE_MALLOC) == 0) 1165099a0e58SBosko Milekic keg->uk_flags |= UMA_ZONE_HASH; 116699571dc3SJeff Roberson 1167099a0e58SBosko Milekic keg->uk_rsize = keg->uk_size; 11688355f576SJeff Roberson } 11698355f576SJeff Roberson 11708355f576SJeff Roberson /* 1171099a0e58SBosko Milekic * Keg header ctor. This initializes all fields, locks, etc. And inserts 1172099a0e58SBosko Milekic * the keg onto the global keg list. 11738355f576SJeff Roberson * 11748355f576SJeff Roberson * Arguments/Returns follow uma_ctor specifications 1175099a0e58SBosko Milekic * udata Actually uma_kctor_args 1176099a0e58SBosko Milekic */ 1177b23f72e9SBrian Feldman static int 1178b23f72e9SBrian Feldman keg_ctor(void *mem, int size, void *udata, int flags) 1179099a0e58SBosko Milekic { 1180099a0e58SBosko Milekic struct uma_kctor_args *arg = udata; 1181099a0e58SBosko Milekic uma_keg_t keg = mem; 1182099a0e58SBosko Milekic uma_zone_t zone; 1183099a0e58SBosko Milekic 1184099a0e58SBosko Milekic bzero(keg, size); 1185099a0e58SBosko Milekic keg->uk_size = arg->size; 1186099a0e58SBosko Milekic keg->uk_init = arg->uminit; 1187099a0e58SBosko Milekic keg->uk_fini = arg->fini; 1188099a0e58SBosko Milekic keg->uk_align = arg->align; 1189099a0e58SBosko Milekic keg->uk_free = 0; 1190099a0e58SBosko Milekic keg->uk_pages = 0; 1191099a0e58SBosko Milekic keg->uk_flags = arg->flags; 1192099a0e58SBosko Milekic keg->uk_allocf = page_alloc; 1193099a0e58SBosko Milekic keg->uk_freef = page_free; 1194099a0e58SBosko Milekic keg->uk_recurse = 0; 1195099a0e58SBosko Milekic keg->uk_slabzone = NULL; 1196099a0e58SBosko Milekic 1197099a0e58SBosko Milekic /* 1198099a0e58SBosko Milekic * The master zone is passed to us at keg-creation time. 1199099a0e58SBosko Milekic */ 1200099a0e58SBosko Milekic zone = arg->zone; 1201099a0e58SBosko Milekic zone->uz_keg = keg; 1202099a0e58SBosko Milekic 1203099a0e58SBosko Milekic if (arg->flags & UMA_ZONE_VM) 1204099a0e58SBosko Milekic keg->uk_flags |= UMA_ZFLAG_CACHEONLY; 1205099a0e58SBosko Milekic 1206099a0e58SBosko Milekic if (arg->flags & UMA_ZONE_ZINIT) 1207099a0e58SBosko Milekic keg->uk_init = zero_init; 1208099a0e58SBosko Milekic 1209099a0e58SBosko Milekic /* 1210244f4554SBosko Milekic * The +UMA_FRITM_SZ added to uk_size is to account for the 1211099a0e58SBosko Milekic * linkage that is added to the size in zone_small_init(). If 1212099a0e58SBosko Milekic * we don't account for this here then we may end up in 1213099a0e58SBosko Milekic * zone_small_init() with a calculated 'ipers' of 0. 1214099a0e58SBosko Milekic */ 1215244f4554SBosko Milekic if (keg->uk_flags & UMA_ZONE_REFCNT) { 1216244f4554SBosko Milekic if ((keg->uk_size+UMA_FRITMREF_SZ) > 1217244f4554SBosko Milekic (UMA_SLAB_SIZE - sizeof(struct uma_slab_refcnt))) 1218099a0e58SBosko Milekic zone_large_init(zone); 1219099a0e58SBosko Milekic else 1220099a0e58SBosko Milekic zone_small_init(zone); 1221244f4554SBosko Milekic } else { 1222244f4554SBosko Milekic if ((keg->uk_size+UMA_FRITM_SZ) > 1223244f4554SBosko Milekic (UMA_SLAB_SIZE - sizeof(struct uma_slab))) 1224244f4554SBosko Milekic zone_large_init(zone); 1225244f4554SBosko Milekic else 1226244f4554SBosko Milekic zone_small_init(zone); 1227244f4554SBosko Milekic } 1228099a0e58SBosko Milekic 1229244f4554SBosko Milekic if (keg->uk_flags & UMA_ZONE_OFFPAGE) { 1230099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_REFCNT) 1231099a0e58SBosko Milekic keg->uk_slabzone = slabrefzone; 1232244f4554SBosko Milekic else 1233099a0e58SBosko Milekic keg->uk_slabzone = slabzone; 1234244f4554SBosko Milekic } 1235099a0e58SBosko Milekic 1236099a0e58SBosko Milekic /* 1237099a0e58SBosko Milekic * If we haven't booted yet we need allocations to go through the 1238099a0e58SBosko Milekic * startup cache until the vm is ready. 1239099a0e58SBosko Milekic */ 1240099a0e58SBosko Milekic if (keg->uk_ppera == 1) { 1241099a0e58SBosko Milekic #ifdef UMA_MD_SMALL_ALLOC 1242099a0e58SBosko Milekic keg->uk_allocf = uma_small_alloc; 1243099a0e58SBosko Milekic keg->uk_freef = uma_small_free; 1244099a0e58SBosko Milekic #endif 1245099a0e58SBosko Milekic if (booted == 0) 1246099a0e58SBosko Milekic keg->uk_allocf = startup_alloc; 1247099a0e58SBosko Milekic } 1248099a0e58SBosko Milekic 1249099a0e58SBosko Milekic /* 1250099a0e58SBosko Milekic * Initialize keg's lock (shared among zones) through 1251099a0e58SBosko Milekic * Master zone 1252099a0e58SBosko Milekic */ 1253099a0e58SBosko Milekic zone->uz_lock = &keg->uk_lock; 1254099a0e58SBosko Milekic if (arg->flags & UMA_ZONE_MTXCLASS) 1255099a0e58SBosko Milekic ZONE_LOCK_INIT(zone, 1); 1256099a0e58SBosko Milekic else 1257099a0e58SBosko Milekic ZONE_LOCK_INIT(zone, 0); 1258099a0e58SBosko Milekic 1259099a0e58SBosko Milekic /* 1260099a0e58SBosko Milekic * If we're putting the slab header in the actual page we need to 1261099a0e58SBosko Milekic * figure out where in each page it goes. This calculates a right 1262099a0e58SBosko Milekic * justified offset into the memory on an ALIGN_PTR boundary. 1263099a0e58SBosko Milekic */ 1264099a0e58SBosko Milekic if (!(keg->uk_flags & UMA_ZONE_OFFPAGE)) { 1265244f4554SBosko Milekic u_int totsize; 1266099a0e58SBosko Milekic 1267099a0e58SBosko Milekic /* Size of the slab struct and free list */ 1268244f4554SBosko Milekic if (keg->uk_flags & UMA_ZONE_REFCNT) 1269244f4554SBosko Milekic totsize = sizeof(struct uma_slab_refcnt) + 1270244f4554SBosko Milekic keg->uk_ipers * UMA_FRITMREF_SZ; 1271244f4554SBosko Milekic else 1272244f4554SBosko Milekic totsize = sizeof(struct uma_slab) + 1273244f4554SBosko Milekic keg->uk_ipers * UMA_FRITM_SZ; 1274244f4554SBosko Milekic 1275099a0e58SBosko Milekic if (totsize & UMA_ALIGN_PTR) 1276099a0e58SBosko Milekic totsize = (totsize & ~UMA_ALIGN_PTR) + 1277099a0e58SBosko Milekic (UMA_ALIGN_PTR + 1); 1278099a0e58SBosko Milekic keg->uk_pgoff = UMA_SLAB_SIZE - totsize; 1279244f4554SBosko Milekic 1280244f4554SBosko Milekic if (keg->uk_flags & UMA_ZONE_REFCNT) 1281244f4554SBosko Milekic totsize = keg->uk_pgoff + sizeof(struct uma_slab_refcnt) 1282244f4554SBosko Milekic + keg->uk_ipers * UMA_FRITMREF_SZ; 1283244f4554SBosko Milekic else 1284099a0e58SBosko Milekic totsize = keg->uk_pgoff + sizeof(struct uma_slab) 1285244f4554SBosko Milekic + keg->uk_ipers * UMA_FRITM_SZ; 1286244f4554SBosko Milekic 1287244f4554SBosko Milekic /* 1288244f4554SBosko Milekic * The only way the following is possible is if with our 1289244f4554SBosko Milekic * UMA_ALIGN_PTR adjustments we are now bigger than 1290244f4554SBosko Milekic * UMA_SLAB_SIZE. I haven't checked whether this is 1291244f4554SBosko Milekic * mathematically possible for all cases, so we make 1292244f4554SBosko Milekic * sure here anyway. 1293244f4554SBosko Milekic */ 1294099a0e58SBosko Milekic if (totsize > UMA_SLAB_SIZE) { 1295099a0e58SBosko Milekic printf("zone %s ipers %d rsize %d size %d\n", 1296099a0e58SBosko Milekic zone->uz_name, keg->uk_ipers, keg->uk_rsize, 1297099a0e58SBosko Milekic keg->uk_size); 1298099a0e58SBosko Milekic panic("UMA slab won't fit.\n"); 1299099a0e58SBosko Milekic } 1300099a0e58SBosko Milekic } 1301099a0e58SBosko Milekic 1302099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_HASH) 1303099a0e58SBosko Milekic hash_alloc(&keg->uk_hash); 1304099a0e58SBosko Milekic 1305099a0e58SBosko Milekic #ifdef UMA_DEBUG 1306099a0e58SBosko Milekic printf("%s(%p) size = %d ipers = %d ppera = %d pgoff = %d\n", 1307099a0e58SBosko Milekic zone->uz_name, zone, 1308099a0e58SBosko Milekic keg->uk_size, keg->uk_ipers, 1309099a0e58SBosko Milekic keg->uk_ppera, keg->uk_pgoff); 1310099a0e58SBosko Milekic #endif 1311099a0e58SBosko Milekic 1312099a0e58SBosko Milekic LIST_INSERT_HEAD(&keg->uk_zones, zone, uz_link); 1313099a0e58SBosko Milekic 1314099a0e58SBosko Milekic mtx_lock(&uma_mtx); 1315099a0e58SBosko Milekic LIST_INSERT_HEAD(&uma_kegs, keg, uk_link); 1316099a0e58SBosko Milekic mtx_unlock(&uma_mtx); 1317b23f72e9SBrian Feldman return (0); 1318099a0e58SBosko Milekic } 1319099a0e58SBosko Milekic 1320099a0e58SBosko Milekic /* 1321099a0e58SBosko Milekic * Zone header ctor. This initializes all fields, locks, etc. 1322099a0e58SBosko Milekic * 1323099a0e58SBosko Milekic * Arguments/Returns follow uma_ctor specifications 1324099a0e58SBosko Milekic * udata Actually uma_zctor_args 13258355f576SJeff Roberson */ 13268355f576SJeff Roberson 1327b23f72e9SBrian Feldman static int 1328b23f72e9SBrian Feldman zone_ctor(void *mem, int size, void *udata, int flags) 13298355f576SJeff Roberson { 13308355f576SJeff Roberson struct uma_zctor_args *arg = udata; 13318355f576SJeff Roberson uma_zone_t zone = mem; 1332099a0e58SBosko Milekic uma_zone_t z; 1333099a0e58SBosko Milekic uma_keg_t keg; 13348355f576SJeff Roberson 13358355f576SJeff Roberson bzero(zone, size); 13368355f576SJeff Roberson zone->uz_name = arg->name; 13378355f576SJeff Roberson zone->uz_ctor = arg->ctor; 13388355f576SJeff Roberson zone->uz_dtor = arg->dtor; 1339099a0e58SBosko Milekic zone->uz_init = NULL; 1340099a0e58SBosko Milekic zone->uz_fini = NULL; 1341099a0e58SBosko Milekic zone->uz_allocs = 0; 1342773df9abSRobert Watson zone->uz_frees = 0; 13432019094aSRobert Watson zone->uz_fails = 0; 1344099a0e58SBosko Milekic zone->uz_fills = zone->uz_count = 0; 1345099a0e58SBosko Milekic 1346099a0e58SBosko Milekic if (arg->flags & UMA_ZONE_SECONDARY) { 1347099a0e58SBosko Milekic KASSERT(arg->keg != NULL, ("Secondary zone on zero'd keg")); 1348099a0e58SBosko Milekic keg = arg->keg; 1349099a0e58SBosko Milekic zone->uz_keg = keg; 13508355f576SJeff Roberson zone->uz_init = arg->uminit; 1351e221e841SJeff Roberson zone->uz_fini = arg->fini; 1352099a0e58SBosko Milekic zone->uz_lock = &keg->uk_lock; 13538355f576SJeff Roberson mtx_lock(&uma_mtx); 1354099a0e58SBosko Milekic ZONE_LOCK(zone); 1355099a0e58SBosko Milekic keg->uk_flags |= UMA_ZONE_SECONDARY; 1356099a0e58SBosko Milekic LIST_FOREACH(z, &keg->uk_zones, uz_link) { 1357099a0e58SBosko Milekic if (LIST_NEXT(z, uz_link) == NULL) { 1358099a0e58SBosko Milekic LIST_INSERT_AFTER(z, zone, uz_link); 1359099a0e58SBosko Milekic break; 1360099a0e58SBosko Milekic } 1361099a0e58SBosko Milekic } 1362099a0e58SBosko Milekic ZONE_UNLOCK(zone); 13638355f576SJeff Roberson mtx_unlock(&uma_mtx); 1364099a0e58SBosko Milekic } else if (arg->keg == NULL) { 1365b23f72e9SBrian Feldman if (uma_kcreate(zone, arg->size, arg->uminit, arg->fini, 1366b23f72e9SBrian Feldman arg->align, arg->flags) == NULL) 1367b23f72e9SBrian Feldman return (ENOMEM); 1368099a0e58SBosko Milekic } else { 1369099a0e58SBosko Milekic struct uma_kctor_args karg; 1370b23f72e9SBrian Feldman int error; 1371099a0e58SBosko Milekic 1372099a0e58SBosko Milekic /* We should only be here from uma_startup() */ 1373099a0e58SBosko Milekic karg.size = arg->size; 1374099a0e58SBosko Milekic karg.uminit = arg->uminit; 1375099a0e58SBosko Milekic karg.fini = arg->fini; 1376099a0e58SBosko Milekic karg.align = arg->align; 1377099a0e58SBosko Milekic karg.flags = arg->flags; 1378099a0e58SBosko Milekic karg.zone = zone; 1379b23f72e9SBrian Feldman error = keg_ctor(arg->keg, sizeof(struct uma_keg), &karg, 1380b23f72e9SBrian Feldman flags); 1381b23f72e9SBrian Feldman if (error) 1382b23f72e9SBrian Feldman return (error); 1383099a0e58SBosko Milekic } 1384099a0e58SBosko Milekic keg = zone->uz_keg; 1385099a0e58SBosko Milekic zone->uz_lock = &keg->uk_lock; 13868355f576SJeff Roberson 13878355f576SJeff Roberson /* 13888355f576SJeff Roberson * Some internal zones don't have room allocated for the per cpu 13898355f576SJeff Roberson * caches. If we're internal, bail out here. 13908355f576SJeff Roberson */ 1391099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZFLAG_INTERNAL) { 1392099a0e58SBosko Milekic KASSERT((keg->uk_flags & UMA_ZONE_SECONDARY) == 0, 1393099a0e58SBosko Milekic ("Secondary zone requested UMA_ZFLAG_INTERNAL")); 1394b23f72e9SBrian Feldman return (0); 1395099a0e58SBosko Milekic } 13968355f576SJeff Roberson 1397099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_MAXBUCKET) 1398099a0e58SBosko Milekic zone->uz_count = BUCKET_MAX; 1399099a0e58SBosko Milekic else if (keg->uk_ipers <= BUCKET_MAX) 1400099a0e58SBosko Milekic zone->uz_count = keg->uk_ipers; 14018355f576SJeff Roberson else 1402cae33c14SJeff Roberson zone->uz_count = BUCKET_MAX; 1403b23f72e9SBrian Feldman return (0); 14048355f576SJeff Roberson } 14058355f576SJeff Roberson 14068355f576SJeff Roberson /* 1407099a0e58SBosko Milekic * Keg header dtor. This frees all data, destroys locks, frees the hash 1408099a0e58SBosko Milekic * table and removes the keg from the global list. 14099c2cd7e5SJeff Roberson * 14109c2cd7e5SJeff Roberson * Arguments/Returns follow uma_dtor specifications 14119c2cd7e5SJeff Roberson * udata unused 14129c2cd7e5SJeff Roberson */ 1413099a0e58SBosko Milekic static void 1414099a0e58SBosko Milekic keg_dtor(void *arg, int size, void *udata) 1415099a0e58SBosko Milekic { 1416099a0e58SBosko Milekic uma_keg_t keg; 14179c2cd7e5SJeff Roberson 1418099a0e58SBosko Milekic keg = (uma_keg_t)arg; 1419099a0e58SBosko Milekic mtx_lock(&keg->uk_lock); 1420099a0e58SBosko Milekic if (keg->uk_free != 0) { 1421099a0e58SBosko Milekic printf("Freed UMA keg was not empty (%d items). " 1422099a0e58SBosko Milekic " Lost %d pages of memory.