1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ 22 /* All Rights Reserved */ 23 24 25 /* 26 * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 27 * Use is subject to license terms. 28 */ 29 30 #ifndef _SYS_CALLO_H 31 #define _SYS_CALLO_H 32 33 #include <sys/t_lock.h> 34 #include <sys/taskq.h> 35 #include <sys/lgrp.h> 36 #include <sys/processor.h> 37 #include <sys/cyclic.h> 38 #include <sys/kstat.h> 39 #include <sys/systm.h> 40 41 #ifdef __cplusplus 42 extern "C" { 43 #endif 44 45 #ifdef _KERNEL 46 47 typedef struct callout_list callout_list_t; 48 49 /* 50 * The callout mechanism provides general-purpose event scheduling: 51 * an arbitrary function is called in a specified amount of time. 52 * The expiration time for a callout is kept in its callout list 53 * structure. 54 */ 55 typedef struct callout { 56 struct callout *c_idnext; /* next in ID hash, or on freelist */ 57 struct callout *c_idprev; /* prev in ID hash */ 58 struct callout *c_clnext; /* next in callout list */ 59 struct callout *c_clprev; /* prev in callout list */ 60 callout_id_t c_xid; /* extended callout ID; see below */ 61 callout_list_t *c_list; /* callout list */ 62 void (*c_func)(void *); /* function to call */ 63 void *c_arg; /* argument to function */ 64 kthread_t *c_executor; /* executing thread */ 65 kcondvar_t c_done; /* signal callout completion */ 66 ushort_t c_waiting; /* untimeout waiting flag */ 67 } callout_t; 68 69 /* 70 * The callout ID (callout_id_t) uniquely identifies a callout. The callout 71 * ID is always 64 bits internally. The lower 32 bits contain an ID value. 72 * The upper 32 bits contain a generation number and flags. When the ID value 73 * wraps the generation number is incremented during ID generation. This 74 * protects callers from ID collisions that can happen as a result of the wrap. 75 * 76 * The kernel internal interface, timeout_generic(), always returns a 77 * callout_id_t. But the legacy interfaces, timeout() and realtime_timeout() 78 * return a timeout_id_t. On a 64-bit system, timeout_id_t is also 64 bits. 79 * So, the full 64-bit ID (sans the flags) can be returned. However, on 32-bit 80 * systems, timeout_id_t is 32 bits. So, only the lower 32 bits can be 81 * returned. In such cases, a default generation number of 0 is assigned to 82 * the legacy IDs. 83 * 84 * The lower 32-bit ID space is partitioned into two spaces - one for 85 * short-term callouts and one for long-term. 86 * 87 * Here is the bit layout for the callout ID: 88 * 89 * 63 62 61 ... 32 31 30 29 .. X+1 X ... 1 0 90 * ----------------------------------------------------------------------- 91 * | Free | Exec | Generation | Long | Counter | ID bits | Table | Type | 92 * | | | number | term | High | | number | | 93 * ----------------------------------------------------------------------- 94 * 95 * Free: 96 * This bit indicates that this callout has been freed. This is for 97 * debugging purposes. 98 * 99 * Exec(uting): 100 * This is the executing bit which is only set in the extended callout 101 * ID. This bit indicates that the callout handler is currently being 102 * executed. 103 * 104 * Generation number: 105 * This is the generation part of the ID. 106 * 107 * Long term: 108 * This bit indicates whether this is a short-term or a long-term callout. 