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1/*
2 * Copyright (c) 2006-2015 Apple Inc. All rights reserved.
3 *
4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5 *
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. The rights granted to you under the License
10 * may not be used to create, or enable the creation or redistribution of,
11 * unlawful or unlicensed copies of an Apple operating system, or to
12 * circumvent, violate, or enable the circumvention or violation of, any
13 * terms of an Apple operating system software license agreement.
14 *
15 * Please obtain a copy of the License at
16 * http://www.opensource.apple.com/apsl/ and read it before using this file.
17 *
18 * The Original Code and all software distributed under the License are
19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23 * Please see the License for the specific language governing rights and
24 * limitations under the License.
25 *
26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27 */
28#ifndef _SYS_MCACHE_H
29#define _SYS_MCACHE_H
30
31#ifdef KERNEL_PRIVATE
32
33#ifdef __cplusplus
34extern "C" {
35#endif
36
37#include <sys/types.h>
38#include <sys/queue.h>
39#include <mach/boolean.h>
40#include <mach/branch_predicates.h>
41#include <kern/locks.h>
42#include <libkern/OSAtomic.h>
43
44#ifdef ASSERT
45#undef ASSERT
46#endif
47
48#ifdef VERIFY
49#undef VERIFY
50#endif
51
52/*
53 * Unlike VERIFY(), ASSERT() is evaluated only in DEBUG build.
54 */
55#define VERIFY(EX) \
56 ((void)(__probable((EX)) || assfail(#EX, __FILE__, __LINE__)))
57#if DEBUG
58#define ASSERT(EX) VERIFY(EX)
59#else
60#define ASSERT(EX) ((void)0)
61#endif
62
63/*
64 * Compile time assert; this should be on its own someday.
65 */
66#define _CASSERT(x) _Static_assert(x, "compile-time assertion failed")
67
68/*
69 * Atomic macros; these should be on their own someday.
70 */
71#define atomic_add_16_ov(a, n) \
72 ((u_int16_t) OSAddAtomic16(n, (volatile SInt16 *)a))
73
74#define atomic_add_16(a, n) \
75 ((void) atomic_add_16_ov(a, n))
76
77#define atomic_add_32_ov(a, n) \
78 ((u_int32_t) OSAddAtomic(n, (volatile SInt32 *)a))
79
80#define atomic_add_32(a, n) \
81 ((void) atomic_add_32_ov(a, n))
82
83#define atomic_add_64_ov(a, n) \
84 ((u_int64_t) OSAddAtomic64(n, (volatile SInt64 *)a))
85
86#define atomic_add_64(a, n) \
87 ((void) atomic_add_64_ov(a, n))
88
89#define atomic_test_set_32(a, o, n) \
90 OSCompareAndSwap(o, n, (volatile UInt32 *)a)
91
92#define atomic_set_32(a, n) do { \
93 while (!atomic_test_set_32(a, *a, n)) \
94 ; \
95} while (0)
96
97#define atomic_test_set_64(a, o, n) \
98 OSCompareAndSwap64(o, n, (volatile UInt64 *)a)
99
100#define atomic_set_64(a, n) do { \
101 while (!atomic_test_set_64(a, *a, n)) \
102 ; \
103} while (0)
104
105#if defined(__LP64__)
106#define atomic_get_64(n, a) do { \
107 (n) = *(a); \
108} while (0)
109#else
110#define atomic_get_64(n, a) do { \
111 (n) = atomic_add_64_ov(a, 0); \
112} while (0)
113#endif /* __LP64__ */
114
115#define atomic_test_set_ptr(a, o, n) \
116 OSCompareAndSwapPtr(o, n, (void * volatile *)a)
117
118#define atomic_set_ptr(a, n) do { \
119 while (!atomic_test_set_ptr(a, *a, n)) \
120 ; \
121} while (0)
122
123#define atomic_or_8_ov(a, n) \
124 ((u_int8_t) OSBitOrAtomic8(n, (volatile UInt8 *)a))
125
126#define atomic_or_8(a, n) \
127 ((void) atomic_or_8_ov(a, n))
128
129#define atomic_bitset_8(a, n) \
130 atomic_or_8(a, n)
131
132#define atomic_or_16_ov(a, n) \
133 ((u_int16_t) OSBitOrAtomic16(n, (volatile UInt16 *)a))