\n", 1423099a0e58SBosko Milekic keg->uk_free, keg->uk_pages); 1424099a0e58SBosko Milekic } 1425099a0e58SBosko Milekic mtx_unlock(&keg->uk_lock); 1426099a0e58SBosko Milekic 1427099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_HASH) 1428099a0e58SBosko Milekic hash_free(&keg->uk_hash); 1429099a0e58SBosko Milekic 1430099a0e58SBosko Milekic mtx_destroy(&keg->uk_lock); 1431099a0e58SBosko Milekic } 1432099a0e58SBosko Milekic 1433099a0e58SBosko Milekic /* 1434099a0e58SBosko Milekic * Zone header dtor. 1435099a0e58SBosko Milekic * 1436099a0e58SBosko Milekic * Arguments/Returns follow uma_dtor specifications 1437099a0e58SBosko Milekic * udata unused 1438099a0e58SBosko Milekic */ 14399c2cd7e5SJeff Roberson static void 14409c2cd7e5SJeff Roberson zone_dtor(void *arg, int size, void *udata) 14419c2cd7e5SJeff Roberson { 14429c2cd7e5SJeff Roberson uma_zone_t zone; 1443099a0e58SBosko Milekic uma_keg_t keg; 14449c2cd7e5SJeff Roberson 14459c2cd7e5SJeff Roberson zone = (uma_zone_t)arg; 1446099a0e58SBosko Milekic keg = zone->uz_keg; 14479643769aSJeff Roberson 1448099a0e58SBosko Milekic if (!(keg->uk_flags & UMA_ZFLAG_INTERNAL)) 14499643769aSJeff Roberson cache_drain(zone); 1450099a0e58SBosko Milekic 145117b9cc49SJeff Roberson mtx_lock(&uma_mtx); 14529643769aSJeff Roberson zone_drain(zone); 1453099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_SECONDARY) { 1454099a0e58SBosko Milekic LIST_REMOVE(zone, uz_link); 1455099a0e58SBosko Milekic /* 1456099a0e58SBosko Milekic * XXX there are some races here where 1457099a0e58SBosko Milekic * the zone can be drained but zone lock 1458099a0e58SBosko Milekic * released and then refilled before we 1459099a0e58SBosko Milekic * remove it... we dont care for now 1460099a0e58SBosko Milekic */ 14619c2cd7e5SJeff Roberson ZONE_LOCK(zone); 1462099a0e58SBosko Milekic if (LIST_EMPTY(&keg->uk_zones)) 1463099a0e58SBosko Milekic keg->uk_flags &= ~UMA_ZONE_SECONDARY; 14649c2cd7e5SJeff Roberson ZONE_UNLOCK(zone); 1465099a0e58SBosko Milekic mtx_unlock(&uma_mtx); 1466099a0e58SBosko Milekic } else { 1467099a0e58SBosko Milekic LIST_REMOVE(keg, uk_link); 1468099a0e58SBosko Milekic LIST_REMOVE(zone, uz_link); 1469099a0e58SBosko Milekic mtx_unlock(&uma_mtx); 1470f4ff923bSRobert Watson uma_zfree_internal(kegs, keg, NULL, SKIP_NONE, 1471f4ff923bSRobert Watson ZFREE_STATFREE); 14729c2cd7e5SJeff Roberson } 1473099a0e58SBosko Milekic zone->uz_keg = NULL; 1474099a0e58SBosko Milekic } 1475099a0e58SBosko Milekic 14769c2cd7e5SJeff Roberson /* 14778355f576SJeff Roberson * Traverses every zone in the system and calls a callback 14788355f576SJeff Roberson * 14798355f576SJeff Roberson * Arguments: 14808355f576SJeff Roberson * zfunc A pointer to a function which accepts a zone 14818355f576SJeff Roberson * as an argument. 14828355f576SJeff Roberson * 14838355f576SJeff Roberson * Returns: 14848355f576SJeff Roberson * Nothing 14858355f576SJeff Roberson */ 14868355f576SJeff Roberson static void 14878355f576SJeff Roberson zone_foreach(void (*zfunc)(uma_zone_t)) 14888355f576SJeff Roberson { 1489099a0e58SBosko Milekic uma_keg_t keg; 14908355f576SJeff Roberson uma_zone_t zone; 14918355f576SJeff Roberson 14928355f576SJeff Roberson mtx_lock(&uma_mtx); 1493099a0e58SBosko Milekic LIST_FOREACH(keg, &uma_kegs, uk_link) { 1494099a0e58SBosko Milekic LIST_FOREACH(zone, &keg->uk_zones, uz_link) 14958355f576SJeff Roberson zfunc(zone); 1496099a0e58SBosko Milekic } 14978355f576SJeff Roberson mtx_unlock(&uma_mtx); 14988355f576SJeff Roberson } 14998355f576SJeff Roberson 15008355f576SJeff Roberson /* Public functions */ 15018355f576SJeff Roberson /* See uma.h */ 15028355f576SJeff Roberson void 15033803b26bSDag-Erling Smørgrav uma_startup(void *bootmem, int boot_pages) 15048355f576SJeff Roberson { 15058355f576SJeff Roberson struct uma_zctor_args args; 15068355f576SJeff Roberson uma_slab_t slab; 1507244f4554SBosko Milekic u_int slabsize; 1508244f4554SBosko Milekic u_int objsize, totsize, wsize; 15098355f576SJeff Roberson int i; 15108355f576SJeff Roberson 15118355f576SJeff Roberson #ifdef UMA_DEBUG 1512099a0e58SBosko Milekic printf("Creating uma keg headers zone and keg.\n"); 15138355f576SJeff Roberson #endif 1514f353d338SAlan Cox mtx_init(&uma_mtx, "UMA lock", NULL, MTX_DEF); 1515099a0e58SBosko Milekic 1516244f4554SBosko Milekic /* 1517244f4554SBosko Milekic * Figure out the maximum number of items-per-slab we'll have if 1518244f4554SBosko Milekic * we're using the OFFPAGE slab header to track free items, given 1519244f4554SBosko Milekic * all possible object sizes and the maximum desired wastage 1520244f4554SBosko Milekic * (UMA_MAX_WASTE). 1521244f4554SBosko Milekic * 1522244f4554SBosko Milekic * We iterate until we find an object size for 1523244f4554SBosko Milekic * which the calculated wastage in zone_small_init() will be 1524244f4554SBosko Milekic * enough to warrant OFFPAGE. Since wastedspace versus objsize 1525244f4554SBosko Milekic * is an overall increasing see-saw function, we find the smallest 1526244f4554SBosko Milekic * objsize such that the wastage is always acceptable for objects 1527244f4554SBosko Milekic * with that objsize or smaller. Since a smaller objsize always 1528244f4554SBosko Milekic * generates a larger possible uma_max_ipers, we use this computed 1529244f4554SBosko Milekic * objsize to calculate the largest ipers possible. Since the 1530244f4554SBosko Milekic * ipers calculated for OFFPAGE slab headers is always larger than 1531244f4554SBosko Milekic * the ipers initially calculated in zone_small_init(), we use 1532244f4554SBosko Milekic * the former's equation (UMA_SLAB_SIZE / keg->uk_rsize) to 1533244f4554SBosko Milekic * obtain the maximum ipers possible for offpage slab headers. 1534244f4554SBosko Milekic * 1535244f4554SBosko Milekic * It should be noted that ipers versus objsize is an inversly 1536244f4554SBosko Milekic * proportional function which drops off rather quickly so as 1537244f4554SBosko Milekic * long as our UMA_MAX_WASTE is such that the objsize we calculate 1538244f4554SBosko Milekic * falls into the portion of the inverse relation AFTER the steep 1539244f4554SBosko Milekic * falloff, then uma_max_ipers shouldn't be too high (~10 on i386). 1540244f4554SBosko Milekic * 1541244f4554SBosko Milekic * Note that we have 8-bits (1 byte) to use as a freelist index 1542244f4554SBosko Milekic * inside the actual slab header itself and this is enough to 1543244f4554SBosko Milekic * accomodate us. In the worst case, a UMA_SMALLEST_UNIT sized 1544244f4554SBosko Milekic * object with offpage slab header would have ipers = 1545244f4554SBosko Milekic * UMA_SLAB_SIZE / UMA_SMALLEST_UNIT (currently = 256), which is 1546244f4554SBosko Milekic * 1 greater than what our byte-integer freelist index can 1547244f4554SBosko Milekic * accomodate, but we know that this situation never occurs as 1548244f4554SBosko Milekic * for UMA_SMALLEST_UNIT-sized objects, we will never calculate 1549244f4554SBosko Milekic * that we need to go to offpage slab headers. Or, if we do, 1550244f4554SBosko Milekic * then we trap that condition below and panic in the INVARIANTS case. 1551244f4554SBosko Milekic */ 1552244f4554SBosko Milekic wsize = UMA_SLAB_SIZE - sizeof(struct uma_slab) - UMA_MAX_WASTE; 1553244f4554SBosko Milekic totsize = wsize; 1554244f4554SBosko Milekic objsize = UMA_SMALLEST_UNIT; 1555244f4554SBosko Milekic while (totsize >= wsize) { 1556244f4554SBosko Milekic totsize = (UMA_SLAB_SIZE - sizeof(struct uma_slab)) / 1557244f4554SBosko Milekic (objsize + UMA_FRITM_SZ); 1558244f4554SBosko Milekic totsize *= (UMA_FRITM_SZ + objsize); 1559244f4554SBosko Milekic objsize++; 1560244f4554SBosko Milekic } 1561244f4554SBosko Milekic if (objsize > UMA_SMALLEST_UNIT) 1562244f4554SBosko Milekic objsize--; 1563244f4554SBosko Milekic uma_max_ipers = UMA_SLAB_SIZE / objsize; 1564244f4554SBosko Milekic 1565244f4554SBosko Milekic wsize = UMA_SLAB_SIZE - sizeof(struct uma_slab_refcnt) - UMA_MAX_WASTE; 1566244f4554SBosko Milekic totsize = wsize; 1567244f4554SBosko Milekic objsize = UMA_SMALLEST_UNIT; 1568244f4554SBosko Milekic while (totsize >= wsize) { 1569244f4554SBosko Milekic totsize = (UMA_SLAB_SIZE - sizeof(struct uma_slab_refcnt)) / 1570244f4554SBosko Milekic (objsize + UMA_FRITMREF_SZ); 1571244f4554SBosko Milekic totsize *= (UMA_FRITMREF_SZ + objsize); 1572244f4554SBosko Milekic objsize++; 1573244f4554SBosko Milekic } 1574244f4554SBosko Milekic if (objsize > UMA_SMALLEST_UNIT) 1575244f4554SBosko Milekic objsize--; 1576244f4554SBosko Milekic uma_max_ipers_ref = UMA_SLAB_SIZE / objsize; 1577244f4554SBosko Milekic 1578244f4554SBosko Milekic KASSERT((uma_max_ipers_ref <= 255) && (uma_max_ipers <= 255), 1579244f4554SBosko Milekic ("uma_startup: calculated uma_max_ipers values too large!")); 1580244f4554SBosko Milekic 1581244f4554SBosko Milekic #ifdef UMA_DEBUG 1582244f4554SBosko Milekic printf("Calculated uma_max_ipers (for OFFPAGE) is %d\n", uma_max_ipers); 1583244f4554SBosko Milekic printf("Calculated uma_max_ipers_slab (for OFFPAGE) is %d\n", 1584244f4554SBosko Milekic uma_max_ipers_ref); 1585244f4554SBosko Milekic #endif 1586244f4554SBosko Milekic 1587099a0e58SBosko Milekic /* "manually" create the initial zone */ 1588099a0e58SBosko Milekic args.name = "UMA Kegs"; 1589099a0e58SBosko Milekic args.size = sizeof(struct uma_keg); 1590099a0e58SBosko Milekic args.ctor = keg_ctor; 1591099a0e58SBosko Milekic args.dtor = keg_dtor; 15928355f576SJeff Roberson args.uminit = zero_init; 15938355f576SJeff Roberson args.fini = NULL; 1594099a0e58SBosko Milekic args.keg = &masterkeg; 15958355f576SJeff Roberson args.align = 32 - 1; 1596b60f5b79SJeff Roberson args.flags = UMA_ZFLAG_INTERNAL; 15978355f576SJeff Roberson /* The initial zone has no Per cpu queues so it's smaller */ 1598b23f72e9SBrian Feldman zone_ctor(kegs, sizeof(struct uma_zone), &args, M_WAITOK); 15998355f576SJeff Roberson 16008355f576SJeff Roberson #ifdef UMA_DEBUG 16018355f576SJeff Roberson printf("Filling boot free list.