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--- old/usr/src/lib/libc/inc/thr_uberdata.h
+++ new/usr/src/lib/libc/inc/thr_uberdata.h
1 1 /*
2 2 * CDDL HEADER START
3 3 *
4 4 * The contents of this file are subject to the terms of the
5 5 * Common Development and Distribution License (the "License").
6 6 * You may not use this file except in compliance with the License.
7 7 *
8 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9 9 * or http://www.opensolaris.org/os/licensing.
10 10 * See the License for the specific language governing permissions
11 11 * and limitations under the License.
12 12 *
13 13 * When distributing Covered Code, include this CDDL HEADER in each
14 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15 15 * If applicable, add the following below this CDDL HEADER, with the
16 16 * fields enclosed by brackets "[]" replaced with your own identifying
17 17 * information: Portions Copyright [yyyy] [name of copyright owner]
18 18 *
19 19 * CDDL HEADER END
20 20 */
21 21
22 22 /*
23 23 * Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved.
24 24 */
25 25 /*
26 26 * Copyright 2016 Joyent, Inc.
27 27 */
28 28
29 29 #ifndef _THR_UBERDATA_H
30 30 #define _THR_UBERDATA_H
31 31
32 32 #include <stdlib.h>
33 33 #include <unistd.h>
34 34 #include <sys/types.h>
35 35 #include <fcntl.h>
36 36 #include <string.h>
37 37 #include <signal.h>
38 38 #include <ucontext.h>
39 39 #include <thread.h>
40 40 #include <pthread.h>
41 41 #include <atomic.h>
42 42 #include <link.h>
43 43 #include <sys/resource.h>
44 44 #include <sys/lwp.h>
45 45 #include <errno.h>
46 46 #include <sys/asm_linkage.h>
47 47 #include <sys/regset.h>
48 48 #include <sys/fcntl.h>
49 49 #include <sys/mman.h>
50 50 #include <synch.h>
51 51 #include <door.h>
52 52 #include <limits.h>
53 53 #include <sys/synch32.h>
54 54 #include <schedctl.h>
55 55 #include <sys/priocntl.h>
56 56 #include <thread_db.h>
57 57 #include <setjmp.h>
58 58 #include "libc_int.h"
59 59 #include "tdb_agent.h"
60 60 #include "thr_debug.h"
61 61
62 62 /*
63 63 * This is an implementation-specific include file for threading support.
64 64 * It is not to be seen by the clients of the library.
65 65 *
66 66 * This file also describes uberdata in libc.
67 67 *
68 68 * The term "uberdata" refers to data that is unique and visible across
69 69 * all link maps. The name is meant to imply that such data is truly
70 70 * global, not just locally global to a particular link map.
71 71 *
72 72 * See the Linker and Libraries Guide for a full description of alternate
73 73 * link maps and how they are set up and used.
74 74 *
75 75 * Alternate link maps implement multiple global namespaces within a single
76 76 * process. There may be multiple instances of identical dynamic libraries
77 77 * loaded in a process's address space at the same time, each on a different
78 78 * link map (as determined by the dynamic linker), each with its own set of
79 79 * global variables. Which particular instance of a global variable is seen
80 80 * by a thread running in the process is determined by the link map on which
81 81 * the thread happens to be executing at the time.
82 82 *
83 83 * However, there are aspects of a process that are unique across all
84 84 * link maps, in particular the structures used to implement threads
85 85 * of control (in Sparc terminology, there is only one %g7 regardless
86 86 * of the link map on which the thread is executing).
87 87 *
88 88 * All uberdata is referenced from a base pointer in the thread's ulwp_t
89 89 * structure (which is also uberdata). All allocations and deallocations
90 90 * of uberdata are made via the uberdata-aware lmalloc() and lfree()
91 91 * interfaces (malloc() and free() are simply locally-global).
92 92 */
93 93
94 94 /*
95 95 * Special libc-private access to errno.
96 96 * We do this so that references to errno do not invoke the dynamic linker.
97 97 */
98 98 #undef errno
99 99 #define errno (*curthread->ul_errnop)
100 100
101 101 /*
102 102 * See <sys/synch32.h> for the reasons for these values
103 103 * and why they are different for sparc and intel.