134
135#define atomic_or_16(a, n) \
136 ((void) atomic_or_16_ov(a, n))
137
138#define atomic_bitset_16(a, n) \
139 atomic_or_16(a, n)
140
141#define atomic_or_32_ov(a, n) \
142 ((u_int32_t) OSBitOrAtomic(n, (volatile UInt32 *)a))
143
144#define atomic_or_32(a, n) \
145 ((void) atomic_or_32_ov(a, n))
146
147#define atomic_bitset_32(a, n) \
148 atomic_or_32(a, n)
149
150#define atomic_and_8_ov(a, n) \
151 ((u_int8_t) OSBitAndAtomic8(n, (volatile UInt8 *)a))
152
153#define atomic_and_8(a, n) \
154 ((void) atomic_and_8_ov(a, n))
155
156#define atomic_bitclear_8(a, n) \
157 atomic_and_8(a, ~(n))
158
159#define atomic_and_16_ov(a, n) \
160 ((u_int16_t) OSBitAndAtomic16(n, (volatile UInt16 *)a))
161
162#define atomic_and_16(a, n) \
163 ((void) atomic_and_16_ov(a, n))
164
165#define atomic_bitclear_16(a, n) \
166 atomic_and_16(a, ~(n))
167
168#define atomic_and_32_ov(a, n) \
169 ((u_int32_t) OSBitAndAtomic(n, (volatile UInt32 *)a))
170
171#define atomic_and_32(a, n) \
172 ((void) atomic_and_32_ov(a, n))
173
174#define atomic_bitclear_32(a, n) \
175 atomic_and_32(a, ~(n))
176
177#define membar_sync OSMemoryBarrier
178
179/*
180 * Use CPU_CACHE_LINE_SIZE instead of MAX_CPU_CACHE_LINE_SIZE, unless
181 * wasting space is of no concern.
182 */
183#define MAX_CPU_CACHE_LINE_SIZE 128
184#define CPU_CACHE_LINE_SIZE mcache_cache_line_size()
185
186#ifndef IS_P2ALIGNED
187#define IS_P2ALIGNED(v, a) \
188 ((((uintptr_t)(v)) & ((uintptr_t)(a) - 1)) == 0)
189#endif /* IS_P2ALIGNED */
190
191#ifndef P2ROUNDUP
192#define P2ROUNDUP(x, align) \
193 (-(-((uintptr_t)(x)) & -((uintptr_t)align)))
194#endif /* P2ROUNDUP */
195
196#ifndef P2ROUNDDOWN
197#define P2ROUNDDOWN(x, align) \
198 (((uintptr_t)(x)) & ~((uintptr_t)(align) - 1))
199#endif /* P2ROUNDDOWN */
200
201#define MCACHE_FREE_PATTERN 0xdeadbeefdeadbeefULL
202#define MCACHE_UNINITIALIZED_PATTERN 0xbaddcafebaddcafeULL
203
204/*
205 * mcache allocation request flags.
206 *
207 * MCR_NOSLEEP and MCR_FAILOK are mutually exclusive. The latter is used
208 * by the mbuf allocator to handle the implementation of several caches that
209 * involve multiple layers of mcache. It implies a best effort blocking
210 * allocation request; if the request cannot be satisfied, the caller will
211 * be blocked until further notice, similar to MCR_SLEEP, except that upon
212 * a wake up it will return immediately to the caller regardless of whether
213 * the request can been fulfilled.
214 *
215 * MCR_TRYHARD implies a non-blocking allocation request, regardless of
216 * whether MCR_NOSLEEP is set. It informs the allocator that the request
217 * should not cause the calling thread to block, and that it must have
218 * exhausted all possible schemes to fulfill the request, including doing
219 * reclaims and/or purges, before returning to the caller.
220 *
221 * Regular mcache clients should only use MCR_SLEEP or MCR_NOSLEEP.
222 */
223#define MCR_SLEEP 0x0000 /* same as M_WAITOK */
224#define MCR_NOSLEEP 0x0001 /* same as M_NOWAIT */
225#define MCR_FAILOK 0x0100 /* private, for internal use only */
226#define MCR_TRYHARD 0x0200 /* private, for internal use only */
227#define MCR_USR1 0x1000 /* private, for internal use only */
228
229#define MCR_NONBLOCKING (MCR_NOSLEEP | MCR_FAILOK | MCR_TRYHARD)
230
231/*
232 * Generic one-way linked list element structure. This is used to handle
233 * mcache_alloc_ext() requests in order to chain the allocated objects
234 * together before returning them to the caller.