\n"); 16028355f576SJeff Roberson #endif 16033803b26bSDag-Erling Smørgrav for (i = 0; i < boot_pages; i++) { 16048355f576SJeff Roberson slab = (uma_slab_t)((u_int8_t *)bootmem + (i * UMA_SLAB_SIZE)); 16058355f576SJeff Roberson slab->us_data = (u_int8_t *)slab; 16068355f576SJeff Roberson slab->us_flags = UMA_SLAB_BOOT; 16078355f576SJeff Roberson LIST_INSERT_HEAD(&uma_boot_pages, slab, us_link); 16088355f576SJeff Roberson } 1609f353d338SAlan Cox mtx_init(&uma_boot_pages_mtx, "UMA boot pages", NULL, MTX_DEF); 16108355f576SJeff Roberson 16118355f576SJeff Roberson #ifdef UMA_DEBUG 1612099a0e58SBosko Milekic printf("Creating uma zone headers zone and keg.\n"); 1613099a0e58SBosko Milekic #endif 1614099a0e58SBosko Milekic args.name = "UMA Zones"; 1615099a0e58SBosko Milekic args.size = sizeof(struct uma_zone) + 1616099a0e58SBosko Milekic (sizeof(struct uma_cache) * (mp_maxid + 1)); 1617099a0e58SBosko Milekic args.ctor = zone_ctor; 1618099a0e58SBosko Milekic args.dtor = zone_dtor; 1619099a0e58SBosko Milekic args.uminit = zero_init; 1620099a0e58SBosko Milekic args.fini = NULL; 1621099a0e58SBosko Milekic args.keg = NULL; 1622099a0e58SBosko Milekic args.align = 32 - 1; 1623099a0e58SBosko Milekic args.flags = UMA_ZFLAG_INTERNAL; 1624099a0e58SBosko Milekic /* The initial zone has no Per cpu queues so it's smaller */ 1625b23f72e9SBrian Feldman zone_ctor(zones, sizeof(struct uma_zone), &args, M_WAITOK); 1626099a0e58SBosko Milekic 1627099a0e58SBosko Milekic #ifdef UMA_DEBUG 1628099a0e58SBosko Milekic printf("Initializing pcpu cache locks.\n"); 1629099a0e58SBosko Milekic #endif 1630099a0e58SBosko Milekic #ifdef UMA_DEBUG 1631099a0e58SBosko Milekic printf("Creating slab and hash zones.\n"); 16328355f576SJeff Roberson #endif 16338355f576SJeff Roberson 16348355f576SJeff Roberson /* 16358355f576SJeff Roberson * This is the max number of free list items we'll have with 16368355f576SJeff Roberson * offpage slabs. 16378355f576SJeff Roberson */ 1638244f4554SBosko Milekic slabsize = uma_max_ipers * UMA_FRITM_SZ; 16398355f576SJeff Roberson slabsize += sizeof(struct uma_slab); 16408355f576SJeff Roberson 16418355f576SJeff Roberson /* Now make a zone for slab headers */ 16428355f576SJeff Roberson slabzone = uma_zcreate("UMA Slabs", 16438355f576SJeff Roberson slabsize, 16448355f576SJeff Roberson NULL, NULL, NULL, NULL, 1645b60f5b79SJeff Roberson UMA_ALIGN_PTR, UMA_ZFLAG_INTERNAL); 16468355f576SJeff Roberson 1647099a0e58SBosko Milekic /* 1648099a0e58SBosko Milekic * We also create a zone for the bigger slabs with reference 1649099a0e58SBosko Milekic * counts in them, to accomodate UMA_ZONE_REFCNT zones. 1650099a0e58SBosko Milekic */ 1651244f4554SBosko Milekic slabsize = uma_max_ipers_ref * UMA_FRITMREF_SZ; 1652099a0e58SBosko Milekic slabsize += sizeof(struct uma_slab_refcnt); 1653099a0e58SBosko Milekic slabrefzone = uma_zcreate("UMA RCntSlabs", 1654099a0e58SBosko Milekic slabsize, 1655099a0e58SBosko Milekic NULL, NULL, NULL, NULL, 1656e66468eaSBosko Milekic UMA_ALIGN_PTR, 16577fd87882SBosko Milekic UMA_ZFLAG_INTERNAL); 1658099a0e58SBosko Milekic 16598355f576SJeff Roberson hashzone = uma_zcreate("UMA Hash", 16608355f576SJeff Roberson sizeof(struct slabhead *) * UMA_HASH_SIZE_INIT, 16618355f576SJeff Roberson NULL, NULL, NULL, NULL, 1662b60f5b79SJeff Roberson UMA_ALIGN_PTR, UMA_ZFLAG_INTERNAL); 16638355f576SJeff Roberson 1664cae33c14SJeff Roberson bucket_init(); 16658355f576SJeff Roberson 1666009b6fcbSJeff Roberson #ifdef UMA_MD_SMALL_ALLOC 166748eea375SJeff Roberson booted = 1; 166848eea375SJeff Roberson #endif 16698355f576SJeff Roberson 16708355f576SJeff Roberson #ifdef UMA_DEBUG 16718355f576SJeff Roberson printf("UMA startup complete.\n"); 16728355f576SJeff Roberson #endif 16738355f576SJeff Roberson } 16748355f576SJeff Roberson 16758355f576SJeff Roberson /* see uma.h */ 16768355f576SJeff Roberson void 167799571dc3SJeff Roberson uma_startup2(void) 16788355f576SJeff Roberson { 16798355f576SJeff Roberson booted = 1; 168086bbae32SJeff Roberson bucket_enable(); 16818355f576SJeff Roberson #ifdef UMA_DEBUG 16828355f576SJeff Roberson printf("UMA startup2 complete.\n"); 16838355f576SJeff Roberson #endif 16848355f576SJeff Roberson } 16858355f576SJeff Roberson 16868355f576SJeff Roberson /* 16878355f576SJeff Roberson * Initialize our callout handle 16888355f576SJeff Roberson * 16898355f576SJeff Roberson */ 16908355f576SJeff Roberson 16918355f576SJeff Roberson static void 16928355f576SJeff Roberson uma_startup3(void) 16938355f576SJeff Roberson { 16948355f576SJeff Roberson #ifdef UMA_DEBUG 16958355f576SJeff Roberson printf("Starting callout.\n"); 16968355f576SJeff Roberson #endif 1697a3c07611SRobert Watson callout_init(&uma_callout, CALLOUT_MPSAFE); 16989643769aSJeff Roberson callout_reset(&uma_callout, UMA_TIMEOUT * hz, uma_timeout, NULL); 16998355f576SJeff Roberson #ifdef UMA_DEBUG 17008355f576SJeff Roberson printf("UMA startup3 complete.\n"); 17018355f576SJeff Roberson #endif 17028355f576SJeff Roberson } 17038355f576SJeff Roberson 1704b23f72e9SBrian Feldman static uma_zone_t 1705099a0e58SBosko Milekic uma_kcreate(uma_zone_t zone, size_t size, uma_init uminit, uma_fini fini, 17062018f30cSMike Silbersack int align, u_int32_t flags) 1707099a0e58SBosko Milekic { 1708099a0e58SBosko Milekic struct uma_kctor_args args; 1709099a0e58SBosko Milekic 1710099a0e58SBosko Milekic args.size = size; 1711099a0e58SBosko Milekic args.uminit = uminit; 1712099a0e58SBosko Milekic args.fini = fini; 17131e319f6dSRobert Watson args.align = (align == UMA_ALIGN_CACHE) ? uma_align_cache : align; 1714099a0e58SBosko Milekic args.flags = flags; 1715099a0e58SBosko Milekic args.zone = zone; 1716b23f72e9SBrian Feldman return (uma_zalloc_internal(kegs, &args, M_WAITOK)); 1717099a0e58SBosko Milekic } 1718099a0e58SBosko Milekic 17198355f576SJeff Roberson /* See uma.h */ 17201e319f6dSRobert Watson void 17211e319f6dSRobert Watson uma_set_align(int align) 17221e319f6dSRobert Watson { 17231e319f6dSRobert Watson 17241e319f6dSRobert Watson if (align != UMA_ALIGN_CACHE) 17251e319f6dSRobert Watson uma_align_cache = align; 17261e319f6dSRobert Watson } 17271e319f6dSRobert Watson 17281e319f6dSRobert Watson /* See uma.h */ 17298355f576SJeff Roberson uma_zone_t 1730c3bdc05fSAndrew R. Reiter uma_zcreate(char *name, size_t size, uma_ctor ctor, uma_dtor dtor, 17312018f30cSMike Silbersack uma_init uminit, uma_fini fini, int align, u_int32_t flags) 17328355f576SJeff Roberson 17338355f576SJeff Roberson { 17348355f576SJeff Roberson struct uma_zctor_args args; 17358355f576SJeff Roberson 17368355f576SJeff Roberson /* This stuff is essential for the zone ctor */ 17378355f576SJeff Roberson args.name = name; 17388355f576SJeff Roberson args.size = size; 17398355f576SJeff Roberson args.ctor = ctor; 17408355f576SJeff Roberson args.dtor = dtor; 17418355f576SJeff Roberson args.uminit = uminit; 17428355f576SJeff Roberson args.fini = fini; 17438355f576SJeff Roberson args.align = align; 17448355f576SJeff Roberson args.flags = flags; 1745099a0e58SBosko Milekic args.keg = NULL; 1746099a0e58SBosko Milekic 1747099a0e58SBosko Milekic return (uma_zalloc_internal(zones, &args, M_WAITOK)); 1748099a0e58SBosko Milekic } 1749099a0e58SBosko Milekic 1750099a0e58SBosko Milekic /* See uma.h */ 1751099a0e58SBosko Milekic uma_zone_t 1752099a0e58SBosko Milekic uma_zsecond_create(char *name, uma_ctor ctor, uma_dtor dtor, 1753099a0e58SBosko Milekic uma_init zinit, uma_fini zfini, uma_zone_t master) 1754099a0e58SBosko Milekic { 1755099a0e58SBosko Milekic struct uma_zctor_args args; 1756099a0e58SBosko Milekic 1757099a0e58SBosko Milekic args.name = name; 1758099a0e58SBosko Milekic args.size = master->uz_keg->uk_size; 1759099a0e58SBosko Milekic args.ctor = ctor; 1760099a0e58SBosko Milekic args.dtor = dtor; 1761099a0e58SBosko Milekic args.uminit = zinit; 1762099a0e58SBosko Milekic args.fini = zfini; 1763099a0e58SBosko Milekic args.align = master->uz_keg->uk_align; 1764099a0e58SBosko Milekic args.flags = master->uz_keg->uk_flags | UMA_ZONE_SECONDARY; 1765099a0e58SBosko Milekic args.keg = master->uz_keg; 17668355f576SJeff Roberson 1767a163d034SWarner Losh return (uma_zalloc_internal(zones, &args, M_WAITOK)); 17688355f576SJeff Roberson } 17698355f576SJeff Roberson 17708355f576SJeff Roberson /* See uma.h */ 17719c2cd7e5SJeff Roberson void 17729c2cd7e5SJeff Roberson uma_zdestroy(uma_zone_t zone) 17739c2cd7e5SJeff Roberson { 1774f4ff923bSRobert Watson 1775f4ff923bSRobert Watson uma_zfree_internal(zones, zone, NULL, SKIP_NONE, ZFREE_STATFREE); 17769c2cd7e5SJeff Roberson } 17779c2cd7e5SJeff Roberson 17789c2cd7e5SJeff Roberson /* See uma.h */ 17798355f576SJeff Roberson void * 17802cc35ff9SJeff Roberson uma_zalloc_arg(uma_zone_t zone, void *udata, int flags) 17818355f576SJeff Roberson { 17828355f576SJeff Roberson void *item; 17838355f576SJeff Roberson uma_cache_t cache; 17848355f576SJeff Roberson uma_bucket_t bucket; 17858355f576SJeff Roberson int cpu; 17868355f576SJeff Roberson 17878355f576SJeff Roberson /* This is the fast path allocation */ 17888355f576SJeff Roberson #ifdef UMA_DEBUG_ALLOC_1 17898355f576SJeff Roberson printf("Allocating one item from %s(%p)\n", zone->uz_name, zone); 17908355f576SJeff Roberson #endif 17913659f747SRobert Watson CTR3(KTR_UMA, "uma_zalloc_arg thread %x zone %s flags %d", curthread, 17923659f747SRobert Watson zone->uz_name, flags); 1793a553d4b8SJeff Roberson 1794635fd505SRobert Watson if (flags & M_WAITOK) { 1795b23f72e9SBrian Feldman WITNESS_WARN(WARN_GIANTOK | WARN_SLEEPOK, NULL, 1796635fd505SRobert Watson "uma_zalloc_arg: zone \"%s\"", zone->uz_name); 17974c1cc01cSJohn Baldwin } 17984c1cc01cSJohn Baldwin 17995d1ae027SRobert Watson /* 18005d1ae027SRobert Watson * If possible, allocate from the per-CPU cache. There are two 18015d1ae027SRobert Watson * requirements for safe access to the per-CPU cache: (1) the thread 18025d1ae027SRobert Watson * accessing the cache must not be preempted or yield during access, 18035d1ae027SRobert Watson * and (2) the thread must not migrate CPUs without switching which 18045d1ae027SRobert Watson * cache it accesses. We rely on a critical section to prevent 18055d1ae027SRobert Watson * preemption and migration. We release the critical section in 18065d1ae027SRobert Watson * order to acquire the zone mutex if we are unable to allocate from 18075d1ae027SRobert Watson * the current cache; when we re-acquire the critical section, we 18085d1ae027SRobert Watson * must detect and handle migration if it has occurred. 18095d1ae027SRobert Watson */ 1810a553d4b8SJeff Roberson zalloc_restart: 18115d1ae027SRobert Watson critical_enter(); 18125d1ae027SRobert Watson cpu = curcpu; 18138355f576SJeff Roberson cache = &zone->uz_cpu[cpu]; 18148355f576SJeff Roberson 18158355f576SJeff Roberson zalloc_start: 18168355f576SJeff Roberson bucket = cache->uc_allocbucket; 18178355f576SJeff Roberson 18188355f576SJeff Roberson if (bucket) { 1819cae33c14SJeff Roberson if (bucket->ub_cnt > 0) { 1820cae33c14SJeff Roberson bucket->ub_cnt--; 1821cae33c14SJeff Roberson item = bucket->ub_bucket[bucket->ub_cnt]; 18228355f576SJeff Roberson #ifdef INVARIANTS 1823cae33c14SJeff Roberson bucket->ub_bucket[bucket->ub_cnt] = NULL; 18248355f576SJeff Roberson #endif 18258355f576SJeff Roberson KASSERT(item != NULL, 18268355f576SJeff Roberson ("uma_zalloc: Bucket pointer mangled.")); 18278355f576SJeff Roberson cache->uc_allocs++; 18285d1ae027SRobert Watson critical_exit(); 1829639c9550SJeff Roberson #ifdef INVARIANTS 183081f71edaSMatt Jacob ZONE_LOCK(zone); 1831639c9550SJeff Roberson uma_dbg_alloc(zone, NULL, item); 183281f71edaSMatt Jacob ZONE_UNLOCK(zone); 1833639c9550SJeff Roberson #endif 1834b23f72e9SBrian Feldman if (zone->uz_ctor != NULL) { 1835b23f72e9SBrian Feldman if (zone->uz_ctor(item, zone->uz_keg->uk_size, 1836b23f72e9SBrian Feldman udata, flags) != 0) { 1837b23f72e9SBrian Feldman uma_zfree_internal(zone, item, udata, 1838f4ff923bSRobert Watson SKIP_DTOR, ZFREE_STATFAIL | 1839f4ff923bSRobert Watson ZFREE_STATFREE); 1840b23f72e9SBrian Feldman return (NULL); 1841b23f72e9SBrian Feldman } 1842b23f72e9SBrian Feldman } 18432cc35ff9SJeff Roberson if (flags & M_ZERO) 1844099a0e58SBosko Milekic bzero(item, zone->uz_keg->uk_size); 18458355f576SJeff Roberson return (item); 18468355f576SJeff Roberson } else if (cache->uc_freebucket) { 18478355f576SJeff Roberson /* 18488355f576SJeff Roberson * We have run out of items in our allocbucket. 