109 * The long-term bit exists to address the problem of callout ID collision 110 * on 32-bit systems. This is an issue because the system typically 111 * generates a large number of timeout() requests, which means that callout 112 * IDs eventually get recycled. Most timeouts are very short-lived, so that 113 * ID recycling isn't a problem; but there are a handful of timeouts which 114 * are sufficiently long-lived to see their own IDs reused. We use the 115 * long-term bit to partition the ID namespace into pieces; the short-term 116 * space gets all the heavy traffic and can wrap frequently (i.e., on the 117 * order of a day) with no ill effects; the long-term space gets very little 118 * traffic and thus never wraps. That said, we need to future proof callouts 119 * in case 32-bit systems grow in size and are able to consume callout IDs 120 * at faster rates. So, we should make all the kernel clients that use 121 * callouts to use the internal interface so that they can use IDs outside 122 * of the legacy space with a proper generation number. 123 * 124 * Counter High + ID counter bits: 125 * These bits represent the actual ID bits in the callout ID. 126 * The highest bit of the running counter is always set; this ensures that 127 * the callout ID is always non-zero, thus eliminating the need for an 128 * explicit wrap-around test during ID generation. 129 * 130 * Table number: 131 * These bits carry the table number for the callout table where the callout 132 * is queued. Each CPU has its own callout table. So, the callout tables are 133 * numbered from 0 - (max_ncpus - 1). Because max_ncpus is different on 134 * different systems, the actual number of table number bits will vary 135 * accordingly. And so will the ID counter bits. 136 * 137 * Type: 138 * This bit represents the callout (table) type. Each CPU has one realtime 139 * and one normal callout table. 140 */ 141 #define CALLOUT_FREE 0x8000000000000000ULL 142 #define CALLOUT_EXECUTING 0x4000000000000000ULL 143 #define CALLOUT_ID_FLAGS (CALLOUT_FREE | CALLOUT_EXECUTING) 144 #define CALLOUT_ID_MASK ~CALLOUT_ID_FLAGS 145 #define CALLOUT_GENERATION_LOW 0x100000000ULL 146 #define CALLOUT_LONGTERM 0x80000000 147 #define CALLOUT_COUNTER_HIGH 0x40000000 148 #define CALLOUT_TYPE_BITS 1 149 #define CALLOUT_NTYPES (1 << CALLOUT_TYPE_BITS) 150 #define CALLOUT_TYPE_MASK (CALLOUT_NTYPES - 1) 151 #define CALLOUT_COUNTER_SHIFT callout_table_bits 152 #define CALLOUT_TABLE(t, f) (((f) << CALLOUT_TYPE_BITS) | (t)) 153 #define CALLOUT_TABLE_NUM(ct) ((ct) - callout_table) 154 #define CALLOUT_TABLE_TYPE(ct) (CALLOUT_TABLE_NUM(ct) & CALLOUT_TYPE_MASK) 155 #define CALLOUT_TABLE_SEQID(ct) (CALLOUT_TABLE_NUM(ct) >> CALLOUT_TYPE_BITS) 156 157 /* 158 * We assume that during any period of CALLOUT_LONGTERM_TICKS ticks, at most 159 * (CALLOUT_COUNTER_HIGH / callout_counter_low) callouts will be generated. 