104 104 */
105 105 #if defined(__sparc)
106 106
107 107 /* lock.lock64.pad[x] 4 5 6 7 */
108 108 #define LOCKMASK 0xff000000
109 109 #define WAITERMASK 0x000000ff
110 110 #define SPINNERMASK 0x00ff0000
111 111 #define SPINNERSHIFT 16
112 112 #define WAITER 0x00000001
113 113 #define LOCKSET 0xff
114 114 #define LOCKCLEAR 0
115 115
116 116 #define PIDSHIFT 32
117 117 #define LOCKMASK64 0xffffffffff000000ULL
118 118 #define LOCKBYTE64 0x00000000ff000000ULL
119 119 #define WAITERMASK64 0x00000000000000ffULL
120 120 #define SPINNERMASK64 0x0000000000ff0000ULL
121 121
122 122 #elif defined(__x86)
123 123
124 124 /* lock.lock64.pad[x] 7 6 5 4 */
125 125 #define LOCKMASK 0xff000000
126 126 #define WAITERMASK 0x00ff0000
127 127 #define SPINNERMASK 0x0000ff00
128 128 #define SPINNERSHIFT 8
129 129 #define WAITER 0x00010000
130 130 #define LOCKSET 0x01
131 131 #define LOCKCLEAR 0
132 132
133 133 #define PIDSHIFT 0
134 134 #define LOCKMASK64 0xff000000ffffffffULL
135 135 #define LOCKBYTE64 0x0100000000000000ULL
136 136 #define WAITERMASK64 0x00ff000000000000ULL
137 137 #define SPINNERMASK64 0x0000ff0000000000ULL
138 138
139 139 #else
140 140 #error "neither __sparc nor __x86 is defined"
141 141 #endif
142 142
143 143 /*
144 144 * Fetch the owner of a USYNC_THREAD mutex.
145 145 * Don't use this with process-shared mutexes;
146 146 * the owing thread may be in a different process.
147 147 */
148 148 #define MUTEX_OWNER(mp) ((ulwp_t *)(uintptr_t)(mp)->mutex_owner)
149 149
150 150 /*
151 151 * Test if a thread owns a process-private (USYNC_THREAD) mutex.
152 152 * This is inappropriate for a process-shared (USYNC_PROCESS) mutex.
153 153 * The 'mp' argument must not have side-effects since it is evaluated twice.
154 154 */
155 155 #define MUTEX_OWNED(mp, thrp) \
156 156 ((mp)->mutex_lockw != 0 && MUTEX_OWNER(mp) == thrp)
157 157
158 158
159 159 /*
160 160 * uberflags.uf_tdb_register_sync is an interface with libc_db to enable the
161 161 * collection of lock statistics by a debugger or other collecting tool.
162 162 *
163 163 * uberflags.uf_thread_error_detection is set by an environment variable:
164 164 * _THREAD_ERROR_DETECTION
165 165 * 0 == no detection of locking primitive errors.
166 166 * 1 == detect errors and issue a warning message.
167 167 * 2 == detect errors, issue a warning message, and dump core.
168 168 *
169 169 * We bundle these together in uberflags.uf_trs_ted to make a test of either
170 170 * being non-zero a single memory reference (for speed of mutex_lock(), etc).
171 171 *
172 172 * uberflags.uf_mt is set non-zero when the first thread (in addition
173 173 * to the main thread) is created.
174 174 *
175 175 * We bundle all these flags together in uberflags.uf_all to make a test
176 176 * of any being non-zero a single memory reference (again, for speed).
177 177 */
178 178 typedef union {
179 179 int uf_all; /* combined all flags */
180 180 struct {
181 181 short h_pad;
182 182 short h_trs_ted; /* combined reg sync & error detect */
183 183 } uf_h;
184 184 struct {
185 185 char x_mt;
186 186 char x_pad;
187 187 char x_tdb_register_sync;
188 188 char x_thread_error_detection;
189 189 } uf_x;
190 190 } uberflags_t;
191 191
192 192 #define uf_mt uf_x.x_mt
193 193 #define uf_tdb_register_sync uf_x.x_tdb_register_sync
194 194 #define uf_thread_error_detection uf_x.x_thread_error_detection
195 195 #define uf_trs_ted uf_h.h_trs_ted /* both of the above */
196 196
197 197 /*
198 198 * NOTE WELL:
199 199 * To enable further optimization, the "ul_schedctl_called" member
200 200 * of the ulwp_t structure (below) serves double-duty:
201 201 * 1. If NULL, it means that the thread must call __schedctl()
202 202 * to set up its schedctl mappings before acquiring a mutex.
203 203 * This is required by the implementation of adaptive mutex locking.