18498355f576SJeff Roberson * See if we can switch with our free bucket. 18508355f576SJeff Roberson */ 1851cae33c14SJeff Roberson if (cache->uc_freebucket->ub_cnt > 0) { 18528355f576SJeff Roberson #ifdef UMA_DEBUG_ALLOC 185364f051e9SJeff Roberson printf("uma_zalloc: Swapping empty with" 185464f051e9SJeff Roberson " alloc.\n"); 18558355f576SJeff Roberson #endif 1856b983089aSJeff Roberson bucket = cache->uc_freebucket; 18578355f576SJeff Roberson cache->uc_freebucket = cache->uc_allocbucket; 1858b983089aSJeff Roberson cache->uc_allocbucket = bucket; 18598355f576SJeff Roberson 18608355f576SJeff Roberson goto zalloc_start; 18618355f576SJeff Roberson } 18628355f576SJeff Roberson } 18638355f576SJeff Roberson } 18645d1ae027SRobert Watson /* 18655d1ae027SRobert Watson * Attempt to retrieve the item from the per-CPU cache has failed, so 18665d1ae027SRobert Watson * we must go back to the zone. This requires the zone lock, so we 18675d1ae027SRobert Watson * must drop the critical section, then re-acquire it when we go back 18685d1ae027SRobert Watson * to the cache. Since the critical section is released, we may be 18695d1ae027SRobert Watson * preempted or migrate. As such, make sure not to maintain any 18705d1ae027SRobert Watson * thread-local state specific to the cache from prior to releasing 18715d1ae027SRobert Watson * the critical section. 18725d1ae027SRobert Watson */ 18735d1ae027SRobert Watson critical_exit(); 1874a553d4b8SJeff Roberson ZONE_LOCK(zone); 18755d1ae027SRobert Watson critical_enter(); 18765d1ae027SRobert Watson cpu = curcpu; 18775d1ae027SRobert Watson cache = &zone->uz_cpu[cpu]; 18785d1ae027SRobert Watson bucket = cache->uc_allocbucket; 18795d1ae027SRobert Watson if (bucket != NULL) { 18805d1ae027SRobert Watson if (bucket->ub_cnt > 0) { 18815d1ae027SRobert Watson ZONE_UNLOCK(zone); 18825d1ae027SRobert Watson goto zalloc_start; 18835d1ae027SRobert Watson } 18845d1ae027SRobert Watson bucket = cache->uc_freebucket; 18855d1ae027SRobert Watson if (bucket != NULL && bucket->ub_cnt > 0) { 18865d1ae027SRobert Watson ZONE_UNLOCK(zone); 18875d1ae027SRobert Watson goto zalloc_start; 18885d1ae027SRobert Watson } 18895d1ae027SRobert Watson } 18905d1ae027SRobert Watson 1891a553d4b8SJeff Roberson /* Since we have locked the zone we may as well send back our stats */ 1892a553d4b8SJeff Roberson zone->uz_allocs += cache->uc_allocs; 1893a553d4b8SJeff Roberson cache->uc_allocs = 0; 1894773df9abSRobert Watson zone->uz_frees += cache->uc_frees; 1895773df9abSRobert Watson cache->uc_frees = 0; 18968355f576SJeff Roberson 1897a553d4b8SJeff Roberson /* Our old one is now a free bucket */ 1898a553d4b8SJeff Roberson if (cache->uc_allocbucket) { 1899cae33c14SJeff Roberson KASSERT(cache->uc_allocbucket->ub_cnt == 0, 1900a553d4b8SJeff Roberson ("uma_zalloc_arg: Freeing a non free bucket.")); 1901a553d4b8SJeff Roberson LIST_INSERT_HEAD(&zone->uz_free_bucket, 1902a553d4b8SJeff Roberson cache->uc_allocbucket, ub_link); 1903a553d4b8SJeff Roberson cache->uc_allocbucket = NULL; 1904a553d4b8SJeff Roberson } 19058355f576SJeff Roberson 1906a553d4b8SJeff Roberson /* Check the free list for a new alloc bucket */ 1907a553d4b8SJeff Roberson if ((bucket = LIST_FIRST(&zone->uz_full_bucket)) != NULL) { 1908cae33c14SJeff Roberson KASSERT(bucket->ub_cnt != 0, 1909a553d4b8SJeff Roberson ("uma_zalloc_arg: Returning an empty bucket.")); 19108355f576SJeff Roberson 1911a553d4b8SJeff Roberson LIST_REMOVE(bucket, ub_link); 1912a553d4b8SJeff Roberson cache->uc_allocbucket = bucket; 1913a553d4b8SJeff Roberson ZONE_UNLOCK(zone); 19148355f576SJeff Roberson goto zalloc_start; 1915a553d4b8SJeff Roberson } 19165d1ae027SRobert Watson /* We are no longer associated with this CPU. */ 19175d1ae027SRobert Watson critical_exit(); 1918bbee39c6SJeff Roberson 1919a553d4b8SJeff Roberson /* Bump up our uz_count so we get here less */ 1920cae33c14SJeff Roberson if (zone->uz_count < BUCKET_MAX) 1921a553d4b8SJeff Roberson zone->uz_count++; 1922099a0e58SBosko Milekic 19238355f576SJeff Roberson /* 1924a553d4b8SJeff Roberson * Now lets just fill a bucket and put it on the free list. If that 1925a553d4b8SJeff Roberson * works we'll restart the allocation from the begining. 1926bbee39c6SJeff Roberson */ 1927bbee39c6SJeff Roberson if (uma_zalloc_bucket(zone, flags)) { 1928bbee39c6SJeff Roberson ZONE_UNLOCK(zone); 1929bbee39c6SJeff Roberson goto zalloc_restart; 1930bbee39c6SJeff Roberson } 1931bbee39c6SJeff Roberson ZONE_UNLOCK(zone); 1932bbee39c6SJeff Roberson /* 1933bbee39c6SJeff Roberson * We may not be able to get a bucket so return an actual item. 1934bbee39c6SJeff Roberson */ 1935bbee39c6SJeff Roberson #ifdef UMA_DEBUG 1936bbee39c6SJeff Roberson printf("uma_zalloc_arg: Bucketzone returned NULL\n"); 1937bbee39c6SJeff Roberson #endif 1938bbee39c6SJeff Roberson 1939bbee39c6SJeff Roberson return (uma_zalloc_internal(zone, udata, flags)); 1940bbee39c6SJeff Roberson } 1941bbee39c6SJeff Roberson 1942bbee39c6SJeff Roberson static uma_slab_t 1943bbee39c6SJeff Roberson uma_zone_slab(uma_zone_t zone, int flags) 1944bbee39c6SJeff Roberson { 1945bbee39c6SJeff Roberson uma_slab_t slab; 1946099a0e58SBosko Milekic uma_keg_t keg; 1947099a0e58SBosko Milekic 1948099a0e58SBosko Milekic keg = zone->uz_keg; 1949bbee39c6SJeff Roberson 1950bbee39c6SJeff Roberson /* 1951bbee39c6SJeff Roberson * This is to prevent us from recursively trying to allocate 1952bbee39c6SJeff Roberson * buckets. The problem is that if an allocation forces us to 1953bbee39c6SJeff Roberson * grab a new bucket we will call page_alloc, which will go off 1954bbee39c6SJeff Roberson * and cause the vm to allocate vm_map_entries. If we need new 1955bbee39c6SJeff Roberson * buckets there too we will recurse in kmem_alloc and bad 1956bbee39c6SJeff Roberson * things happen. So instead we return a NULL bucket, and make 1957bbee39c6SJeff Roberson * the code that allocates buckets smart enough to deal with it 1958c5c1b16eSBosko Milekic * 1959c5c1b16eSBosko Milekic * XXX: While we want this protection for the bucket zones so that 1960c5c1b16eSBosko Milekic * recursion from the VM is handled (and the calling code that 1961c5c1b16eSBosko Milekic * allocates buckets knows how to deal with it), we do not want 1962c5c1b16eSBosko Milekic * to prevent allocation from the slab header zones (slabzone 1963c5c1b16eSBosko Milekic * and slabrefzone) if uk_recurse is not zero for them. The 1964c5c1b16eSBosko Milekic * reason is that it could lead to NULL being returned for 1965c5c1b16eSBosko Milekic * slab header allocations even in the M_WAITOK case, and the 1966c5c1b16eSBosko Milekic * caller can't handle that. 1967bbee39c6SJeff Roberson */ 1968099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZFLAG_INTERNAL && keg->uk_recurse != 0) 1969c5c1b16eSBosko Milekic if ((zone != slabzone) && (zone != slabrefzone)) 1970bbee39c6SJeff Roberson return (NULL); 1971bbee39c6SJeff Roberson 1972bbee39c6SJeff Roberson slab = NULL; 1973bbee39c6SJeff Roberson 1974bbee39c6SJeff Roberson for (;;) { 1975bbee39c6SJeff Roberson /* 1976bbee39c6SJeff Roberson * Find a slab with some space. Prefer slabs that are partially 1977bbee39c6SJeff Roberson * used over those that are totally full. This helps to reduce 1978bbee39c6SJeff Roberson * fragmentation. 1979bbee39c6SJeff Roberson */ 1980099a0e58SBosko Milekic if (keg->uk_free != 0) { 1981099a0e58SBosko Milekic if (!LIST_EMPTY(&keg->uk_part_slab)) { 1982099a0e58SBosko Milekic slab = LIST_FIRST(&keg->uk_part_slab); 1983bbee39c6SJeff Roberson } else { 1984099a0e58SBosko Milekic slab = LIST_FIRST(&keg->uk_free_slab); 1985bbee39c6SJeff Roberson LIST_REMOVE(slab, us_link); 1986099a0e58SBosko Milekic LIST_INSERT_HEAD(&keg->uk_part_slab, slab, 1987bbee39c6SJeff Roberson us_link); 1988bbee39c6SJeff Roberson } 1989bbee39c6SJeff Roberson return (slab); 1990bbee39c6SJeff Roberson } 1991bbee39c6SJeff Roberson 1992bbee39c6SJeff Roberson /* 1993bbee39c6SJeff Roberson * M_NOVM means don't ask at all! 1994bbee39c6SJeff Roberson */ 1995bbee39c6SJeff Roberson if (flags & M_NOVM) 1996bbee39c6SJeff Roberson break; 1997bbee39c6SJeff Roberson 1998099a0e58SBosko Milekic if (keg->uk_maxpages && 1999099a0e58SBosko Milekic keg->uk_pages >= keg->uk_maxpages) { 2000099a0e58SBosko Milekic keg->uk_flags |= UMA_ZFLAG_FULL; 2001bbee39c6SJeff Roberson 2002ebc85edfSJeff Roberson if (flags & M_NOWAIT) 2003bbee39c6SJeff Roberson break; 2004ebc85edfSJeff Roberson else 2005099a0e58SBosko Milekic msleep(keg, &keg->uk_lock, PVM, 200664f051e9SJeff Roberson "zonelimit", 0); 2007bbee39c6SJeff Roberson continue; 2008bbee39c6SJeff Roberson } 2009099a0e58SBosko Milekic keg->uk_recurse++; 2010bbee39c6SJeff Roberson slab = slab_zalloc(zone, flags); 2011099a0e58SBosko Milekic keg->uk_recurse--; 2012099a0e58SBosko Milekic 2013bbee39c6SJeff Roberson /* 2014bbee39c6SJeff Roberson * If we got a slab here it's safe to mark it partially used 2015bbee39c6SJeff Roberson * and return. We assume that the caller is going to remove 2016bbee39c6SJeff Roberson * at least one item. 2017bbee39c6SJeff Roberson */ 2018bbee39c6SJeff Roberson if (slab) { 2019099a0e58SBosko Milekic LIST_INSERT_HEAD(&keg->uk_part_slab, slab, us_link); 2020bbee39c6SJeff Roberson return (slab); 2021bbee39c6SJeff Roberson } 2022bbee39c6SJeff Roberson /* 2023bbee39c6SJeff Roberson * We might not have been able to get a slab but another cpu 2024bbee39c6SJeff Roberson * could have while we were unlocked. Check again before we 2025bbee39c6SJeff Roberson * fail. 2026bbee39c6SJeff Roberson */ 2027ebc85edfSJeff Roberson if (flags & M_NOWAIT) 2028bbee39c6SJeff Roberson flags |= M_NOVM; 2029bbee39c6SJeff Roberson } 2030bbee39c6SJeff Roberson return (slab); 2031bbee39c6SJeff Roberson } 2032bbee39c6SJeff Roberson 2033d56368d7SBosko Milekic static void * 2034bbee39c6SJeff Roberson uma_slab_alloc(uma_zone_t zone, uma_slab_t slab) 2035bbee39c6SJeff Roberson { 2036099a0e58SBosko Milekic uma_keg_t keg; 2037ab14a3f7SBrian Feldman uma_slabrefcnt_t slabref; 2038bbee39c6SJeff Roberson void *item; 2039bbee39c6SJeff Roberson u_int8_t freei; 2040bbee39c6SJeff Roberson 2041099a0e58SBosko Milekic keg = zone->uz_keg; 2042099a0e58SBosko Milekic 2043bbee39c6SJeff Roberson freei = slab->us_firstfree; 2044ab14a3f7SBrian Feldman if (keg->uk_flags & UMA_ZONE_REFCNT) { 2045ab14a3f7SBrian Feldman slabref = (uma_slabrefcnt_t)slab; 2046ab14a3f7SBrian Feldman slab->us_firstfree = slabref->us_freelist[freei].us_item; 2047ab14a3f7SBrian Feldman } else { 2048099a0e58SBosko Milekic slab->us_firstfree = slab->us_freelist[freei].us_item; 2049ab14a3f7SBrian Feldman } 2050099a0e58SBosko Milekic item = slab->us_data + (keg->uk_rsize * freei); 2051bbee39c6SJeff Roberson 2052bbee39c6SJeff Roberson slab->us_freecount--; 2053099a0e58SBosko Milekic keg->uk_free--; 2054bbee39c6SJeff Roberson #ifdef INVARIANTS 2055bbee39c6SJeff Roberson uma_dbg_alloc(zone, slab, item); 2056bbee39c6SJeff Roberson #endif 2057bbee39c6SJeff Roberson /* Move this slab to the full list */ 2058bbee39c6SJeff Roberson if (slab->us_freecount == 0) { 2059bbee39c6SJeff Roberson LIST_REMOVE(slab, us_link); 2060099a0e58SBosko Milekic LIST_INSERT_HEAD(&keg->uk_full_slab, slab, us_link); 2061bbee39c6SJeff Roberson } 2062bbee39c6SJeff Roberson 2063bbee39c6SJeff Roberson return (item); 2064bbee39c6SJeff Roberson } 2065bbee39c6SJeff Roberson 2066bbee39c6SJeff Roberson static int 2067bbee39c6SJeff Roberson uma_zalloc_bucket(uma_zone_t zone, int flags) 2068bbee39c6SJeff Roberson { 2069bbee39c6SJeff Roberson uma_bucket_t bucket; 2070bbee39c6SJeff Roberson uma_slab_t slab; 2071099a0e58SBosko Milekic int16_t saved; 2072b23f72e9SBrian Feldman int max, origflags = flags; 2073bbee39c6SJeff Roberson 2074bbee39c6SJeff Roberson /* 2075a553d4b8SJeff Roberson * Try this zone's free list first so we don't allocate extra buckets. 