235 */
236typedef struct mcache_obj {
237 struct mcache_obj *obj_next;
238} mcache_obj_t;
239
240typedef struct mcache_bkt {
241 void *bkt_next; /* next bucket in list */
242 void *bkt_obj[1]; /* one or more objects */
243} mcache_bkt_t;
244
245typedef struct mcache_bktlist {
246 mcache_bkt_t *bl_list; /* bucket list */
247 u_int32_t bl_total; /* number of buckets */
248 u_int32_t bl_min; /* min since last update */
249 u_int32_t bl_reaplimit; /* max reapable buckets */
250 u_int64_t bl_alloc; /* allocations from this list */
251} mcache_bktlist_t;
252
253typedef struct mcache_bkttype {
254 int bt_bktsize; /* bucket size (number of elements) */
255 size_t bt_minbuf; /* all smaller buffers qualify */
256 size_t bt_maxbuf; /* no larger bfufers qualify */
257 struct mcache *bt_cache; /* bucket cache */
258} mcache_bkttype_t;
259
260typedef struct mcache_cpu {
261 decl_lck_mtx_data(, cc_lock);
262 mcache_bkt_t *cc_filled; /* the currently filled bucket */
263 mcache_bkt_t *cc_pfilled; /* the previously filled bucket */
264 u_int64_t cc_alloc; /* allocations from this cpu */
265 u_int64_t cc_free; /* frees to this cpu */
266 int cc_objs; /* number of objects in filled bkt */
267 int cc_pobjs; /* number of objects in previous bkt */
268 int cc_bktsize; /* number of elements in a full bkt */
269} __attribute__((aligned(MAX_CPU_CACHE_LINE_SIZE), packed)) mcache_cpu_t;
270
271typedef unsigned int (*mcache_allocfn_t)(void *, mcache_obj_t ***,
272 unsigned int, int);
273typedef void (*mcache_freefn_t)(void *, mcache_obj_t *, boolean_t);
274typedef void (*mcache_auditfn_t)(void *, mcache_obj_t *, boolean_t);
275typedef void (*mcache_logfn_t)(u_int32_t, mcache_obj_t *, boolean_t);
276typedef void (*mcache_notifyfn_t)(void *, u_int32_t);
277
278typedef struct mcache {
279 /*
280 * Cache properties
281 */
282 LIST_ENTRY(mcache) mc_list; /* cache linkage */
283 char mc_name[32]; /* cache name */
284 struct zone *mc_slab_zone; /* backend zone allocator */
285 mcache_allocfn_t mc_slab_alloc; /* slab layer allocate callback */
286 mcache_freefn_t mc_slab_free; /* slab layer free callback */
287 mcache_auditfn_t mc_slab_audit; /* slab layer audit callback */
288 mcache_logfn_t mc_slab_log; /* slab layer log callback */
289 mcache_notifyfn_t mc_slab_notify; /* slab layer notify callback */
290 void *mc_private; /* opaque arg to callbacks */
291 size_t mc_bufsize; /* object size */
292 size_t mc_align; /* object alignment */
293 u_int32_t mc_flags; /* cache creation flags */
294 u_int32_t mc_purge_cnt; /* # of purges requested by slab */
295 u_int32_t mc_enable_cnt; /* # of reenables due to purges */
296 u_int32_t mc_waiter_cnt; /* # of slab layer waiters */
297 u_int32_t mc_wretry_cnt; /* # of wait retries */
298 u_int32_t mc_nwretry_cnt; /* # of no-wait retry attempts */
299 u_int32_t mc_nwfail_cnt; /* # of no-wait retries that failed */
300 decl_lck_mtx_data(, mc_sync_lock); /* protects purges and reenables */
301 lck_attr_t *mc_sync_lock_attr;
302 lck_grp_t *mc_sync_lock_grp;
303 lck_grp_attr_t *mc_sync_lock_grp_attr;
304 /*
305 * Keep CPU and buckets layers lock statistics separate.