204 204 * 2. If non-NULL, it points to uberdata.uberflags, so that tests of
205 205 * uberflags can be made without additional memory references.
206 206 * This allows the common case of _mutex_lock() and _mutex_unlock() for
207 207 * USYNC_THREAD mutexes with no error detection and no lock statistics
208 208 * to be optimized for speed.
209 209 */
210 210
211 211 /* double the default stack size for 64-bit processes */
212 212 #ifdef _LP64
213 213 #define MINSTACK (8 * 1024)
214 214 #define DEFAULTSTACK (2 * 1024 * 1024)
215 215 #else
216 216 #define MINSTACK (4 * 1024)
217 217 #define DEFAULTSTACK (1024 * 1024)
218 218 #endif
219 219
220 220 #define MUTEX_TRY 0
221 221 #define MUTEX_LOCK 1
222 222 #define MUTEX_NOCEIL 0x40
223 223
224 224 #if defined(__x86)
225 225
226 226 typedef struct { /* structure returned by fnstenv */
227 227 int fctrl; /* control word */
228 228 int fstat; /* status word (flags, etc) */
229 229 int ftag; /* tag of which regs busy */
230 230 int misc[4]; /* other stuff, 28 bytes total */
231 231 } fpuenv_t;
232 232
233 233 #ifdef _SYSCALL32
234 234 typedef fpuenv_t fpuenv32_t;
235 235 #endif /* _SYSCALL32 */
236 236
237 237 #elif defined(__sparc)
238 238
239 239 typedef struct { /* fp state structure */
240 240 greg_t fsr;
241 241 greg_t fpu_en;
242 242 } fpuenv_t;
243 243
244 244 #ifdef _SYSCALL32
245 245 typedef struct {
246 246 greg32_t fsr;
247 247 greg32_t fpu_en;
248 248 } fpuenv32_t;
249 249 #endif /* _SYSCALL32 */
250 250
251 251 #endif /* __x86 */
252 252
253 253 #if defined(__x86)
254 254 extern void ht_pause(void); /* "pause" instruction */
255 255 #define SMT_PAUSE() ht_pause()
256 256 #elif defined(SMT_PAUSE_FUNCTION)
257 257 extern void SMT_PAUSE_FUNCTION(void);
258 258 #define SMT_PAUSE() SMT_PAUSE_FUNCTION()
259 259 #else
260 260 #define SMT_PAUSE() smt_pause()
261 261 #endif /* __x86 */
262 262
263 263 /*
264 264 * Cleanup handler related data.
265 265 * This structure is exported as _cleanup_t in pthread.h.
266 266 * pthread.h exports only the size of this structure, so check
267 267 * _cleanup_t in pthread.h before making any change here.
268 268 */
269 269 typedef struct __cleanup {
270 270 struct __cleanup *next; /* pointer to next handler */
271 271 caddr_t fp; /* current frame pointer */
272 272 void (*func)(void *); /* cleanup handler address */
273 273 void *arg; /* handler's argument */
274 274 } __cleanup_t;
275 275
276 276 /*
277 277 * Thread-Specific Data (TSD)
278 278 * TSD_NFAST includes the invalid key zero, so there
279 279 * are really only (TSD_NFAST - 1) fast key slots.
280 280 */
281 281 typedef void (*PFrV)(void *);
282 282 #define TSD_UNALLOCATED ((PFrV)1)
283 283 #define TSD_NFAST 9
284 284
285 285 /*
286 286 * The tsd union is designed to burn a little memory (9 words) to make
287 287 * lookups blindingly fast. Note that tsd_nalloc could be placed at the
288 288 * end of the pad region to increase the likelihood that it falls on the
289 289 * same cache line as the data.