20768355f576SJeff Roberson */ 2077bbee39c6SJeff Roberson if ((bucket = LIST_FIRST(&zone->uz_free_bucket)) != NULL) { 2078cae33c14SJeff Roberson KASSERT(bucket->ub_cnt == 0, 2079bbee39c6SJeff Roberson ("uma_zalloc_bucket: Bucket on free list is not empty.")); 2080a553d4b8SJeff Roberson LIST_REMOVE(bucket, ub_link); 2081bbee39c6SJeff Roberson } else { 208218aa2de5SJeff Roberson int bflags; 208318aa2de5SJeff Roberson 2084cae33c14SJeff Roberson bflags = (flags & ~M_ZERO); 2085099a0e58SBosko Milekic if (zone->uz_keg->uk_flags & UMA_ZFLAG_CACHEONLY) 208618aa2de5SJeff Roberson bflags |= M_NOVM; 208718aa2de5SJeff Roberson 2088bbee39c6SJeff Roberson ZONE_UNLOCK(zone); 2089cae33c14SJeff Roberson bucket = bucket_alloc(zone->uz_count, bflags); 2090bbee39c6SJeff Roberson ZONE_LOCK(zone); 2091bbee39c6SJeff Roberson } 2092bbee39c6SJeff Roberson 2093bbee39c6SJeff Roberson if (bucket == NULL) 2094bbee39c6SJeff Roberson return (0); 2095bbee39c6SJeff Roberson 2096bbee39c6SJeff Roberson #ifdef SMP 2097a553d4b8SJeff Roberson /* 2098bbee39c6SJeff Roberson * This code is here to limit the number of simultaneous bucket fills 2099bbee39c6SJeff Roberson * for any given zone to the number of per cpu caches in this zone. This 2100bbee39c6SJeff Roberson * is done so that we don't allocate more memory than we really need. 2101a553d4b8SJeff Roberson */ 2102bbee39c6SJeff Roberson if (zone->uz_fills >= mp_ncpus) 2103bbee39c6SJeff Roberson goto done; 2104a553d4b8SJeff Roberson 2105bbee39c6SJeff Roberson #endif 2106bbee39c6SJeff Roberson zone->uz_fills++; 2107bbee39c6SJeff Roberson 210844eca34aSJeff Roberson max = MIN(bucket->ub_entries, zone->uz_count); 2109bbee39c6SJeff Roberson /* Try to keep the buckets totally full */ 2110099a0e58SBosko Milekic saved = bucket->ub_cnt; 211144eca34aSJeff Roberson while (bucket->ub_cnt < max && 2112d11e0ba5SJeff Roberson (slab = uma_zone_slab(zone, flags)) != NULL) { 211344eca34aSJeff Roberson while (slab->us_freecount && bucket->ub_cnt < max) { 2114cae33c14SJeff Roberson bucket->ub_bucket[bucket->ub_cnt++] = 2115bbee39c6SJeff Roberson uma_slab_alloc(zone, slab); 2116bbee39c6SJeff Roberson } 2117099a0e58SBosko Milekic 2118bbee39c6SJeff Roberson /* Don't block on the next fill */ 2119bbee39c6SJeff Roberson flags |= M_NOWAIT; 21208355f576SJeff Roberson } 21218355f576SJeff Roberson 2122099a0e58SBosko Milekic /* 2123099a0e58SBosko Milekic * We unlock here because we need to call the zone's init. 2124099a0e58SBosko Milekic * It should be safe to unlock because the slab dealt with 2125099a0e58SBosko Milekic * above is already on the appropriate list within the keg 2126099a0e58SBosko Milekic * and the bucket we filled is not yet on any list, so we 2127099a0e58SBosko Milekic * own it. 2128099a0e58SBosko Milekic */ 2129099a0e58SBosko Milekic if (zone->uz_init != NULL) { 2130099a0e58SBosko Milekic int i; 2131bbee39c6SJeff Roberson 2132099a0e58SBosko Milekic ZONE_UNLOCK(zone); 2133099a0e58SBosko Milekic for (i = saved; i < bucket->ub_cnt; i++) 2134b23f72e9SBrian Feldman if (zone->uz_init(bucket->ub_bucket[i], 2135b23f72e9SBrian Feldman zone->uz_keg->uk_size, origflags) != 0) 2136b23f72e9SBrian Feldman break; 2137b23f72e9SBrian Feldman /* 2138b23f72e9SBrian Feldman * If we couldn't initialize the whole bucket, put the 2139b23f72e9SBrian Feldman * rest back onto the freelist. 2140b23f72e9SBrian Feldman */ 2141b23f72e9SBrian Feldman if (i != bucket->ub_cnt) { 2142b23f72e9SBrian Feldman int j; 2143b23f72e9SBrian Feldman 2144a5a262c6SBosko Milekic for (j = i; j < bucket->ub_cnt; j++) { 2145b23f72e9SBrian Feldman uma_zfree_internal(zone, bucket->ub_bucket[j], 21462019094aSRobert Watson NULL, SKIP_FINI, 0); 2147a5a262c6SBosko Milekic #ifdef INVARIANTS 2148a5a262c6SBosko Milekic bucket->ub_bucket[j] = NULL; 2149a5a262c6SBosko Milekic #endif 2150a5a262c6SBosko Milekic } 2151b23f72e9SBrian Feldman bucket->ub_cnt = i; 2152b23f72e9SBrian Feldman } 2153099a0e58SBosko Milekic ZONE_LOCK(zone); 2154099a0e58SBosko Milekic } 2155099a0e58SBosko Milekic 2156099a0e58SBosko Milekic zone->uz_fills--; 2157cae33c14SJeff Roberson if (bucket->ub_cnt != 0) { 2158bbee39c6SJeff Roberson LIST_INSERT_HEAD(&zone->uz_full_bucket, 2159bbee39c6SJeff Roberson bucket, ub_link); 2160bbee39c6SJeff Roberson return (1); 2161bbee39c6SJeff Roberson } 2162bbee39c6SJeff Roberson #ifdef SMP 2163bbee39c6SJeff Roberson done: 2164bbee39c6SJeff Roberson #endif 2165cae33c14SJeff Roberson bucket_free(bucket); 2166bbee39c6SJeff Roberson 2167bbee39c6SJeff Roberson return (0); 2168bbee39c6SJeff Roberson } 21698355f576SJeff Roberson /* 2170bbee39c6SJeff Roberson * Allocates an item for an internal zone 21718355f576SJeff Roberson * 21728355f576SJeff Roberson * Arguments 21738355f576SJeff Roberson * zone The zone to alloc for. 21748355f576SJeff Roberson * udata The data to be passed to the constructor. 2175a163d034SWarner Losh * flags M_WAITOK, M_NOWAIT, M_ZERO. 21768355f576SJeff Roberson * 21778355f576SJeff Roberson * Returns 21788355f576SJeff Roberson * NULL if there is no memory and M_NOWAIT is set 2179bbee39c6SJeff Roberson * An item if successful 21808355f576SJeff Roberson */ 21818355f576SJeff Roberson 21828355f576SJeff Roberson static void * 2183bbee39c6SJeff Roberson uma_zalloc_internal(uma_zone_t zone, void *udata, int flags) 21848355f576SJeff Roberson { 2185099a0e58SBosko Milekic uma_keg_t keg; 21868355f576SJeff Roberson uma_slab_t slab; 21878355f576SJeff Roberson void *item; 21888355f576SJeff Roberson 21898355f576SJeff Roberson item = NULL; 2190099a0e58SBosko Milekic keg = zone->uz_keg; 21918355f576SJeff Roberson 21928355f576SJeff Roberson #ifdef UMA_DEBUG_ALLOC 21938355f576SJeff Roberson printf("INTERNAL: Allocating one item from %s(%p)\n", zone->uz_name, zone); 21948355f576SJeff Roberson #endif 21958355f576SJeff Roberson ZONE_LOCK(zone); 21968355f576SJeff Roberson 2197bbee39c6SJeff Roberson slab = uma_zone_slab(zone, flags); 2198bbee39c6SJeff Roberson if (slab == NULL) { 21992019094aSRobert Watson zone->uz_fails++; 2200bce97791SJeff Roberson ZONE_UNLOCK(zone); 2201a553d4b8SJeff Roberson return (NULL); 2202bce97791SJeff Roberson } 2203a553d4b8SJeff Roberson 2204bbee39c6SJeff Roberson item = uma_slab_alloc(zone, slab); 22058355f576SJeff Roberson 22062c743d36SRobert Watson zone->uz_allocs++; 22072c743d36SRobert Watson 22088355f576SJeff Roberson ZONE_UNLOCK(zone); 22098355f576SJeff Roberson 2210099a0e58SBosko Milekic /* 2211099a0e58SBosko Milekic * We have to call both the zone's init (not the keg's init) 2212099a0e58SBosko Milekic * and the zone's ctor. This is because the item is going from 2213099a0e58SBosko Milekic * a keg slab directly to the user, and the user is expecting it 2214099a0e58SBosko Milekic * to be both zone-init'd as well as zone-ctor'd. 2215099a0e58SBosko Milekic */ 2216b23f72e9SBrian Feldman if (zone->uz_init != NULL) { 2217b23f72e9SBrian Feldman if (zone->uz_init(item, keg->uk_size, flags) != 0) { 22182019094aSRobert Watson uma_zfree_internal(zone, item, udata, SKIP_FINI, 2219f4ff923bSRobert Watson ZFREE_STATFAIL | ZFREE_STATFREE); 2220b23f72e9SBrian Feldman return (NULL); 2221b23f72e9SBrian Feldman } 2222b23f72e9SBrian Feldman } 2223b23f72e9SBrian Feldman if (zone->uz_ctor != NULL) { 2224b23f72e9SBrian Feldman if (zone->uz_ctor(item, keg->uk_size, udata, flags) != 0) { 22252019094aSRobert Watson uma_zfree_internal(zone, item, udata, SKIP_DTOR, 2226f4ff923bSRobert Watson ZFREE_STATFAIL | ZFREE_STATFREE); 2227b23f72e9SBrian Feldman return (NULL); 2228b23f72e9SBrian Feldman } 2229b23f72e9SBrian Feldman } 22302cc35ff9SJeff Roberson if (flags & M_ZERO) 2231099a0e58SBosko Milekic bzero(item, keg->uk_size); 22328355f576SJeff Roberson 22338355f576SJeff Roberson return (item); 22348355f576SJeff Roberson } 22358355f576SJeff Roberson 22368355f576SJeff Roberson /* See uma.h */ 22378355f576SJeff Roberson void 22388355f576SJeff Roberson uma_zfree_arg(uma_zone_t zone, void *item, void *udata) 22398355f576SJeff Roberson { 2240099a0e58SBosko Milekic uma_keg_t keg; 22418355f576SJeff Roberson uma_cache_t cache; 22428355f576SJeff Roberson uma_bucket_t bucket; 22434741dcbfSJeff Roberson int bflags; 22448355f576SJeff Roberson int cpu; 22458355f576SJeff Roberson 2246099a0e58SBosko Milekic keg = zone->uz_keg; 2247099a0e58SBosko Milekic 22488355f576SJeff Roberson #ifdef UMA_DEBUG_ALLOC_1 22498355f576SJeff Roberson printf("Freeing item %p to %s(%p)\n", item, zone->uz_name, zone); 22508355f576SJeff Roberson #endif 22513659f747SRobert Watson CTR2(KTR_UMA, "uma_zfree_arg thread %x zone %s", curthread, 22523659f747SRobert Watson zone->uz_name); 22533659f747SRobert Watson 22545d1ae027SRobert Watson if (zone->uz_dtor) 22555d1ae027SRobert Watson zone->uz_dtor(item, keg->uk_size, udata); 22565d1ae027SRobert Watson #ifdef INVARIANTS 22575d1ae027SRobert Watson ZONE_LOCK(zone); 22585d1ae027SRobert Watson if (keg->uk_flags & UMA_ZONE_MALLOC) 22595d1ae027SRobert Watson uma_dbg_free(zone, udata, item); 22605d1ae027SRobert Watson else 22615d1ae027SRobert Watson uma_dbg_free(zone, NULL, item); 22625d1ae027SRobert Watson ZONE_UNLOCK(zone); 22635d1ae027SRobert Watson #endif 2264af7f9b97SJeff Roberson /* 2265af7f9b97SJeff Roberson * The race here is acceptable. If we miss it we'll just have to wait 2266af7f9b97SJeff Roberson * a little longer for the limits to be reset. 2267af7f9b97SJeff Roberson */ 2268099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZFLAG_FULL) 2269af7f9b97SJeff Roberson goto zfree_internal; 2270af7f9b97SJeff Roberson 22715d1ae027SRobert Watson /* 22725d1ae027SRobert Watson * If possible, free to the per-CPU cache. There are two 22735d1ae027SRobert Watson * requirements for safe access to the per-CPU cache: (1) the thread 22745d1ae027SRobert Watson * accessing the cache must not be preempted or yield during access, 22755d1ae027SRobert Watson * and (2) the thread must not migrate CPUs without switching which 22765d1ae027SRobert Watson * cache it accesses. We rely on a critical section to prevent 22775d1ae027SRobert Watson * preemption and migration. We release the critical section in 22785d1ae027SRobert Watson * order to acquire the zone mutex if we are unable to free to the 22795d1ae027SRobert Watson * current cache; when we re-acquire the critical section, we must 22805d1ae027SRobert Watson * detect and handle migration if it has occurred. 22815d1ae027SRobert Watson */ 2282a553d4b8SJeff Roberson zfree_restart: 22835d1ae027SRobert Watson critical_enter(); 22845d1ae027SRobert Watson cpu = curcpu; 22858355f576SJeff Roberson cache = &zone->uz_cpu[cpu]; 22868355f576SJeff Roberson 22878355f576SJeff Roberson zfree_start: 22888355f576SJeff Roberson bucket = cache->uc_freebucket; 22898355f576SJeff Roberson 22908355f576SJeff Roberson if (bucket) { 2291a553d4b8SJeff Roberson /* 2292a553d4b8SJeff Roberson * Do we have room in our bucket? It is OK for this uz count 2293a553d4b8SJeff Roberson * check to be slightly out of sync. 2294a553d4b8SJeff Roberson */ 2295a553d4b8SJeff Roberson 2296cae33c14SJeff Roberson if (bucket->ub_cnt < bucket->ub_entries) { 2297cae33c14SJeff Roberson KASSERT(bucket->ub_bucket[bucket->ub_cnt] == NULL, 22988355f576SJeff Roberson ("uma_zfree: Freeing to non free bucket index.")); 2299cae33c14SJeff Roberson bucket->ub_bucket[bucket->ub_cnt] = item; 2300cae33c14SJeff Roberson bucket->ub_cnt++; 2301773df9abSRobert Watson cache->uc_frees++; 23025d1ae027SRobert Watson critical_exit(); 23038355f576SJeff Roberson return; 23048355f576SJeff Roberson } else if (cache->uc_allocbucket) { 23058355f576SJeff Roberson #ifdef UMA_DEBUG_ALLOC 23068355f576SJeff Roberson printf("uma_zfree: Swapping buckets.