160 */ 161 #define CALLOUT_LONGTERM_TICKS 0x4000UL 162 #define CALLOUT_BUCKET_SHIFT 9 163 #define CALLOUT_BUCKETS (1 << CALLOUT_BUCKET_SHIFT) 164 #define CALLOUT_BUCKET_MASK (CALLOUT_BUCKETS - 1) 165 #define CALLOUT_HASH(x) ((x) & CALLOUT_BUCKET_MASK) 166 #define CALLOUT_IDHASH(x) CALLOUT_HASH((x) >> CALLOUT_COUNTER_SHIFT) 167 /* 168 * The multiply by 0 and 1 below are cosmetic. Just to align things better 169 * and make it more readable. The multiplications will be done at compile 170 * time. 171 */ 172 #define CALLOUT_CLHASH(x) \ 173 CALLOUT_HASH( \ 174 ((x)>>(CALLOUT_BUCKET_SHIFT*0)) ^ \ 175 ((x)>>(CALLOUT_BUCKET_SHIFT*1)) ^ \ 176 ((x)>>(CALLOUT_BUCKET_SHIFT*2)) ^ \ 177 ((x)>>(CALLOUT_BUCKET_SHIFT*3))) 178 179 #define CALLOUT_ID_TO_TABLE(id) ((id) & callout_table_mask) 180 181 #define CALLOUT_SHORT_ID(table) \ 182 ((callout_id_t)(table) | CALLOUT_COUNTER_HIGH) 183 #define CALLOUT_LONG_ID(table) \ 184 (CALLOUT_SHORT_ID(table) | CALLOUT_LONGTERM) 185 186 #define CALLOUT_THREADS 2 187 188 #define CALLOUT_REALTIME 0 /* realtime callout type */ 189 #define CALLOUT_NORMAL 1 /* normal callout type */ 190 191 /* 192 * callout_t's are cache-aligned structures allocated from kmem caches. One kmem 193 * cache is created per lgrp and is shared by all CPUs in that lgrp. Benefits: 194 * - cache pages are mapped only in the TLBs of the CPUs of the lgrp 195 * - data in cache pages is present only in those CPU caches 196 * - memory access performance improves with locality-awareness in kmem 197 * 198 * The following structure is used to manage per-lgroup kmem caches. 199 * 200 * NOTE: Free callout_t's go to a callout table's freelist. CPUs map to callout 201 * tables via their sequence IDs, not CPU IDs. DR operations can cause a 202 * free list to have callouts from multiple lgrp caches. This takes away some 203 * performance, but is no worse than if we did not use lgrp caches at all. 204 */ 205 typedef struct callout_cache { 206 struct callout_cache *cc_next; /* link in the global list */ 207 lgrp_handle_t cc_hand; /* lgroup handle */ 208 kmem_cache_t *cc_cache; /* kmem cache pointer */ 209 kmem_cache_t *cc_lcache; /* kmem cache pointer */ 210 } callout_cache_t; 211 212 /* 213 * The callout hash structure is used for queueing both callouts and 214 * callout lists. That is why the fields are declared as void *. 215 */ 216 typedef struct callout_hash { 217 void *ch_head; 218 void *ch_tail; 219 } callout_hash_t; 220 221 /* 222 * CALLOUT_LIST_FLAG_FREE 223 * Callout list is free. 224 * CALLOUT_LIST_FLAG_ABSOLUTE 225 * Callout list contains absolute timers. 226 * CALLOUT_LIST_FLAG_HRESTIME 227 * Callout list contains hrestime timers. 228 * CALLOUT_LIST_FLAG_NANO 229 * Callout list contains 1-nanosecond resolution callouts. 230 */ 231 #define CALLOUT_LIST_FLAG_FREE 0x1 232 #define CALLOUT_LIST_FLAG_ABSOLUTE 0x2 233 #define CALLOUT_LIST_FLAG_HRESTIME 0x4 234 #define CALLOUT_LIST_FLAG_NANO 0x8 235 236 struct callout_list { 237 callout_list_t *cl_next; /* next in clhash */ 238 callout_list_t *cl_prev; /* prev in clhash */ 239 hrtime_t cl_expiration; /* expiration for callouts in list */ 240 callout_hash_t cl_callouts; /* list of callouts */ 241 int cl_flags; /* callout flags */ 242 }; 243 244 /* 245 * Callout heap element. Each element in the heap stores the expiration 246 * as well as the corresponding callout list. This is to avoid a lookup 247 * of the callout list when the heap is processed. Because we store the 248 * callout list pointer in the heap element, we have to always remove 249 * a heap element and its callout list together. We cannot remove one 250 * without the other. 