306 */
307 lck_attr_t *mc_cpu_lock_attr;
308 lck_grp_t *mc_cpu_lock_grp;
309 lck_grp_attr_t *mc_cpu_lock_grp_attr;
310
311 /*
312 * Bucket layer common to all CPUs
313 */
314 decl_lck_mtx_data(, mc_bkt_lock);
315 lck_attr_t *mc_bkt_lock_attr;
316 lck_grp_t *mc_bkt_lock_grp;
317 lck_grp_attr_t *mc_bkt_lock_grp_attr;
318 mcache_bkttype_t *cache_bkttype; /* bucket type */
319 mcache_bktlist_t mc_full; /* full buckets */
320 mcache_bktlist_t mc_empty; /* empty buckets */
321 size_t mc_chunksize; /* bufsize + alignment */
322 u_int32_t mc_bkt_contention; /* lock contention count */
323 u_int32_t mc_bkt_contention_prev; /* previous snapshot */
324
325 /*
326 * Per-CPU layer, aligned at cache line boundary
327 */
328 mcache_cpu_t mc_cpu[1]
329 __attribute__((aligned(MAX_CPU_CACHE_LINE_SIZE)));
330} mcache_t;
331
332#define MCACHE_ALIGN 8 /* default guaranteed alignment */
333
334/* Valid values for mc_flags */
335#define MCF_VERIFY 0x00000001 /* enable verification */
336#define MCF_TRACE 0x00000002 /* enable transaction auditing */
337#define MCF_NOCPUCACHE 0x00000010 /* disable CPU layer caching */
338#define MCF_NOLEAKLOG 0x00000100 /* disable leak logging */
339#define MCF_EXPLEAKLOG 0x00000200 /* expose leak info to user space */
340
341#define MCF_DEBUG (MCF_VERIFY | MCF_TRACE)
342#define MCF_FLAGS_MASK \
343 (MCF_DEBUG | MCF_NOCPUCACHE | MCF_NOLEAKLOG | MCF_EXPLEAKLOG)
344
345/* Valid values for notify callback */
346#define MCN_RETRYALLOC 0x00000001 /* Allocation should be retried */
347
348#define MCACHE_STACK_DEPTH 16
349
350#define MCA_TRN_MAX 2 /* Number of transactions to record */
351
352typedef struct mcache_audit {
353 struct mcache_audit *mca_next; /* next audit struct */
354 void *mca_addr; /* address of buffer */
355 mcache_t *mca_cache; /* parent cache of the buffer */
356 size_t mca_contents_size; /* size of saved contents */
357 void *mca_contents; /* user-specific saved contents */
358 void *mca_uptr; /* user-specific pointer */
359 uint32_t mca_uflags; /* user-specific flags */
360 uint32_t mca_next_trn;
361 struct mca_trn {
362 struct thread *mca_thread; /* thread doing transaction */
363 uint32_t mca_tstamp;
364 uint16_t mca_depth;
365 void *mca_stack[MCACHE_STACK_DEPTH];
366 } mca_trns[MCA_TRN_MAX];
367} mcache_audit_t;
368
369__private_extern__ int assfail(const char *, const char *, int);
370__private_extern__ void mcache_init(void);
371__private_extern__ unsigned int mcache_getflags(void);
372__private_extern__ unsigned int mcache_cache_line_size(void);
373__private_extern__ mcache_t *mcache_create(const char *, size_t,
374 size_t, u_int32_t, int);
375__private_extern__ void *mcache_alloc(mcache_t *, int);
376__private_extern__ void mcache_free(mcache_t *, void *);
377__private_extern__ mcache_t *mcache_create_ext(const char *, size_t,
378 mcache_allocfn_t, mcache_freefn_t, mcache_auditfn_t, mcache_logfn_t,
379 mcache_notifyfn_t, void *, u_int32_t, int);
380__private_extern__ void mcache_destroy(mcache_t *);
381__private_extern__ unsigned int mcache_alloc_ext(mcache_t *, mcache_obj_t **,
382 unsigned int, int);
383__private_extern__ void mcache_free_ext(mcache_t *, mcache_obj_t *);
384__private_extern__ void mcache_reap(void);
385__private_extern__ boolean_t mcache_purge_cache(mcache_t *, boolean_t);
386__private_extern__ void mcache_waiter_inc(mcache_t *);
387__private_extern__ void mcache_waiter_dec(mcache_t *);
388__private_extern__ boolean_t mcache_bkt_isempty(mcache_t *);
389
390__private_extern__ void mcache_buffer_log(mcache_audit_t *, void *, mcache_t *,
391 struct timeval *);
392__private_extern__ void mcache_set_pattern(u_int64_t, void *, size_t);
393__private_extern__ void *mcache_verify_pattern(u_int64_t, void *, size_t);
394__private_extern__ void *mcache_verify_set_pattern(u_int64_t, u_int64_t,
395 void *, size_t);
396__private_extern__ void mcache_audit_free_verify(mcache_audit_t *,
397 void *, size_t, size_t);
398__private_extern__ void mcache_audit_free_verify_set(mcache_audit_t *,
399 void *, size_t, size_t);
400__private_extern__ char *mcache_dump_mca(mcache_audit_t *);
401__private_extern__ void mcache_audit_panic(mcache_audit_t *, void *, size_t,
402 int64_t, int64_t);
403
404extern int32_t total_sbmb_cnt;
405extern int32_t total_sbmb_cnt_floor;
406extern int32_t total_sbmb_cnt_peak;
407extern int64_t sbmb_limreached;
408extern mcache_t *mcache_audit_cache;
409
410#ifdef __cplusplus
411}
412#endif
413
414#endif /* KERNEL_PRIVATE */
415
416#endif /* _SYS_MCACHE_H */