/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * * Copyright 2012 Joyent, Inc. All rights reserved. * * Copyright 2006-2008 Message Systems, Inc. All rights reserved. */ #ifndef _UMEM_IMPL_H #define _UMEM_IMPL_H /* #pragma ident "@(#)umem_impl.h 1.6 05/06/08 SMI" */ #include #ifdef HAVE_SYS_SYSMACROS_H #include #endif #if HAVE_SYS_TIME_H #include #endif #include #ifdef HAVE_THREAD_H # include #else # include "sol_compat.h" #endif #ifdef __cplusplus extern "C" { #endif /* * umem memory allocator: implementation-private data structures */ /* * Internal flags for umem_cache_create */ #define UMC_QCACHE 0x00100000 #define UMC_INTERNAL 0x80000000 /* * Cache flags */ #define UMF_AUDIT 0x00000001 /* transaction auditing */ #define UMF_DEADBEEF 0x00000002 /* deadbeef checking */ #define UMF_REDZONE 0x00000004 /* redzone checking */ #define UMF_CONTENTS 0x00000008 /* freed-buffer content logging */ #define UMF_CHECKSIGNAL 0x00000010 /* abort when in signal context */ #define UMF_NOMAGAZINE 0x00000020 /* disable per-cpu magazines */ #define UMF_FIREWALL 0x00000040 /* put all bufs before unmapped pages */ #define UMF_LITE 0x00000100 /* lightweight debugging */ #define UMF_HASH 0x00000200 /* cache has hash table */ #define UMF_RANDOMIZE 0x00000400 /* randomize other umem_flags */ #define UMF_PTC 0x00000800 /* cache has per-thread caching */ #define UMF_BUFTAG (UMF_DEADBEEF | UMF_REDZONE) #define UMF_TOUCH (UMF_BUFTAG | UMF_LITE | UMF_CONTENTS) #define UMF_RANDOM (UMF_TOUCH | UMF_AUDIT | UMF_NOMAGAZINE) #define UMF_DEBUG (UMF_RANDOM | UMF_FIREWALL) #define UMEM_STACK_DEPTH umem_stack_depth #define UMEM_FREE_PATTERN 0xdeadbeefdeadbeefULL #define UMEM_UNINITIALIZED_PATTERN 0xbaddcafebaddcafeULL #define UMEM_REDZONE_PATTERN 0xfeedfacefeedfaceULL #define UMEM_REDZONE_BYTE 0xbb #define UMEM_FATAL_FLAGS (UMEM_NOFAIL) #define UMEM_SLEEP_FLAGS (0) /* * Redzone size encodings for umem_alloc() / umem_free(). We encode the * allocation size, rather than storing it directly, so that umem_free() * can distinguish frees of the wrong size from redzone violations. */ #define UMEM_SIZE_ENCODE(x) (251 * (x) + 1) #define UMEM_SIZE_DECODE(x) ((x) / 251) #define UMEM_SIZE_VALID(x) ((x) % 251 == 1) /* * The bufctl (buffer control) structure keeps some minimal information * about each buffer: its address, its slab, and its current linkage, * which is either on the slab's freelist (if the buffer is free), or * on the cache's buf-to-bufctl hash table (if the buffer is allocated). * In the case of non-hashed, or "raw", caches (the common case), only * the freelist linkage is necessary: the buffer address is at a fixed * offset from the bufctl address, and the slab is at the end of the page. * * NOTE: bc_next must be the first field; raw buffers have linkage only. */ typedef struct umem_bufctl { struct umem_bufctl *bc_next; /* next bufctl struct */ void *bc_addr; /* address of buffer */ struct umem_slab *bc_slab; /* controlling slab */ } umem_bufctl_t; /* * The UMF_AUDIT version of the bufctl structure. The beginning of this * structure must be identical to the normal bufctl structure so that * pointers are interchangeable. */ #define UMEM_BUFCTL_AUDIT_SIZE_DEPTH(frames) \ ((size_t)(&((umem_bufctl_audit_t *)0)->bc_stack[frames])) /* * umem_bufctl_audits must be allocated from a UMC_NOHASH cache, so we * require that 2 of them, plus 2 buftags, plus a umem_slab_t, all fit on * a single page. * * For ILP32, this is about 1000 frames. * For LP64, this is about 490 frames. */ #define UMEM_BUFCTL_AUDIT_ALIGN 32 #define UMEM_BUFCTL_AUDIT_MAX_SIZE \ (P2ALIGN((PAGESIZE - sizeof (umem_slab_t))/2 - \ sizeof (umem_buftag_t), UMEM_BUFCTL_AUDIT_ALIGN)) #define UMEM_MAX_STACK_DEPTH \ ((UMEM_BUFCTL_AUDIT_MAX_SIZE - \ UMEM_BUFCTL_AUDIT_SIZE_DEPTH(0)) / sizeof (uintptr_t)) typedef struct umem_bufctl_audit { struct umem_bufctl *bc_next; /* next bufctl struct */ void *bc_addr; /* address of buffer */ struct umem_slab *bc_slab; /* controlling slab */ umem_cache_t *bc_cache; /* controlling cache */ hrtime_t bc_timestamp; /* transaction time */ thread_t bc_thread; /* thread doing transaction */ struct umem_bufctl *bc_lastlog; /* last log entry */ void *bc_contents; /* contents at last free */ int bc_depth; /* stack depth */ uintptr_t bc_stack[1]; /* pc stack */ } umem_bufctl_audit_t; #define UMEM_LOCAL_BUFCTL_AUDIT(bcpp) \ *(bcpp) = (umem_bufctl_audit_t *) \ alloca(UMEM_BUFCTL_AUDIT_SIZE) #define UMEM_BUFCTL_AUDIT_SIZE \ UMEM_BUFCTL_AUDIT_SIZE_DEPTH(UMEM_STACK_DEPTH) /* * A umem_buftag structure is appended to each buffer whenever any of the * UMF_BUFTAG flags (UMF_DEADBEEF, UMF_REDZONE, UMF_VERIFY) are set. */ typedef struct umem_buftag { uint64_t bt_redzone; /* 64-bit redzone pattern */ umem_bufctl_t *bt_bufctl; /* bufctl */ intptr_t bt_bxstat; /* bufctl ^ (alloc/free) */ } umem_buftag_t; #define UMEM_BUFTAG(cp, buf) \ ((umem_buftag_t *)((char *)(buf) + (cp)->cache_buftag)) #define UMEM_BUFCTL(cp, buf) \ ((umem_bufctl_t *)((char *)(buf) + (cp)->cache_bufctl)) #define UMEM_BUF(cp, bcp) \ ((void *)((char *)(bcp) - (cp)->cache_bufctl)) #define UMEM_SLAB(cp, buf) \ ((umem_slab_t *)P2END((uintptr_t)(buf), (cp)->cache_slabsize) - 1) #define UMEM_CPU_CACHE(cp, cpu) \ (umem_cpu_cache_t *)((char *)cp + cpu->cpu_cache_offset) #define UMEM_MAGAZINE_VALID(cp, mp) \ (((umem_slab_t *)P2END((uintptr_t)(mp), PAGESIZE) - 1)->slab_cache == \ (cp)->cache_magtype->mt_cache) #define UMEM_SLAB_MEMBER(sp, buf) \ ((size_t)(buf) - (size_t)(sp)->slab_base < \ (sp)->slab_cache->cache_slabsize) #define UMEM_BUFTAG_ALLOC 0xa110c8edUL #define UMEM_BUFTAG_FREE 0xf4eef4eeUL typedef struct umem_slab { struct umem_cache *slab_cache; /* controlling cache */ void *slab_base; /* base of allocated memory */ struct umem_slab *slab_next; /* next slab on freelist */ struct umem_slab *slab_prev; /* prev slab on freelist */ struct umem_bufctl *slab_head; /* first free buffer */ long slab_refcnt; /* outstanding allocations */ long slab_chunks; /* chunks (bufs) in this slab */ } umem_slab_t; #define UMEM_HASH_INITIAL 64 #define UMEM_HASH(cp, buf) \ ((cp)->cache_hash_table + \ (((uintptr_t)(buf) >> (cp)->cache_hash_shift) & (cp)->cache_hash_mask)) typedef struct umem_magazine { void *mag_next; void *mag_round[1]; /* one or more rounds */ } umem_magazine_t; /* * The magazine types for fast per-cpu allocation */ typedef struct umem_magtype { int mt_magsize; /* magazine size (number of rounds) */ int mt_align; /* magazine alignment */ size_t mt_minbuf; /* all smaller buffers qualify */ size_t mt_maxbuf; /* no larger buffers qualify */ umem_cache_t *mt_cache; /* magazine cache */ } umem_magtype_t; #if (defined(__PTHREAD_MUTEX_SIZE__) && __PTHREAD_MUTEX_SIZE__ >= 24) || defined(UMEM_PTHREAD_MUTEX_TOO_BIG) #define UMEM_CPU_CACHE_SIZE 128 /* must be power of 2 */ #else #define UMEM_CPU_CACHE_SIZE 64 /* must be power of 2 */ #endif #define UMEM_CPU_PAD (UMEM_CPU_CACHE_SIZE - sizeof (mutex_t) - \ 2 * sizeof (uint_t) - 2 * sizeof (void *) - 4 * sizeof (int)) #define UMEM_CACHE_SIZE(ncpus) \ ((size_t)(&((umem_cache_t *)0)->cache_cpu[ncpus])) typedef struct umem_cpu_cache { mutex_t cc_lock; /* protects this cpu's local cache */ uint_t cc_alloc; /* allocations from this cpu */ uint_t cc_free; /* frees to this cpu */ umem_magazine_t *cc_loaded; /* the currently loaded magazine */ umem_magazine_t *cc_ploaded; /* the previously loaded magazine */ int cc_rounds; /* number of objects in loaded mag */ int cc_prounds; /* number of objects in previous mag */ int cc_magsize; /* number of rounds in a full mag */ int cc_flags; /* CPU-local copy of cache_flags */ #if (!defined(_LP64) || defined(UMEM_PTHREAD_MUTEX_TOO_BIG)) && !defined(_WIN32) /* on win32, UMEM_CPU_PAD evaluates to zero, and the MS compiler * won't allow static initialization of arrays containing structures * that contain zero size arrays */ char cc_pad[UMEM_CPU_PAD]; /* for nice alignment (32-bit) */ #endif } umem_cpu_cache_t; /* * The magazine lists used in the depot. */ typedef struct umem_maglist { umem_magazine_t *ml_list; /* magazine list */ long ml_total; /* number of magazines */ long ml_min; /* min since last update */ long ml_reaplimit; /* max reapable magazines */ uint64_t ml_alloc; /* allocations from this list */ } umem_maglist_t; #define UMEM_CACHE_NAMELEN 31 struct umem_cache { /* * Statistics */ uint64_t cache_slab_create; /* slab creates */ uint64_t cache_slab_destroy; /* slab destroys */ uint64_t cache_slab_alloc; /* slab layer allocations */ uint64_t cache_slab_free; /* slab layer frees */ uint64_t cache_alloc_fail; /* total failed allocations */ uint64_t cache_buftotal; /* total buffers */ uint64_t cache_bufmax; /* max buffers ever */ uint64_t cache_rescale; /* # of hash table rescales */ uint64_t cache_lookup_depth; /* hash lookup depth */ uint64_t cache_depot_contention; /* mutex contention count */ uint64_t cache_depot_contention_prev; /* previous snapshot */ /* * Cache properties */ char cache_name[UMEM_CACHE_NAMELEN + 1]; size_t cache_bufsize; /* object size */ size_t cache_align; /* object alignment */ umem_constructor_t *cache_constructor; umem_destructor_t *cache_destructor; umem_reclaim_t *cache_reclaim; void *cache_private; /* opaque arg to callbacks */ vmem_t *cache_arena; /* vmem source for slabs */ int cache_cflags; /* cache creation flags */ int cache_flags; /* various cache state info */ int cache_uflags; /* UMU_* flags */ uint32_t cache_mtbf; /* induced alloc failure rate */ umem_cache_t *cache_next; /* forward cache linkage */ umem_cache_t *cache_prev; /* backward cache linkage */ umem_cache_t *cache_unext; /* next in update list */ umem_cache_t *cache_uprev; /* prev