290 290 */
291 291 typedef union tsd {
292 292 uint_t tsd_nalloc; /* Amount of allocated storage */
293 293 void *tsd_pad[TSD_NFAST];
294 294 void *tsd_data[1];
295 295 } tsd_t;
296 296
297 297 typedef struct {
298 298 mutex_t tsdm_lock; /* Lock protecting the data */
299 299 uint_t tsdm_nkeys; /* Number of allocated keys */
300 300 uint_t tsdm_nused; /* Number of used keys */
301 301 PFrV *tsdm_destro; /* Per-key destructors */
302 302 char tsdm_pad[64 - /* pad to 64 bytes */
303 303 (sizeof (mutex_t) + 2 * sizeof (uint_t) + sizeof (PFrV *))];
304 304 } tsd_metadata_t;
305 305
306 306 #ifdef _SYSCALL32
307 307 typedef union tsd32 {
308 308 uint_t tsd_nalloc; /* Amount of allocated storage */
309 309 caddr32_t tsd_pad[TSD_NFAST];
310 310 caddr32_t tsd_data[1];
311 311 } tsd32_t;
312 312
313 313 typedef struct {
314 314 mutex_t tsdm_lock; /* Lock protecting the data */
315 315 uint_t tsdm_nkeys; /* Number of allocated keys */
316 316 uint_t tsdm_nused; /* Number of used keys */
317 317 caddr32_t tsdm_destro; /* Per-key destructors */
318 318 char tsdm_pad[64 - /* pad to 64 bytes */
319 319 (sizeof (mutex_t) + 2 * sizeof (uint_t) + sizeof (caddr32_t))];
320 320 } tsd_metadata32_t;
321 321 #endif /* _SYSCALL32 */
322 322
323 323
324 324 /*
325 325 * Thread-Local Storage (TLS)
326 326 */
327 327 typedef struct {
328 328 void *tls_data;
329 329 size_t tls_size;
330 330 } tls_t;
331 331
332 332 typedef struct {
333 333 mutex_t tls_lock; /* Lock protecting the data */
334 334 tls_t tls_modinfo; /* Root of all TLS_modinfo data */
335 335 tls_t static_tls; /* Template for static TLS */
336 336 char tls_pad[64 - /* pad to 64 bytes */
337 337 (sizeof (mutex_t) + 2 * sizeof (tls_t))];
338 338 } tls_metadata_t;
339 339
340 340 #ifdef _SYSCALL32
341 341 typedef struct {
342 342 caddr32_t tls_data;
343 343 size32_t tls_size;
344 344 } tls32_t;
345 345
346 346 typedef struct {
347 347 mutex_t tls_lock; /* Lock protecting the data */
348 348 tls32_t tls_modinfo; /* Root of all TLS_modinfo data */
349 349 tls32_t static_tls; /* Template for static TLS */
350 350 char tls_pad[64 - /* pad to 64 bytes */
351 351 (sizeof (mutex_t) + 2 * sizeof (tls32_t))];
352 352 } tls_metadata32_t;
353 353 #endif /* _SYSCALL32 */
354 354
355 355
356 356 /*
357 357 * Sleep queue root for USYNC_THREAD condvars and mutexes.
358 358 * There is a default queue root for each queue head (see below).
359 359 * Also, each ulwp_t contains a queue root that can be used
360 360 * when the thread is enqueued on the queue, if necessary
361 361 * (when more than one wchan hashes to the same queue head).
362 362 */
363 363 typedef struct queue_root {
364 364 struct queue_root *qr_next;
365 365 struct queue_root *qr_prev;
366 366 struct ulwp *qr_head;
367 367 struct ulwp *qr_tail;
368 368 void *qr_wchan;
369 369 uint32_t qr_rtcount;
370 370 uint32_t qr_qlen;
371 371 uint32_t qr_qmax;
372 372 } queue_root_t;
373 373
374 374 #ifdef _SYSCALL32
375 375 typedef struct queue_root32 {
376 376 caddr32_t qr_next;
377 377 caddr32_t qr_prev;
378 378 caddr32_t qr_head;
379 379 caddr32_t qr_tail;
380 380 caddr32_t qr_wchan;
381 381 uint32_t qr_rtcount;
382 382 uint32_t qr_qlen;
383 383 uint32_t qr_qmax;
384 384 } queue_root32_t;
385 385 #endif
386 386
387 387 /*
388 388 * Sleep queue heads for USYNC_THREAD condvars and mutexes.
389 389 * The size and alignment is 128 bytes to reduce cache conflicts.
390 390 * Each queue head points to a list of queue roots, defined above.
391 391 * Each queue head contains a default queue root for use when only one
392 392 * is needed. It is always at the tail of the queue root hash chain.