251 */ 252 typedef struct callout_heap { 253 hrtime_t ch_expiration; 254 callout_list_t *ch_list; 255 } callout_heap_t; 256 257 /* 258 * When the heap contains too many empty callout lists, it needs to be 259 * cleaned up. The decision to clean up the heap is a function of the 260 * number of empty entries and the heap size. Also, we don't want to 261 * clean up small heaps. 262 */ 263 #define CALLOUT_MIN_REAP (CALLOUT_BUCKETS >> 3) 264 #define CALLOUT_CLEANUP(ct) ((ct->ct_nreap >= callout_min_reap) && \ 265 (ct->ct_nreap >= (ct->ct_heap_num >> 1))) 266 267 /* 268 * Per-callout table kstats. 269 * 270 * CALLOUT_TIMEOUTS 271 * Callouts created since boot. 272 * CALLOUT_TIMEOUTS_PENDING 273 * Number of outstanding callouts. 274 * CALLOUT_UNTIMEOUTS_UNEXPIRED 275 * Number of cancelled callouts that have not expired. 276 * CALLOUT_UNTIMEOUTS_EXECUTING 277 * Number of cancelled callouts that were executing at the time of 278 * cancellation. 279 * CALLOUT_UNTIMEOUTS_EXPIRED 280 * Number of cancelled callouts that had already expired at the time 281 * of cancellations. 282 * CALLOUT_EXPIRATIONS 283 * Number of callouts that expired. 284 * CALLOUT_ALLOCATIONS 285 * Number of callout structures allocated. 286 * CALLOUT_CLEANUPS 287 * Number of times a callout table is cleaned up. 288 */ 289 typedef enum callout_stat_type { 290 CALLOUT_TIMEOUTS, 291 CALLOUT_TIMEOUTS_PENDING, 292 CALLOUT_UNTIMEOUTS_UNEXPIRED, 293 CALLOUT_UNTIMEOUTS_EXECUTING, 294 CALLOUT_UNTIMEOUTS_EXPIRED, 295 CALLOUT_EXPIRATIONS, 296 CALLOUT_ALLOCATIONS, 297 CALLOUT_CLEANUPS, 298 CALLOUT_NUM_STATS 299 } callout_stat_type_t; 300 301 /* 302 * Callout flags: 303 * 304 * CALLOUT_FLAG_ROUNDUP 305 * Roundup the expiration time to the next resolution boundary. 306 * If this flag is not specified, the expiration time is rounded down. 307 * CALLOUT_FLAG_ABSOLUTE 308 * Normally, the expiration passed to the timeout API functions is an 309 * expiration interval. If this flag is specified, then it is 310 * interpreted as the expiration time itself. 311 * CALLOUT_FLAG_HRESTIME 312 * Normally, callouts are not affected by changes to system time 313 * (hrestime). This flag is used to create a callout that is affected 314 * by system time. If system time changes, these timers must be 315 * handled in a special way (see callout.c). These are used by condition 316 * variables and LWP timers that need this behavior. 317 * CALLOUT_FLAG_32BIT 318 * Legacy interfaces timeout() and realtime_timeout() pass this flag 319 * to timeout_generic() to indicate that a 32-bit ID should be allocated. 320 */ 321 #define CALLOUT_FLAG_ROUNDUP 0x1 322 #define CALLOUT_FLAG_ABSOLUTE 0x2 323 #define CALLOUT_FLAG_HRESTIME 0x4 324 #define CALLOUT_FLAG_32BIT 0x8 325 326 /* 327 * On 32-bit systems, the legacy interfaces, timeout() and realtime_timeout(), 328 * must pass CALLOUT_FLAG_32BIT to timeout_generic() so that a 32-bit ID 329 * can be generated. 330 */ 331 #ifdef _LP64 332 #define CALLOUT_LEGACY 0 333 #else 334 #define CALLOUT_LEGACY CALLOUT_FLAG_32BIT 335 #endif 336 337 /* 338 * All of the state information associated with a callout table. 