in update list */ uint32_t cache_cpu_mask; /* mask for cpu offset */ /* * Slab layer */ mutex_t cache_lock; /* protects slab layer */ size_t cache_chunksize; /* buf + alignment [+ debug] */ size_t cache_slabsize; /* size of a slab */ size_t cache_bufctl; /* buf-to-bufctl distance */ size_t cache_buftag; /* buf-to-buftag distance */ size_t cache_verify; /* bytes to verify */ size_t cache_contents; /* bytes of saved content */ size_t cache_color; /* next slab color */ size_t cache_mincolor; /* maximum slab color */ size_t cache_maxcolor; /* maximum slab color */ size_t cache_hash_shift; /* get to interesting bits */ size_t cache_hash_mask; /* hash table mask */ umem_slab_t *cache_freelist; /* slab free list */ umem_slab_t cache_nullslab; /* end of freelist marker */ umem_cache_t *cache_bufctl_cache; /* source of bufctls */ umem_bufctl_t **cache_hash_table; /* hash table base */ /* * Depot layer */ mutex_t cache_depot_lock; /* protects depot */ umem_magtype_t *cache_magtype; /* magazine type */ umem_maglist_t cache_full; /* full magazines */ umem_maglist_t cache_empty; /* empty magazines */ /* * Per-CPU layer */ umem_cpu_cache_t cache_cpu[1]; /* cache_cpu_mask + 1 entries */ }; typedef struct umem_cpu_log_header { mutex_t clh_lock; char *clh_current; size_t clh_avail; int clh_chunk; int clh_hits; char clh_pad[UMEM_CPU_CACHE_SIZE - sizeof (mutex_t) - sizeof (char *) - sizeof (size_t) - 2 * sizeof (int)]; } umem_cpu_log_header_t; typedef struct umem_log_header { mutex_t lh_lock; char *lh_base; int *lh_free; size_t lh_chunksize; int lh_nchunks; int lh_head; int lh_tail; int lh_hits; umem_cpu_log_header_t lh_cpu[1]; /* actually umem_max_ncpus */ } umem_log_header_t; typedef struct umem_cpu { uint32_t cpu_cache_offset; uint32_t cpu_number; } umem_cpu_t; #define UMEM_MAXBUF 131072 #define UMEM_ALIGN 8 /* min guaranteed alignment */ #define UMEM_ALIGN_SHIFT 3 /* log2(UMEM_ALIGN) */ #define UMEM_VOID_FRACTION 8 /* never waste more than 1/8 of slab */ /* * For 64 bits, buffers >= 16 bytes must be 16-byte aligned */ #ifdef _LP64 #define UMEM_SECOND_ALIGN 16 #else #define UMEM_SECOND_ALIGN UMEM_ALIGN #endif #define MALLOC_MAGIC 0x3a10c000 /* 8-byte tag */ #define MEMALIGN_MAGIC 0x3e3a1000 #ifdef _LP64 #define MALLOC_SECOND_MAGIC 0x16ba7000 /* 8-byte tag, 16-aligned */ #define MALLOC_OVERSIZE_MAGIC 0x06e47000 /* 16-byte tag, _LP64 */ #endif #define UMEM_MALLOC_ENCODE(type, sz) (uint32_t)((type) - (sz)) #define UMEM_MALLOC_DECODE(stat, sz) (uint32_t)((stat) + (sz)) #define UMEM_FREE_PATTERN_32 (uint32_t)(UMEM_FREE_PATTERN) #define UMU_MAGAZINE_RESIZE 0x00000001 #define UMU_HASH_RESCALE 0x00000002 #define UMU_REAP 0x00000004 #define UMU_NOTIFY 0x08000000 #define UMU_ACTIVE 0x80000000 #define UMEM_READY_INIT_FAILED -1 #define UMEM_READY_STARTUP 1 #define UMEM_READY_INITING 2 #define UMEM_READY 3 #ifdef UMEM_STANDALONE extern void umem_startup(caddr_t, size_t, size_t, caddr_t, caddr_t); extern int umem_add(caddr_t, size_t); #endif /* * Private interface with libc for tcumem. */ extern uintptr_t _tmem_get_base(void); extern int _tmem_get_nentries(void); extern void _tmem_set_cleanup(void(*)(void *, int)); #ifdef __cplusplus } #endif #endif /* _UMEM_IMPL_H */