393 393 */
394 394 typedef union {
395 395 uint64_t qh_64[16];
396 396 struct {
397 397 mutex_t q_lock;
398 398 uint8_t q_qcnt;
399 399 uint8_t q_type; /* MX or CV */
400 400 uint8_t q_pad1[2];
401 401 uint32_t q_lockcount;
402 402 uint32_t q_qlen;
403 403 uint32_t q_qmax;
404 404 void *q_wchan; /* valid only while locked */
405 405 struct queue_root *q_root; /* valid only while locked */
406 406 struct queue_root *q_hlist;
407 407 #if !defined(_LP64)
408 408 caddr_t q_pad2[3];
409 409 #endif
410 410 queue_root_t q_def_root;
411 411 uint32_t q_hlen;
412 412 uint32_t q_hmax;
413 413 } qh_qh;
414 414 } queue_head_t;
415 415
416 416 #define qh_lock qh_qh.q_lock
417 417 #define qh_qcnt qh_qh.q_qcnt
418 418 #define qh_type qh_qh.q_type
419 419 #if defined(THREAD_DEBUG)
420 420 #define qh_lockcount qh_qh.q_lockcount
421 421 #define qh_qlen qh_qh.q_qlen
422 422 #define qh_qmax qh_qh.q_qmax
423 423 #endif
424 424 #define qh_wchan qh_qh.q_wchan
425 425 #define qh_root qh_qh.q_root
426 426 #define qh_hlist qh_qh.q_hlist
427 427 #define qh_def_root qh_qh.q_def_root
428 428 #define qh_hlen qh_qh.q_hlen
429 429 #define qh_hmax qh_qh.q_hmax
430 430
431 431 /* queue types passed to queue_lock() */
432 432 #define MX 0
433 433 #define CV 1
434 434 #define QHASHSHIFT 9 /* number of hashing bits */
435 435 #define QHASHSIZE (1 << QHASHSHIFT) /* power of 2 (1<<9 == 512) */
436 436 #define QUEUE_HASH(wchan, type) ((uint_t) \
437 437 ((((uintptr_t)(wchan) >> 3) \
438 438 ^ ((uintptr_t)(wchan) >> (QHASHSHIFT + 3))) \
439 439 & (QHASHSIZE - 1)) + (((type) == MX)? 0 : QHASHSIZE))
440 440
441 441 extern queue_head_t *queue_lock(void *, int);
442 442 extern void queue_unlock(queue_head_t *);
443 443 extern void enqueue(queue_head_t *, struct ulwp *, int);
444 444 extern struct ulwp *dequeue(queue_head_t *, int *);
445 445 extern struct ulwp **queue_slot(queue_head_t *, struct ulwp **, int *);
446 446 extern struct ulwp *queue_waiter(queue_head_t *);
447 447 extern int dequeue_self(queue_head_t *);
448 448 extern void queue_unlink(queue_head_t *,
449 449 struct ulwp **, struct ulwp *);
450 450 extern void unsleep_self(void);
451 451 extern void spin_lock_set(mutex_t *);
452 452 extern void spin_lock_clear(mutex_t *);
453 453
454 454 /*
455 455 * Scheduling class information structure.
456 456 */
457 457 typedef struct {
458 458 short pcc_state;
459 459 short pcc_policy;
460 460 pri_t pcc_primin;
461 461 pri_t pcc_primax;
462 462 pcinfo_t pcc_info;
463 463 } pcclass_t;
464 464
465 465 /*
466 466 * Memory block for chain of owned ceiling mutexes.
467 467 */
468 468 typedef struct mxchain {
469 469 struct mxchain *mxchain_next;
470 470 mutex_t *mxchain_mx;
471 471 } mxchain_t;
472 472
473 473 /*
474 474 * Pointer to an rwlock that is held for reading.
475 475 * Used in rw_rdlock() to allow a thread that already holds a read
476 476 * lock to acquire another read lock on the same rwlock even if
477 477 * there are writers waiting. This to avoid deadlock when acquiring
478 478 * a read lock more than once in the presence of pending writers.
479 479 * POSIX mandates this behavior.
480 480 */
481 481 typedef struct {
482 482 void *rd_rwlock; /* the rwlock held for reading */
483 483 size_t rd_count; /* count of read locks applied */
484 484 } readlock_t;
485 485
486 486 #ifdef _SYSCALL32
487 487 typedef struct {
488 488 caddr32_t rd_rwlock;
489 489 size32_t rd_count;
490 490 } readlock32_t;
491 491 #endif /* _SYSCALL32 */
492 492
493 493 /*
494 494 * As part of per-thread caching libumem (ptcumem), we add a small amount to the
495 495 * thread's uberdata to facilitate it. The tm_roots are the roots of linked
496 496 * lists which is used by libumem to chain together allocations. tm_size is used
497 497 * to track the total amount of data stored across those linked lists. For more
498 498 * information, see libumem's big theory statement.