339 * The fields are ordered with cache performance in mind. 340 */ 341 typedef struct callout_table { 342 kmutex_t ct_mutex; /* protects all callout state */ 343 callout_t *ct_free; /* free callout structures */ 344 callout_list_t *ct_lfree; /* free callout list structures */ 345 callout_id_t ct_short_id; /* most recently issued short-term ID */ 346 callout_id_t ct_long_id; /* most recently issued long-term ID */ 347 callout_hash_t *ct_idhash; /* ID hash chains */ 348 callout_hash_t *ct_clhash; /* callout list hash */ 349 kstat_named_t *ct_kstat_data; /* callout kstat data */ 350 351 uint_t ct_type; /* callout table type */ 352 uint_t ct_suspend; /* suspend count */ 353 cyclic_id_t ct_cyclic; /* cyclic for this table */ 354 callout_heap_t *ct_heap; /* callout expiration heap */ 355 ulong_t ct_heap_num; /* occupied slots in the heap */ 356 ulong_t ct_heap_max; /* end of the heap */ 357 kmem_cache_t *ct_cache; /* callout kmem cache */ 358 kmem_cache_t *ct_lcache; /* callout list kmem cache */ 359 callout_id_t ct_gen_id; /* generation based ID */ 360 361 callout_hash_t ct_expired; /* list of expired callout lists */ 362 taskq_t *ct_taskq; /* taskq to execute normal callouts */ 363 kstat_t *ct_kstats; /* callout kstats */ 364 int ct_nreap; /* # heap entries that need reaping */ 365 #ifdef _LP64 366 char ct_pad[28]; /* cache alignment */ 367 #else 368 char ct_pad[24]; /* cache alignment */ 369 #endif 370 } callout_table_t; 371 372 /* 373 * Short hand definitions for the callout kstats. 374 */ 375 #define ct_timeouts \ 376 ct_kstat_data[CALLOUT_TIMEOUTS].value.ui64 377 #define ct_timeouts_pending \ 378 ct_kstat_data[CALLOUT_TIMEOUTS_PENDING].value.ui64 379 #define ct_untimeouts_unexpired \ 380 ct_kstat_data[CALLOUT_UNTIMEOUTS_UNEXPIRED].value.ui64 381 #define ct_untimeouts_executing \ 382 ct_kstat_data[CALLOUT_UNTIMEOUTS_EXECUTING].value.ui64 383 #define ct_untimeouts_expired \ 384 ct_kstat_data[CALLOUT_UNTIMEOUTS_EXPIRED].value.ui64 385 #define ct_expirations \ 386 ct_kstat_data[CALLOUT_EXPIRATIONS].value.ui64 387 #define ct_allocations \ 388 ct_kstat_data[CALLOUT_ALLOCATIONS].value.ui64 389 #define ct_cleanups \ 390 ct_kstat_data[CALLOUT_CLEANUPS].value.ui64 391 392 #define CALLOUT_CHUNK 128 393 394 #define CALLOUT_HEAP_PARENT(index) (((index) - 1) >> 1) 395 #define CALLOUT_HEAP_RIGHT(index) (((index) + 1) << 1) 396 #define CALLOUT_HEAP_LEFT(index) ((((index) + 1) << 1) - 1) 397 398 #define CALLOUT_CYCLIC_HANDLER(t) \ 399 ((t == CALLOUT_REALTIME) ? callout_realtime : callout_normal) 400 401 #define CALLOUT_TCP_RESOLUTION 10000000ULL 402 403 #define CALLOUT_ALIGN 64 /* cache line size */ 404 405 #ifdef _LP64 406 #define CALLOUT_MAX_TICKS NSEC_TO_TICK(CY_INFINITY); 407 #else 408 #define CALLOUT_MAX_TICKS LONG_MAX 409 #endif 410 411 #define CALLOUT_TOLERANCE 200000 /* nanoseconds */ 412 413 extern void callout_init(void); 414 extern void membar_sync(void); 415 extern void callout_cpu_online(cpu_t *); 416 extern void callout_cpu_offline(cpu_t *); 417 extern void callout_hrestime(void); 418 419 #endif 420 421 #ifdef __cplusplus 422 } 423 #endif 424 425 #endif /* _SYS_CALLO_H */ 426