\n"); 23078355f576SJeff Roberson #endif 23088355f576SJeff Roberson /* 23098355f576SJeff Roberson * We have run out of space in our freebucket. 23108355f576SJeff Roberson * See if we can switch with our alloc bucket. 23118355f576SJeff Roberson */ 2312cae33c14SJeff Roberson if (cache->uc_allocbucket->ub_cnt < 2313cae33c14SJeff Roberson cache->uc_freebucket->ub_cnt) { 2314b983089aSJeff Roberson bucket = cache->uc_freebucket; 23158355f576SJeff Roberson cache->uc_freebucket = cache->uc_allocbucket; 2316b983089aSJeff Roberson cache->uc_allocbucket = bucket; 23178355f576SJeff Roberson goto zfree_start; 23188355f576SJeff Roberson } 23198355f576SJeff Roberson } 23208355f576SJeff Roberson } 23218355f576SJeff Roberson /* 2322a553d4b8SJeff Roberson * We can get here for two reasons: 23238355f576SJeff Roberson * 23248355f576SJeff Roberson * 1) The buckets are NULL 2325a553d4b8SJeff Roberson * 2) The alloc and free buckets are both somewhat full. 23265d1ae027SRobert Watson * 23275d1ae027SRobert Watson * We must go back the zone, which requires acquiring the zone lock, 23285d1ae027SRobert Watson * which in turn means we must release and re-acquire the critical 23295d1ae027SRobert Watson * section. Since the critical section is released, we may be 23305d1ae027SRobert Watson * preempted or migrate. As such, make sure not to maintain any 23315d1ae027SRobert Watson * thread-local state specific to the cache from prior to releasing 23325d1ae027SRobert Watson * the critical section. 23338355f576SJeff Roberson */ 23345d1ae027SRobert Watson critical_exit(); 23358355f576SJeff Roberson ZONE_LOCK(zone); 23365d1ae027SRobert Watson critical_enter(); 23375d1ae027SRobert Watson cpu = curcpu; 23385d1ae027SRobert Watson cache = &zone->uz_cpu[cpu]; 23395d1ae027SRobert Watson if (cache->uc_freebucket != NULL) { 23405d1ae027SRobert Watson if (cache->uc_freebucket->ub_cnt < 23415d1ae027SRobert Watson cache->uc_freebucket->ub_entries) { 23425d1ae027SRobert Watson ZONE_UNLOCK(zone); 23435d1ae027SRobert Watson goto zfree_start; 23445d1ae027SRobert Watson } 23455d1ae027SRobert Watson if (cache->uc_allocbucket != NULL && 23465d1ae027SRobert Watson (cache->uc_allocbucket->ub_cnt < 23475d1ae027SRobert Watson cache->uc_freebucket->ub_cnt)) { 23485d1ae027SRobert Watson ZONE_UNLOCK(zone); 23495d1ae027SRobert Watson goto zfree_start; 23505d1ae027SRobert Watson } 23515d1ae027SRobert Watson } 23528355f576SJeff Roberson 2353f4ff923bSRobert Watson /* Since we have locked the zone we may as well send back our stats */ 2354f4ff923bSRobert Watson zone->uz_allocs += cache->uc_allocs; 2355f4ff923bSRobert Watson cache->uc_allocs = 0; 2356f4ff923bSRobert Watson zone->uz_frees += cache->uc_frees; 2357f4ff923bSRobert Watson cache->uc_frees = 0; 2358f4ff923bSRobert Watson 23598355f576SJeff Roberson bucket = cache->uc_freebucket; 23608355f576SJeff Roberson cache->uc_freebucket = NULL; 23618355f576SJeff Roberson 23628355f576SJeff Roberson /* Can we throw this on the zone full list? */ 23638355f576SJeff Roberson if (bucket != NULL) { 23648355f576SJeff Roberson #ifdef UMA_DEBUG_ALLOC 23658355f576SJeff Roberson printf("uma_zfree: Putting old bucket on the free list.\n"); 23668355f576SJeff Roberson #endif 2367cae33c14SJeff Roberson /* ub_cnt is pointing to the last free item */ 2368cae33c14SJeff Roberson KASSERT(bucket->ub_cnt != 0, 23698355f576SJeff Roberson ("uma_zfree: Attempting to insert an empty bucket onto the full list.\n")); 23708355f576SJeff Roberson LIST_INSERT_HEAD(&zone->uz_full_bucket, 23718355f576SJeff Roberson bucket, ub_link); 23728355f576SJeff Roberson } 2373a553d4b8SJeff Roberson if ((bucket = LIST_FIRST(&zone->uz_free_bucket)) != NULL) { 2374a553d4b8SJeff Roberson LIST_REMOVE(bucket, ub_link); 2375a553d4b8SJeff Roberson ZONE_UNLOCK(zone); 2376a553d4b8SJeff Roberson cache->uc_freebucket = bucket; 2377a553d4b8SJeff Roberson goto zfree_start; 2378a553d4b8SJeff Roberson } 23795d1ae027SRobert Watson /* We are no longer associated with this CPU. */ 23805d1ae027SRobert Watson critical_exit(); 2381a553d4b8SJeff Roberson 2382a553d4b8SJeff Roberson /* And the zone.. */ 2383a553d4b8SJeff Roberson ZONE_UNLOCK(zone); 2384a553d4b8SJeff Roberson 23858355f576SJeff Roberson #ifdef UMA_DEBUG_ALLOC 23868355f576SJeff Roberson printf("uma_zfree: Allocating new free bucket.\n"); 23878355f576SJeff Roberson #endif 23884741dcbfSJeff Roberson bflags = M_NOWAIT; 23894741dcbfSJeff Roberson 2390099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZFLAG_CACHEONLY) 23914741dcbfSJeff Roberson bflags |= M_NOVM; 2392cae33c14SJeff Roberson bucket = bucket_alloc(zone->uz_count, bflags); 23934741dcbfSJeff Roberson if (bucket) { 2394a553d4b8SJeff Roberson ZONE_LOCK(zone); 2395a553d4b8SJeff Roberson LIST_INSERT_HEAD(&zone->uz_free_bucket, 2396a553d4b8SJeff Roberson bucket, ub_link); 23978355f576SJeff Roberson ZONE_UNLOCK(zone); 2398a553d4b8SJeff Roberson goto zfree_restart; 23998355f576SJeff Roberson } 24008355f576SJeff Roberson 2401a553d4b8SJeff Roberson /* 2402a553d4b8SJeff Roberson * If nothing else caught this, we'll just do an internal free. 2403a553d4b8SJeff Roberson */ 2404af7f9b97SJeff Roberson zfree_internal: 24054f538c74SRobert Watson uma_zfree_internal(zone, item, udata, SKIP_DTOR, ZFREE_STATFREE); 24068355f576SJeff Roberson 24078355f576SJeff Roberson return; 24088355f576SJeff Roberson } 24098355f576SJeff Roberson 24108355f576SJeff Roberson /* 24118355f576SJeff Roberson * Frees an item to an INTERNAL zone or allocates a free bucket 24128355f576SJeff Roberson * 24138355f576SJeff Roberson * Arguments: 24148355f576SJeff Roberson * zone The zone to free to 24158355f576SJeff Roberson * item The item we're freeing 24168355f576SJeff Roberson * udata User supplied data for the dtor 2417b23f72e9SBrian Feldman * skip Skip dtors and finis 24188355f576SJeff Roberson */ 24198355f576SJeff Roberson static void 2420b23f72e9SBrian Feldman uma_zfree_internal(uma_zone_t zone, void *item, void *udata, 24212019094aSRobert Watson enum zfreeskip skip, int flags) 24228355f576SJeff Roberson { 24238355f576SJeff Roberson uma_slab_t slab; 2424ab14a3f7SBrian Feldman uma_slabrefcnt_t slabref; 2425099a0e58SBosko Milekic uma_keg_t keg; 24268355f576SJeff Roberson u_int8_t *mem; 24278355f576SJeff Roberson u_int8_t freei; 24288355f576SJeff Roberson 2429099a0e58SBosko Milekic keg = zone->uz_keg; 2430099a0e58SBosko Milekic 2431b23f72e9SBrian Feldman if (skip < SKIP_DTOR && zone->uz_dtor) 2432099a0e58SBosko Milekic zone->uz_dtor(item, keg->uk_size, udata); 2433b23f72e9SBrian Feldman if (skip < SKIP_FINI && zone->uz_fini) 2434099a0e58SBosko Milekic zone->uz_fini(item, keg->uk_size); 2435bba739abSJeff Roberson 24368355f576SJeff Roberson ZONE_LOCK(zone); 24378355f576SJeff Roberson 24382019094aSRobert Watson if (flags & ZFREE_STATFAIL) 24392019094aSRobert Watson zone->uz_fails++; 2440f4ff923bSRobert Watson if (flags & ZFREE_STATFREE) 2441f4ff923bSRobert Watson zone->uz_frees++; 24422019094aSRobert Watson 2443099a0e58SBosko Milekic if (!(keg->uk_flags & UMA_ZONE_MALLOC)) { 24448355f576SJeff Roberson mem = (u_int8_t *)((unsigned long)item & (~UMA_SLAB_MASK)); 2445099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZONE_HASH) 2446099a0e58SBosko Milekic slab = hash_sfind(&keg->uk_hash, mem); 24478355f576SJeff Roberson else { 2448099a0e58SBosko Milekic mem += keg->uk_pgoff; 24498355f576SJeff Roberson slab = (uma_slab_t)mem; 24508355f576SJeff Roberson } 24518355f576SJeff Roberson } else { 24528355f576SJeff Roberson slab = (uma_slab_t)udata; 24538355f576SJeff Roberson } 24548355f576SJeff Roberson 24558355f576SJeff Roberson /* Do we need to remove from any lists? */ 2456099a0e58SBosko Milekic if (slab->us_freecount+1 == keg->uk_ipers) { 24578355f576SJeff Roberson LIST_REMOVE(slab, us_link); 2458099a0e58SBosko Milekic LIST_INSERT_HEAD(&keg->uk_free_slab, slab, us_link); 24598355f576SJeff Roberson } else if (slab->us_freecount == 0) { 24608355f576SJeff Roberson LIST_REMOVE(slab, us_link); 2461099a0e58SBosko Milekic LIST_INSERT_HEAD(&keg->uk_part_slab, slab, us_link); 24628355f576SJeff Roberson } 24638355f576SJeff Roberson 24648355f576SJeff Roberson /* Slab management stuff */ 24658355f576SJeff Roberson freei = ((unsigned long)item - (unsigned long)slab->us_data) 2466099a0e58SBosko Milekic / keg->uk_rsize; 24678355f576SJeff Roberson 2468639c9550SJeff Roberson #ifdef INVARIANTS 2469639c9550SJeff Roberson if (!skip) 2470639c9550SJeff Roberson uma_dbg_free(zone, slab, item); 24718355f576SJeff Roberson #endif 2472639c9550SJeff Roberson 2473ab14a3f7SBrian Feldman if (keg->uk_flags & UMA_ZONE_REFCNT) { 2474ab14a3f7SBrian Feldman slabref = (uma_slabrefcnt_t)slab; 2475ab14a3f7SBrian Feldman slabref->us_freelist[freei].us_item = slab->us_firstfree; 2476ab14a3f7SBrian Feldman } else { 2477099a0e58SBosko Milekic slab->us_freelist[freei].us_item = slab->us_firstfree; 2478ab14a3f7SBrian Feldman } 24798355f576SJeff Roberson slab->us_firstfree = freei; 24808355f576SJeff Roberson slab->us_freecount++; 24818355f576SJeff Roberson 24828355f576SJeff Roberson /* Zone statistics */ 2483099a0e58SBosko Milekic keg->uk_free++; 24848355f576SJeff Roberson 2485099a0e58SBosko Milekic if (keg->uk_flags & UMA_ZFLAG_FULL) { 2486099a0e58SBosko Milekic if (keg->uk_pages < keg->uk_maxpages) 2487099a0e58SBosko Milekic keg->uk_flags &= ~UMA_ZFLAG_FULL; 2488af7f9b97SJeff Roberson 248977380291SMohan Srinivasan /* 249077380291SMohan Srinivasan * We can handle one more allocation. Since we're clearing ZFLAG_FULL, 249177380291SMohan Srinivasan * wake up all procs blocked on pages. This should be uncommon, so 249277380291SMohan Srinivasan * keeping this simple for now (rather than adding count of blocked 249377380291SMohan Srinivasan * threads etc). 249477380291SMohan Srinivasan */ 249577380291SMohan Srinivasan wakeup(keg); 2496af7f9b97SJeff Roberson } 2497af7f9b97SJeff Roberson 2498605cbd6aSJeff Roberson ZONE_UNLOCK(zone); 24998355f576SJeff Roberson } 25008355f576SJeff Roberson 25018355f576SJeff Roberson /* See uma.h */ 25028355f576SJeff Roberson void 2503736ee590SJeff Roberson uma_zone_set_max(uma_zone_t zone, int nitems) 2504736ee590SJeff Roberson { 2505099a0e58SBosko Milekic uma_keg_t keg; 2506099a0e58SBosko Milekic 2507099a0e58SBosko Milekic keg = zone->uz_keg; 2508736ee590SJeff Roberson ZONE_LOCK(zone); 2509099a0e58SBosko Milekic if (keg->uk_ppera > 1) 2510099a0e58SBosko Milekic keg->uk_maxpages = nitems * keg->uk_ppera; 2511736ee590SJeff Roberson else 2512099a0e58SBosko Milekic keg->uk_maxpages = nitems / keg->uk_ipers; 251328bc4419SJeff Roberson 2514099a0e58SBosko Milekic if (keg->uk_maxpages * keg->uk_ipers < nitems) 2515099a0e58SBosko Milekic keg->uk_maxpages++; 251628bc4419SJeff Roberson 2517736ee590SJeff Roberson ZONE_UNLOCK(zone); 2518736ee590SJeff Roberson } 2519736ee590SJeff Roberson 2520736ee590SJeff Roberson /* See uma.h */ 2521736ee590SJeff Roberson void 2522099a0e58SBosko Milekic uma_zone_set_init(uma_zone_t zone, uma_init uminit) 2523099a0e58SBosko Milekic { 2524099a0e58SBosko Milekic ZONE_LOCK(zone); 2525099a0e58SBosko Milekic KASSERT(zone->uz_keg->uk_pages == 0, 2526099a0e58SBosko Milekic ("uma_zone_set_init on non-empty keg")); 2527099a0e58SBosko Milekic zone->uz_keg->uk_init = uminit; 2528099a0e58SBosko Milekic ZONE_UNLOCK(zone); 2529099a0e58SBosko Milekic } 2530099a0e58SBosko Milekic 2531099a0e58SBosko Milekic /* See uma.h */ 2532099a0e58SBosko Milekic void 2533099a0e58SBosko Milekic uma_zone_set_fini(uma_zone_t zone, uma_fini fini) 2534099a0e58SBosko Milekic { 2535099a0e58SBosko Milekic ZONE_LOCK(zone); 2536099a0e58SBosko Milekic KASSERT(zone->uz_keg->uk_pages == 0, 2537099a0e58SBosko Milekic ("uma_zone_set_fini on non-empty keg")); 2538099a0e58SBosko Milekic zone->uz_keg->uk_fini = fini; 2539099a0e58SBosko Milekic ZONE_UNLOCK(zone); 2540099a0e58SBosko Milekic } 2541099a0e58SBosko Milekic 2542099a0e58SBosko Milekic /* See uma.h */ 2543099a0e58SBosko Milekic void 2544099a0e58SBosko Milekic uma_zone_set_zinit(uma_zone_t zone, uma_init zinit) 2545099a0e58SBosko Milekic { 2546099a0e58SBosko Milekic ZONE_LOCK(zone); 2547099a0e58SBosko Milekic KASSERT(zone->uz_keg->uk_pages == 0, 2548099a0e58SBosko Milekic ("uma_zone_set_zinit on non-empty keg")); 2549099a0e58SBosko Milekic zone->uz_init = zinit; 2550099a0e58SBosko Milekic ZONE_UNLOCK(zone); 2551099a0e58SBosko Milekic } 2552099a0e58SBosko Milekic 2553099a0e58SBosko Milekic /* See uma.h */ 2554099a0e58SBosko Milekic void 2555099a0e58SBosko Milekic uma_zone_set_zfini(uma_zone_t zone, uma_fini zfini) 2556099a0e58SBosko Milekic { 2557099a0e58SBosko Milekic ZONE_LOCK(zone); 2558099a0e58SBosko Milekic KASSERT(zone->uz_keg->uk_pages == 0, 2559099a0e58SBosko Milekic ("uma_zone_set_zfini on non-empty keg")); 2560099a0e58SBosko Milekic zone->uz_fini = zfini; 2561099a0e58SBosko Milekic ZONE_UNLOCK(zone); 2562099a0e58SBosko Milekic } 2563099a0e58SBosko Milekic 2564099a0e58SBosko Milekic /* See uma.h */ 2565b23f72e9SBrian Feldman /* XXX uk_freef is not actually used with the zone locked */ 2566099a0e58SBosko Milekic void 25678355f576SJeff Roberson uma_zone_set_freef(uma_zone_t zone, uma_free freef) 25688355f576SJeff Roberson { 25698355f576SJeff Roberson ZONE_LOCK(zone); 2570099a0e58SBosko Milekic zone->uz_keg->uk_freef = freef; 25718355f576SJeff Roberson ZONE_UNLOCK(zone); 25728355f576SJeff Roberson } 25738355f576SJeff Roberson 25748355f576SJeff Roberson /* See uma.h */ 2575b23f72e9SBrian Feldman /* XXX uk_allocf is not actually used with the zone locked */ 25768355f576SJeff Roberson void 25778355f576SJeff Roberson uma_zone_set_allocf(uma_zone_t zone, uma_alloc allocf) 25788355f576SJeff Roberson { 25798355f576SJeff Roberson ZONE_LOCK(zone); 2580099a0e58SBosko Milekic zone->uz_keg->uk_flags |= UMA_ZFLAG_PRIVALLOC; 2581099a0e58SBosko Milekic zone->uz_keg->uk_allocf = allocf; 25828355f576SJeff Roberson ZONE_UNLOCK(zone); 25838355f576SJeff Roberson } 25848355f576SJeff Roberson 25858355f576SJeff Roberson /* See uma.h */ 25868355f576SJeff Roberson int 25878355f576SJeff Roberson uma_zone_set_obj(uma_zone_t zone, struct vm_object *obj, int count) 25888355f576SJeff Roberson { 2589099a0e58SBosko Milekic uma_keg_t keg; 25908355f576SJeff Roberson vm_offset_t kva; 2591099a0e58SBosko Milekic int pages; 25928355f576SJeff Roberson 2593099a0e58SBosko Milekic keg = zone->uz_keg; 2594099a0e58SBosko Milekic pages = count / keg->uk_ipers; 25958355f576SJeff Roberson 2596099a0e58SBosko Milekic if (pages * keg->uk_ipers < count) 25978355f576SJeff Roberson pages++; 2598a553d4b8SJeff Roberson 25995285558aSAlan Cox kva = kmem_alloc_nofault(kernel_map, pages * UMA_SLAB_SIZE); 26008355f576SJeff Roberson 2601d1f42ac2SAlan Cox if (kva == 0) 26028355f576SJeff Roberson return (0); 260364f051e9SJeff Roberson if (obj == NULL) { 2604a553d4b8SJeff Roberson obj = vm_object_allocate(OBJT_DEFAULT, 2605c7173f58SJeff Roberson pages); 260664f051e9SJeff Roberson } else { 26075285558aSAlan Cox VM_OBJECT_LOCK_INIT(obj, "uma object"); 26088355f576SJeff Roberson _vm_object_allocate(OBJT_DEFAULT, 2609c7173f58SJeff Roberson pages, obj); 261082774d80SAlan Cox } 2611a553d4b8SJeff Roberson ZONE_LOCK(zone); 2612099a0e58SBosko Milekic keg->uk_kva = kva; 2613099a0e58SBosko Milekic keg->uk_obj = obj; 2614099a0e58SBosko Milekic keg->uk_maxpages = pages; 2615099a0e58SBosko Milekic keg->uk_allocf = obj_alloc; 2616099a0e58SBosko Milekic keg->uk_flags |= UMA_ZONE_NOFREE | UMA_ZFLAG_PRIVALLOC; 26178355f576SJeff Roberson ZONE_UNLOCK(zone); 26188355f576SJeff Roberson return (1); 26198355f576SJeff Roberson } 26208355f576SJeff Roberson 26218355f576SJeff Roberson /* See uma.h */ 26228355f576SJeff Roberson void 26238355f576SJeff Roberson uma_prealloc(uma_zone_t zone, int items) 26248355f576SJeff Roberson { 26258355f576SJeff Roberson int slabs; 26268355f576SJeff Roberson uma_slab_t slab; 2627099a0e58SBosko Milekic uma_keg_t keg; 26288355f576SJeff Roberson 2629099a0e58SBosko Milekic keg = zone->uz_keg; 26308355f576SJeff Roberson ZONE_LOCK(zone); 2631099a0e58SBosko Milekic slabs = items / keg->uk_ipers; 2632099a0e58SBosko Milekic if (slabs * keg->uk_ipers < items) 26338355f576SJeff Roberson slabs++; 26348355f576SJeff Roberson while (slabs > 0) { 2635a163d034SWarner Losh slab = slab_zalloc(zone, M_WAITOK); 2636099a0e58SBosko Milekic LIST_INSERT_HEAD(&keg->uk_free_slab, slab, us_link); 26378355f576SJeff Roberson slabs--; 26388355f576SJeff Roberson } 26398355f576SJeff Roberson ZONE_UNLOCK(zone); 26408355f576SJeff Roberson } 26418355f576SJeff Roberson 26428355f576SJeff Roberson /* See uma.h */ 2643099a0e58SBosko Milekic u_int32_t * 2644099a0e58SBosko Milekic uma_find_refcnt(uma_zone_t zone, void *item) 2645099a0e58SBosko Milekic { 2646ab14a3f7SBrian Feldman uma_slabrefcnt_t slabref; 2647099a0e58SBosko Milekic uma_keg_t keg; 2648099a0e58SBosko Milekic u_int32_t *refcnt; 2649099a0e58SBosko Milekic int idx; 2650099a0e58SBosko Milekic 2651099a0e58SBosko Milekic keg = zone->uz_keg; 2652ab14a3f7SBrian Feldman slabref = (uma_slabrefcnt_t)vtoslab((vm_offset_t)item & 2653ab14a3f7SBrian Feldman (~UMA_SLAB_MASK)); 2654ab14a3f7SBrian Feldman KASSERT(slabref != NULL && slabref->us_keg->uk_flags & UMA_ZONE_REFCNT, 2655099a0e58SBosko Milekic ("uma_find_refcnt(): zone possibly not UMA_ZONE_REFCNT")); 2656ab14a3f7SBrian Feldman idx = ((unsigned long)item - (unsigned long)slabref->us_data) 2657099a0e58SBosko Milekic / keg->uk_rsize; 2658ab14a3f7SBrian Feldman refcnt = &slabref->us_freelist[idx].us_refcnt; 2659099a0e58SBosko Milekic return refcnt; 2660099a0e58SBosko Milekic } 2661099a0e58SBosko Milekic 2662099a0e58SBosko Milekic /* See uma.h */ 26638355f576SJeff Roberson void 26648355f576SJeff Roberson uma_reclaim(void) 26658355f576SJeff Roberson { 26668355f576SJeff Roberson #ifdef UMA_DEBUG 26678355f576SJeff Roberson printf("UMA: vm asked us to release pages!\n"); 26688355f576SJeff Roberson #endif 266986bbae32SJeff Roberson bucket_enable(); 26708355f576SJeff Roberson zone_foreach(zone_drain); 26718355f576SJeff Roberson /* 26728355f576SJeff Roberson * Some slabs may have been freed but this zone will be visited early 26738355f576SJeff Roberson * we visit again so that we can free pages that are empty once other 26748355f576SJeff Roberson * zones are drained. We have to do the same for buckets. 26758355f576SJeff Roberson */ 26769643769aSJeff Roberson zone_drain(slabzone); 2677099a0e58SBosko Milekic zone_drain(slabrefzone); 2678cae33c14SJeff Roberson bucket_zone_drain(); 26798355f576SJeff Roberson } 26808355f576SJeff Roberson 2681663b416fSJohn Baldwin /* See uma.h */ 2682663b416fSJohn Baldwin int 2683663b416fSJohn Baldwin uma_zone_exhausted(uma_zone_t zone) 2684663b416fSJohn Baldwin { 2685663b416fSJohn Baldwin int full; 2686663b416fSJohn Baldwin 2687663b416fSJohn Baldwin ZONE_LOCK(zone); 2688663b416fSJohn Baldwin full = (zone->uz_keg->uk_flags & UMA_ZFLAG_FULL); 2689663b416fSJohn Baldwin ZONE_UNLOCK(zone); 2690663b416fSJohn Baldwin return (full); 2691663b416fSJohn Baldwin } 2692663b416fSJohn Baldwin 26936c125b8dSMohan Srinivasan int 26946c125b8dSMohan Srinivasan uma_zone_exhausted_nolock(uma_zone_t zone) 26956c125b8dSMohan Srinivasan { 26966c125b8dSMohan Srinivasan return (zone->uz_keg->uk_flags & UMA_ZFLAG_FULL); 26976c125b8dSMohan Srinivasan } 26986c125b8dSMohan Srinivasan 26998355f576SJeff Roberson void * 27008355f576SJeff Roberson uma_large_malloc(int size, int wait) 27018355f576SJeff Roberson { 27028355f576SJeff Roberson void *mem; 27038355f576SJeff Roberson uma_slab_t slab; 27048355f576SJeff Roberson u_int8_t flags; 27058355f576SJeff Roberson 2706bbee39c6SJeff Roberson slab = uma_zalloc_internal(slabzone, NULL, wait); 27078355f576SJeff Roberson if (slab == NULL) 27088355f576SJeff Roberson return (NULL); 27098355f576SJeff Roberson mem = page_alloc(NULL, size, &flags, wait); 27108355f576SJeff Roberson if (mem) { 271199571dc3SJeff Roberson vsetslab((vm_offset_t)mem, slab); 27128355f576SJeff Roberson slab->us_data = mem; 27138355f576SJeff Roberson slab->us_flags = flags | UMA_SLAB_MALLOC; 27148355f576SJeff Roberson slab->us_size = size; 27158355f576SJeff Roberson } else { 27162019094aSRobert Watson uma_zfree_internal(slabzone, slab, NULL, SKIP_NONE, 2717f4ff923bSRobert Watson ZFREE_STATFAIL | ZFREE_STATFREE); 27188355f576SJeff Roberson } 27198355f576SJeff Roberson 27208355f576SJeff Roberson return (mem); 27218355f576SJeff Roberson } 27228355f576SJeff Roberson 27238355f576SJeff Roberson void 27248355f576SJeff Roberson uma_large_free(uma_slab_t slab) 27258355f576SJeff Roberson { 272699571dc3SJeff Roberson vsetobj((vm_offset_t)slab->us_data, kmem_object); 27278355f576SJeff Roberson page_free(slab->us_data, slab->us_size, slab->us_flags); 2728f4ff923bSRobert Watson uma_zfree_internal(slabzone, slab, NULL, SKIP_NONE, ZFREE_STATFREE); 27298355f576SJeff Roberson } 27308355f576SJeff Roberson 27318355f576SJeff Roberson void 27328355f576SJeff Roberson uma_print_stats(void) 27338355f576SJeff Roberson { 27348355f576SJeff Roberson zone_foreach(uma_print_zone); 27358355f576SJeff Roberson } 27368355f576SJeff Roberson 2737504d5de3SJeff Roberson static void 2738504d5de3SJeff Roberson slab_print(uma_slab_t slab) 2739504d5de3SJeff Roberson { 2740099a0e58SBosko Milekic printf("slab: keg %p, data %p, freecount %d, firstfree %d\n", 2741099a0e58SBosko Milekic slab->us_keg, slab->us_data, slab->us_freecount, 2742504d5de3SJeff Roberson slab->us_firstfree); 2743504d5de3SJeff Roberson } 2744504d5de3SJeff Roberson 2745504d5de3SJeff Roberson static void 2746504d5de3SJeff Roberson cache_print(uma_cache_t cache) 2747504d5de3SJeff Roberson { 2748504d5de3SJeff Roberson printf("alloc: %p(%d), free: %p(%d)\n", 2749504d5de3SJeff Roberson cache->uc_allocbucket, 2750504d5de3SJeff Roberson cache->uc_allocbucket?cache->uc_allocbucket->ub_cnt:0, 2751504d5de3SJeff Roberson cache->uc_freebucket, 2752504d5de3SJeff Roberson cache->uc_freebucket?cache->uc_freebucket->ub_cnt:0); 2753504d5de3SJeff Roberson } 2754504d5de3SJeff Roberson 27558355f576SJeff Roberson void 27568355f576SJeff Roberson uma_print_zone(uma_zone_t zone) 27578355f576SJeff Roberson { 2758504d5de3SJeff Roberson uma_cache_t cache; 2759099a0e58SBosko Milekic uma_keg_t keg; 2760504d5de3SJeff Roberson uma_slab_t slab; 2761504d5de3SJeff Roberson int i; 2762504d5de3SJeff Roberson 2763099a0e58SBosko Milekic keg = zone->uz_keg; 27648355f576SJeff Roberson printf("%s(%p) size %d(%d) flags %d ipers %d ppera %d out %d free %d\n", 2765099a0e58SBosko Milekic zone->uz_name, zone, keg->uk_size, keg->uk_rsize, keg->uk_flags, 2766099a0e58SBosko Milekic keg->uk_ipers, keg->uk_ppera, 2767099a0e58SBosko Milekic (keg->uk_ipers * keg->uk_pages) - keg->uk_free, keg->uk_free); 2768504d5de3SJeff Roberson printf("Part slabs:\n"); 2769099a0e58SBosko Milekic LIST_FOREACH(slab, &keg->uk_part_slab, us_link) 2770504d5de3SJeff Roberson slab_print(slab); 2771504d5de3SJeff Roberson printf("Free slabs:\n"); 2772099a0e58SBosko Milekic LIST_FOREACH(slab, &keg->uk_free_slab, us_link) 2773504d5de3SJeff Roberson slab_print(slab); 2774504d5de3SJeff Roberson printf("Full slabs:\n"); 2775099a0e58SBosko Milekic LIST_FOREACH(slab, &keg->uk_full_slab, us_link) 2776504d5de3SJeff Roberson slab_print(slab); 2777b6c71225SJohn Baldwin for (i = 0; i <= mp_maxid; i++) { 2778504d5de3SJeff Roberson if (CPU_ABSENT(i)) 2779504d5de3SJeff Roberson continue; 2780504d5de3SJeff Roberson cache = &zone->uz_cpu[i]; 2781504d5de3SJeff Roberson printf("CPU %d Cache:\n", i); 2782504d5de3SJeff Roberson cache_print(cache); 2783504d5de3SJeff Roberson } 27848355f576SJeff Roberson } 27858355f576SJeff Roberson 2786a0d4b0aeSRobert Watson #ifdef DDB 27878355f576SJeff Roberson /* 27887a52a97eSRobert Watson * Generate statistics across both the zone and its per-cpu cache's. Return 27897a52a97eSRobert Watson * desired statistics if the pointer is non-NULL for that statistic. 