499 499 */
500 500 #define NTMEMBASE 16
501 501
502 502 typedef struct {
503 503 size_t tm_size;
504 504 void *tm_roots[NTMEMBASE];
505 505 } tumem_t;
506 506
507 507 #ifdef _SYSCALL32
508 508 typedef struct {
509 509 uint32_t tm_size;
510 510 caddr32_t tm_roots[NTMEMBASE];
511 511 } tumem32_t;
512 512 #endif
513 513
514 514 typedef void (*tmem_func_t)(void *, int);
515 515
516 516 /*
517 517 * Maximum number of read locks allowed for one thread on one rwlock.
518 518 * This could be as large as INT_MAX, but the SUSV3 test suite would
519 519 * take an inordinately long time to complete. This is big enough.
520 520 */
521 521 #define READ_LOCK_MAX 100000
522 522
523 523 #define ul_tlsent ul_tls.tls_data /* array of pointers to dynamic TLS */
524 524 #define ul_ntlsent ul_tls.tls_size /* number of entries in ul_tlsent */
525 525
526 526 /*
527 527 * Round up an integral value to a multiple of 64
528 528 */
529 529 #define roundup64(x) (-(-(x) & -64))
530 530
531 531 /*
532 532 * NOTE: Whatever changes are made to ulwp_t must be
533 533 * reflected in $SRC/cmd/mdb/common/modules/libc/libc.c
534 534 *
535 535 * NOTE: ul_self *must* be the first member of ulwp_t on x86
536 536 * Low-level x86 code relies on this.
537 537 */
538 538 typedef struct ulwp {
539 539 /*
540 540 * These members always need to come first on sparc.
541 541 * For dtrace, a ulwp_t must be aligned on a 64-byte boundary.
542 542 */
543 543 #if defined(__sparc)
544 544 uint32_t ul_dinstr; /* scratch space for dtrace */
545 545 uint32_t ul_padsparc0[15];
546 546 uint32_t ul_dsave; /* dtrace: save %g1, %g0, %sp */
547 547 uint32_t ul_drestore; /* dtrace: restore %g0, %g0, %g0 */
548 548 uint32_t ul_dftret; /* dtrace: return probe fasttrap */
549 549 uint32_t ul_dreturn; /* dtrace: return %o0 */
550 550 #endif
551 551 struct ulwp *ul_self; /* pointer to self */
552 552 #if defined(__i386)
553 553 uint8_t ul_dinstr[40]; /* scratch space for dtrace */
554 554 #elif defined(__amd64)
555 555 uint8_t ul_dinstr[56]; /* scratch space for dtrace */
556 556 #endif
557 557 struct uberdata *ul_uberdata; /* uber (super-global) data */
558 558 tls_t ul_tls; /* dynamic thread-local storage base */
559 559 struct ulwp *ul_forw; /* forw, back all_lwps list, */
560 560 struct ulwp *ul_back; /* protected by link_lock */
561 561 struct ulwp *ul_next; /* list to keep track of stacks */
562 562 struct ulwp *ul_hash; /* hash chain linked list */
563 563 void *ul_rval; /* return value from thr_exit() */
564 564 caddr_t ul_stk; /* mapping base of the stack */
565 565 size_t ul_mapsiz; /* mapping size of the stack */
566 566 size_t ul_guardsize; /* normally _lpagesize */
567 567 uintptr_t ul_stktop; /* broken thr_stksegment() interface */
568 568 size_t ul_stksiz; /* broken thr_stksegment() interface */
569 569 stack_t ul_ustack; /* current stack boundaries */
570 570 int ul_ix; /* hash index */
571 571 lwpid_t ul_lwpid; /* thread id, aka the lwp id */
572 572 pri_t ul_pri; /* scheduling priority */
573 573 pri_t ul_epri; /* real-time ceiling priority */
574 574 char ul_policy; /* scheduling policy */
575 575 char ul_cid; /* scheduling class id */
576 576 union {
577 577 struct {
578 578 char cursig; /* deferred signal number */
579 579 char pleasestop; /* lwp requested to stop itself */
580 580 } s;
581 581 short curplease; /* for testing both at once */
582 582 } ul_cp;
583 583 char ul_stop; /* reason for stopping */
584 584 char ul_signalled; /* this lwp was cond_signal()d */
585 585 char ul_dead; /* this lwp has called thr_exit */
586 586 char ul_unwind; /* posix: unwind C++ stack */
587 587 char ul_detached; /* THR_DETACHED at thread_create() */
588 588 /* or pthread_detach() was called */
589 589 char ul_writer; /* sleeping in rw_wrlock() */
590 590 char ul_stopping; /* set by curthread: stopping self */
591 591 char ul_cancel_prologue; /* for _cancel_prologue() */
592 592 short ul_preempt; /* no_preempt()/preempt() */
593 593 short ul_savpreempt; /* pre-existing preempt value */
594 594 char ul_sigsuspend; /* thread is in sigsuspend/pollsys */
595 595 char ul_main; /* thread is the main thread */
596 596 char ul_fork; /* thread is performing a fork */
597 597 char ul_primarymap; /* primary link-map is initialized */
598 598 /* per-thread copies of the corresponding global variables */
599 599 uint8_t ul_max_spinners; /* thread_max_spinners */
600 600 char ul_door_noreserve; /* thread_door_noreserve */
601 601 char ul_queue_fifo; /* thread_queue_fifo */
602 602 char ul_cond_wait_defer; /* thread_cond_wait_defer */
603 603 char ul_error_detection; /* thread_error_detection */
604 604 char ul_async_safe; /* thread_async_safe */
605 605 char ul_rt; /* found on an RT queue */
606 606 char ul_rtqueued; /* was RT when queued */
607 607 char ul_misaligned; /* thread_locks_misaligned */
608 608 char ul_pad[3];
609 609 int ul_adaptive_spin; /* thread_adaptive_spin */
610 610 int ul_queue_spin; /* thread_queue_spin */
611 611 volatile int ul_critical; /* non-zero == in a critical region */
612 612 int ul_sigdefer; /* non-zero == defer signals */
613 613 int ul_vfork; /* thread is the child of vfork() */
614 614 int ul_cancelable; /* _cancelon()/_canceloff() */
615 615 char ul_cancel_pending; /* pthread_cancel() was called */
616 616 char ul_cancel_disabled; /* PTHREAD_CANCEL_DISABLE */
617 617 char ul_cancel_async; /* PTHREAD_CANCEL_ASYNCHRONOUS */
618 618 char ul_save_async; /* saved copy of ul_cancel_async */
619 619 char ul_mutator; /* lwp is a mutator (java interface) */
620 620 char ul_created; /* created suspended */
621 621 char ul_replace; /* replacement; must be free()d */
622 622 uchar_t ul_nocancel; /* cancellation can't happen */
623 623 int ul_errno; /* per-thread errno */
624 624 int *ul_errnop; /* pointer to errno or self->ul_errno */
625 625 __cleanup_t *ul_clnup_hdr; /* head of cleanup handlers list */
626 626 uberflags_t *ul_schedctl_called; /* ul_schedctl is set up */
627 627 volatile sc_shared_t *ul_schedctl; /* schedctl data */
628 628 int ul_bindflags; /* bind_guard() interface to ld.so.1 */
629 629 uint_t ul_libc_locks; /* count of cancel_safe_mutex_lock()s */
630 630 tsd_t *ul_stsd; /* slow TLS for keys >= TSD_NFAST */
631 631 void *ul_ftsd[TSD_NFAST]; /* fast TLS for keys < TSD_NFAST */
632 632 td_evbuf_t ul_td_evbuf; /* event buffer */
633 633 char ul_td_events_enable; /* event mechanism enabled */
634 634 char ul_sync_obj_reg; /* tdb_sync_obj_register() */
635 635 char ul_qtype; /* MX or CV */
636 636 char ul_cv_wake; /* != 0: just wake up, don't requeue */
637 637 int ul_rtld; /* thread is running inside ld.so.1 */
638 638 int ul_usropts; /* flags given to thr_create() */
639 639 void *(*ul_startpc)(void *); /* start func (thr_create()) */
640 640 void *ul_startarg; /* argument for start function */
641 641 void *ul_wchan; /* synch object when sleeping */
642 642 struct ulwp *ul_link; /* sleep queue link */
643 643 queue_head_t *ul_sleepq; /* sleep queue thread is waiting on */
644 644 mutex_t *ul_cvmutex; /* mutex dropped when waiting on a cv */
645 645 mxchain_t *ul_mxchain; /* chain of owned ceiling mutexes */
646 646 int ul_save_state; /* bind_guard() interface to ld.so.1 */
647 647 uint_t ul_rdlockcnt; /* # entries in ul_readlock array */