27907a52a97eSRobert Watson * 27917a52a97eSRobert Watson * Note: does not update the zone statistics, as it can't safely clear the 27927a52a97eSRobert Watson * per-CPU cache statistic. 27937a52a97eSRobert Watson * 27947a52a97eSRobert Watson * XXXRW: Following the uc_allocbucket and uc_freebucket pointers here isn't 27957a52a97eSRobert Watson * safe from off-CPU; we should modify the caches to track this information 27967a52a97eSRobert Watson * directly so that we don't have to. 27977a52a97eSRobert Watson */ 27987a52a97eSRobert Watson static void 27997a52a97eSRobert Watson uma_zone_sumstat(uma_zone_t z, int *cachefreep, u_int64_t *allocsp, 28007a52a97eSRobert Watson u_int64_t *freesp) 28017a52a97eSRobert Watson { 28027a52a97eSRobert Watson uma_cache_t cache; 28037a52a97eSRobert Watson u_int64_t allocs, frees; 28047a52a97eSRobert Watson int cachefree, cpu; 28057a52a97eSRobert Watson 28067a52a97eSRobert Watson allocs = frees = 0; 28077a52a97eSRobert Watson cachefree = 0; 28087a52a97eSRobert Watson for (cpu = 0; cpu <= mp_maxid; cpu++) { 28097a52a97eSRobert Watson if (CPU_ABSENT(cpu)) 28107a52a97eSRobert Watson continue; 28117a52a97eSRobert Watson cache = &z->uz_cpu[cpu]; 28127a52a97eSRobert Watson if (cache->uc_allocbucket != NULL) 28137a52a97eSRobert Watson cachefree += cache->uc_allocbucket->ub_cnt; 28147a52a97eSRobert Watson if (cache->uc_freebucket != NULL) 28157a52a97eSRobert Watson cachefree += cache->uc_freebucket->ub_cnt; 28167a52a97eSRobert Watson allocs += cache->uc_allocs; 28177a52a97eSRobert Watson frees += cache->uc_frees; 28187a52a97eSRobert Watson } 28197a52a97eSRobert Watson allocs += z->uz_allocs; 28207a52a97eSRobert Watson frees += z->uz_frees; 28217a52a97eSRobert Watson if (cachefreep != NULL) 28227a52a97eSRobert Watson *cachefreep = cachefree; 28237a52a97eSRobert Watson if (allocsp != NULL) 28247a52a97eSRobert Watson *allocsp = allocs; 28257a52a97eSRobert Watson if (freesp != NULL) 28267a52a97eSRobert Watson *freesp = frees; 28277a52a97eSRobert Watson } 2828a0d4b0aeSRobert Watson #endif /* DDB */ 28297a52a97eSRobert Watson 28307a52a97eSRobert Watson static int 28317a52a97eSRobert Watson sysctl_vm_zone_count(SYSCTL_HANDLER_ARGS) 28327a52a97eSRobert Watson { 28337a52a97eSRobert Watson uma_keg_t kz; 28347a52a97eSRobert Watson uma_zone_t z; 28357a52a97eSRobert Watson int count; 28367a52a97eSRobert Watson 28377a52a97eSRobert Watson count = 0; 28387a52a97eSRobert Watson mtx_lock(&uma_mtx); 28397a52a97eSRobert Watson LIST_FOREACH(kz, &uma_kegs, uk_link) { 28407a52a97eSRobert Watson LIST_FOREACH(z, &kz->uk_zones, uz_link) 28417a52a97eSRobert Watson count++; 28427a52a97eSRobert Watson } 28437a52a97eSRobert Watson mtx_unlock(&uma_mtx); 28447a52a97eSRobert Watson return (sysctl_handle_int(oidp, &count, 0, req)); 28457a52a97eSRobert Watson } 28467a52a97eSRobert Watson 28477a52a97eSRobert Watson static int 28487a52a97eSRobert Watson sysctl_vm_zone_stats(SYSCTL_HANDLER_ARGS) 28497a52a97eSRobert Watson { 28507a52a97eSRobert Watson struct uma_stream_header ush; 28517a52a97eSRobert Watson struct uma_type_header uth; 28527a52a97eSRobert Watson struct uma_percpu_stat ups; 28537a52a97eSRobert Watson uma_bucket_t bucket; 28547a52a97eSRobert Watson struct sbuf sbuf; 28557a52a97eSRobert Watson uma_cache_t cache; 28567a52a97eSRobert Watson uma_keg_t kz; 28577a52a97eSRobert Watson uma_zone_t z; 28587a52a97eSRobert Watson char *buffer; 28597a52a97eSRobert Watson int buflen, count, error, i; 28607a52a97eSRobert Watson 28617a52a97eSRobert Watson mtx_lock(&uma_mtx); 28627a52a97eSRobert Watson restart: 28637a52a97eSRobert Watson mtx_assert(&uma_mtx, MA_OWNED); 28647a52a97eSRobert Watson count = 0; 28657a52a97eSRobert Watson LIST_FOREACH(kz, &uma_kegs, uk_link) { 28667a52a97eSRobert Watson LIST_FOREACH(z, &kz->uk_zones, uz_link) 28677a52a97eSRobert Watson count++; 28687a52a97eSRobert Watson } 28697a52a97eSRobert Watson mtx_unlock(&uma_mtx); 28707a52a97eSRobert Watson 28717a52a97eSRobert Watson buflen = sizeof(ush) + count * (sizeof(uth) + sizeof(ups) * 2872ab3a57c0SRobert Watson (mp_maxid + 1)) + 1; 28737a52a97eSRobert Watson buffer = malloc(buflen, M_TEMP, M_WAITOK | M_ZERO); 28747a52a97eSRobert Watson 28757a52a97eSRobert Watson mtx_lock(&uma_mtx); 28767a52a97eSRobert Watson i = 0; 28777a52a97eSRobert Watson LIST_FOREACH(kz, &uma_kegs, uk_link) { 28787a52a97eSRobert Watson LIST_FOREACH(z, &kz->uk_zones, uz_link) 28797a52a97eSRobert Watson i++; 28807a52a97eSRobert Watson } 28817a52a97eSRobert Watson if (i > count) { 28827a52a97eSRobert Watson free(buffer, M_TEMP); 28837a52a97eSRobert Watson goto restart; 28847a52a97eSRobert Watson } 28857a52a97eSRobert Watson count = i; 28867a52a97eSRobert Watson 28877a52a97eSRobert Watson sbuf_new(&sbuf, buffer, buflen, SBUF_FIXEDLEN); 28887a52a97eSRobert Watson 28897a52a97eSRobert Watson /* 28907a52a97eSRobert Watson * Insert stream header. 28917a52a97eSRobert Watson */ 28927a52a97eSRobert Watson bzero(&ush, sizeof(ush)); 28937a52a97eSRobert Watson ush.ush_version = UMA_STREAM_VERSION; 2894ab3a57c0SRobert Watson ush.ush_maxcpus = (mp_maxid + 1); 28957a52a97eSRobert Watson ush.ush_count = count; 28967a52a97eSRobert Watson if (sbuf_bcat(&sbuf, &ush, sizeof(ush)) < 0) { 28977a52a97eSRobert Watson mtx_unlock(&uma_mtx); 28987a52a97eSRobert Watson error = ENOMEM; 28997a52a97eSRobert Watson goto out; 29007a52a97eSRobert Watson } 29017a52a97eSRobert Watson 29027a52a97eSRobert Watson LIST_FOREACH(kz, &uma_kegs, uk_link) { 29037a52a97eSRobert Watson LIST_FOREACH(z, &kz->uk_zones, uz_link) { 29047a52a97eSRobert Watson bzero(&uth, sizeof(uth)); 29057a52a97eSRobert Watson ZONE_LOCK(z); 2906cbbb4a00SRobert Watson strlcpy(uth.uth_name, z->uz_name, UTH_MAX_NAME); 29077a52a97eSRobert Watson uth.uth_align = kz->uk_align; 29087a52a97eSRobert Watson uth.uth_pages = kz->uk_pages; 29097a52a97eSRobert Watson uth.uth_keg_free = kz->uk_free; 29107a52a97eSRobert Watson uth.uth_size = kz->uk_size; 29117a52a97eSRobert Watson uth.uth_rsize = kz->uk_rsize; 29127a52a97eSRobert Watson uth.uth_maxpages = kz->uk_maxpages; 29137a52a97eSRobert Watson if (kz->uk_ppera > 1) 29147a52a97eSRobert Watson uth.uth_limit = kz->uk_maxpages / 29157a52a97eSRobert Watson kz->uk_ppera; 29167a52a97eSRobert Watson else 29177a52a97eSRobert Watson uth.uth_limit = kz->uk_maxpages * 29187a52a97eSRobert Watson kz->uk_ipers; 2919cbbb4a00SRobert Watson 2920cbbb4a00SRobert Watson /* 2921cbbb4a00SRobert Watson * A zone is secondary is it is not the first entry 2922cbbb4a00SRobert Watson * on the keg's zone list. 2923cbbb4a00SRobert Watson */ 2924cbbb4a00SRobert Watson if ((kz->uk_flags & UMA_ZONE_SECONDARY) && 2925cbbb4a00SRobert Watson (LIST_FIRST(&kz->uk_zones) != z)) 2926cbbb4a00SRobert Watson uth.uth_zone_flags = UTH_ZONE_SECONDARY; 2927cbbb4a00SRobert Watson 29287a52a97eSRobert Watson LIST_FOREACH(bucket, &z->uz_full_bucket, ub_link) 29297a52a97eSRobert Watson uth.uth_zone_free += bucket->ub_cnt; 29307a52a97eSRobert Watson uth.uth_allocs = z->uz_allocs; 29317a52a97eSRobert Watson uth.uth_frees = z->uz_frees; 29322019094aSRobert Watson uth.uth_fails = z->uz_fails; 29337a52a97eSRobert Watson if (sbuf_bcat(&sbuf, &uth, sizeof(uth)) < 0) { 29342450bbb8SRobert Watson ZONE_UNLOCK(z); 29357a52a97eSRobert Watson mtx_unlock(&uma_mtx); 29367a52a97eSRobert Watson error = ENOMEM; 29377a52a97eSRobert Watson goto out; 29387a52a97eSRobert Watson } 29397a52a97eSRobert Watson /* 29402450bbb8SRobert Watson * While it is not normally safe to access the cache 29412450bbb8SRobert Watson * bucket pointers while not on the CPU that owns the 29422450bbb8SRobert Watson * cache, we only allow the pointers to be exchanged 29432450bbb8SRobert Watson * without the zone lock held, not invalidated, so 29442450bbb8SRobert Watson * accept the possible race associated with bucket 29452450bbb8SRobert Watson * exchange during monitoring. 29467a52a97eSRobert Watson */ 2947ab3a57c0SRobert Watson for (i = 0; i < (mp_maxid + 1); i++) { 29487a52a97eSRobert Watson bzero(&ups, sizeof(ups)); 29497a52a97eSRobert Watson if (kz->uk_flags & UMA_ZFLAG_INTERNAL) 29507a52a97eSRobert Watson goto skip; 2951082dc776SRobert Watson if (CPU_ABSENT(i)) 2952082dc776SRobert Watson goto skip; 29537a52a97eSRobert Watson cache = &z->uz_cpu[i]; 29547a52a97eSRobert Watson if (cache->uc_allocbucket != NULL) 29557a52a97eSRobert Watson ups.ups_cache_free += 29567a52a97eSRobert Watson cache->uc_allocbucket->ub_cnt; 29577a52a97eSRobert Watson if (cache->uc_freebucket != NULL) 29587a52a97eSRobert Watson ups.ups_cache_free += 29597a52a97eSRobert Watson cache->uc_freebucket->ub_cnt; 29607a52a97eSRobert Watson ups.ups_allocs = cache->uc_allocs; 29617a52a97eSRobert Watson ups.ups_frees = cache->uc_frees; 29627a52a97eSRobert Watson skip: 29637a52a97eSRobert Watson if (sbuf_bcat(&sbuf, &ups, sizeof(ups)) < 0) { 29642450bbb8SRobert Watson ZONE_UNLOCK(z); 29657a52a97eSRobert Watson mtx_unlock(&uma_mtx); 29667a52a97eSRobert Watson error = ENOMEM; 29677a52a97eSRobert Watson goto out; 29687a52a97eSRobert Watson } 29697a52a97eSRobert Watson } 29702450bbb8SRobert Watson ZONE_UNLOCK(z); 29717a52a97eSRobert Watson } 29727a52a97eSRobert Watson } 29737a52a97eSRobert Watson mtx_unlock(&uma_mtx); 29747a52a97eSRobert Watson sbuf_finish(&sbuf); 29757a52a97eSRobert Watson error = SYSCTL_OUT(req, sbuf_data(&sbuf), sbuf_len(&sbuf)); 29767a52a97eSRobert Watson out: 29777a52a97eSRobert Watson free(buffer, M_TEMP); 29787a52a97eSRobert Watson return (error); 29797a52a97eSRobert Watson } 298048c5777eSRobert Watson 298148c5777eSRobert Watson #ifdef DDB 298248c5777eSRobert Watson DB_SHOW_COMMAND(uma, db_show_uma) 298348c5777eSRobert Watson { 298448c5777eSRobert Watson u_int64_t allocs, frees; 298548c5777eSRobert Watson uma_bucket_t bucket; 298648c5777eSRobert Watson uma_keg_t kz; 298748c5777eSRobert Watson uma_zone_t z; 298848c5777eSRobert Watson int cachefree; 298948c5777eSRobert Watson 2990ae4e9636SRobert Watson db_printf("%18s %8s %8s %8s %12s\n", "Zone", "Size", "Used", "Free", 2991ae4e9636SRobert Watson "Requests"); 299248c5777eSRobert Watson LIST_FOREACH(kz, &uma_kegs, uk_link) { 299348c5777eSRobert Watson LIST_FOREACH(z, &kz->uk_zones, uz_link) { 299448c5777eSRobert Watson if (kz->uk_flags & UMA_ZFLAG_INTERNAL) { 299548c5777eSRobert Watson allocs = z->uz_allocs; 299648c5777eSRobert Watson frees = z->uz_frees; 299748c5777eSRobert Watson cachefree = 0; 299848c5777eSRobert Watson } else 299948c5777eSRobert Watson uma_zone_sumstat(z, &cachefree, &allocs, 300048c5777eSRobert Watson &frees); 300148c5777eSRobert Watson if (!((kz->uk_flags & UMA_ZONE_SECONDARY) && 300248c5777eSRobert Watson (LIST_FIRST(&kz->uk_zones) != z))) 300348c5777eSRobert Watson cachefree += kz->uk_free; 300448c5777eSRobert Watson LIST_FOREACH(bucket, &z->uz_full_bucket, ub_link) 300548c5777eSRobert Watson cachefree += bucket->ub_cnt; 3006ae4e9636SRobert Watson db_printf("%18s %8ju %8jd %8d %12ju\n", z->uz_name, 3007ae4e9636SRobert Watson (uintmax_t)kz->uk_size, 3008ae4e9636SRobert Watson (intmax_t)(allocs - frees), cachefree, 3009ae4e9636SRobert Watson (uintmax_t)allocs); 301048c5777eSRobert Watson } 301148c5777eSRobert Watson } 301248c5777eSRobert Watson } 301348c5777eSRobert Watson #endif 3014