648 648 /* 0 means there is but a single entry */
649 649 union { /* single entry or pointer to array */
650 650 readlock_t single;
651 651 readlock_t *array;
652 652 } ul_readlock;
653 653 uint_t ul_heldlockcnt; /* # entries in ul_heldlocks array */
654 654 /* 0 means there is but a single entry */
655 655 union { /* single entry or pointer to array */
656 656 mutex_t *single;
657 657 mutex_t **array;
658 658 } ul_heldlocks;
659 659 /* PROBE_SUPPORT begin */
660 660 void *ul_tpdp;
661 661 /* PROBE_SUPPORT end */
662 662 ucontext_t *ul_siglink; /* pointer to previous context */
663 663 uint_t ul_spin_lock_spin; /* spin lock statistics */
664 664 uint_t ul_spin_lock_spin2;
665 665 uint_t ul_spin_lock_sleep;
666 666 uint_t ul_spin_lock_wakeup;
667 667 queue_root_t ul_queue_root; /* root of a sleep queue */
668 668 id_t ul_rtclassid; /* real-time class id */
669 669 uint_t ul_pilocks; /* count of PI locks held */
670 670 /* the following members *must* be last in the structure */
671 671 /* they are discarded when ulwp is replaced on thr_exit() */
672 672 sigset_t ul_sigmask; /* thread's current signal mask */
673 673 sigset_t ul_tmpmask; /* signal mask for sigsuspend/pollsys */
674 674 siginfo_t ul_siginfo; /* deferred siginfo */
675 675 mutex_t ul_spinlock; /* used when suspending/continuing */
676 676 fpuenv_t ul_fpuenv; /* floating point state */
677 677 uintptr_t ul_sp; /* stack pointer when blocked */
678 678 void *ul_ex_unwind; /* address of _ex_unwind() or -1 */
679 679 #if defined(sparc)
680 680 void *ul_unwind_ret; /* used only by _ex_clnup_handler() */
681 681 #endif
682 682 tumem_t ul_tmem; /* used only by umem */
683 683 uint_t ul_ptinherit; /* pthreads sched inherit value */
684 684 } ulwp_t;
685 685
686 686 #define ul_cursig ul_cp.s.cursig /* deferred signal number */
687 687 #define ul_pleasestop ul_cp.s.pleasestop /* lwp requested to stop */
688 688 #define ul_curplease ul_cp.curplease /* for testing both at once */
689 689
690 690 /*
691 691 * This is the size of a replacement ulwp, retained only for the benefit
692 692 * of thr_join(). The trailing members are unneeded for this purpose.
693 693 */
694 694 #define REPLACEMENT_SIZE ((size_t)&((ulwp_t *)NULL)->ul_sigmask)
695 695
696 696 /*
697 697 * Definitions for static initialization of signal sets,
698 698 * plus some sneaky optimizations in various places.
699 699 */
700 700
701 701 #define SIGMASK(sig) ((uint32_t)1 << (((sig) - 1) & (32 - 1)))
702 702
703 703 #if (MAXSIG > (2 * 32) && MAXSIG <= (3 * 32))
704 704 #define FILLSET0 0xffffffffu
705 705 #define FILLSET1 0xffffffffu
706 706 #define FILLSET2 ((1u << (MAXSIG - 64)) - 1)
707 707 #define FILLSET3 0
708 708 #else
709 709 #error "fix me: MAXSIG out of bounds"
710 710 #endif
711 711
712 712 #define CANTMASK0 (SIGMASK(SIGKILL) | SIGMASK(SIGSTOP))
713 713 #define CANTMASK1 0
714 714 #define CANTMASK2 0
715 715 #define CANTMASK3 0
716 716
717 717 #define MASKSET0 (FILLSET0 & ~CANTMASK0)
718 718 #define MASKSET1 (FILLSET1 & ~CANTMASK1)
719 719 #define MASKSET2 (FILLSET2 & ~CANTMASK2)
720 720 #define MASKSET3 (FILLSET3 & ~CANTMASK3)
721 721
722 722 extern const sigset_t maskset; /* set of all maskable signals */
723 723
724 724 extern int thread_adaptive_spin;
725 725 extern uint_t thread_max_spinners;
726 726 extern int thread_queue_spin;
727 727 extern int thread_queue_fifo;
728 728 extern int thread_queue_dump;
729 729 extern int thread_cond_wait_defer;
730 730 extern int thread_async_safe;
731 731 extern int thread_queue_verify;
732 732
733 733 /*
734 734 * pthread_atfork() related data, used to store atfork handlers.
735 735 */
736 736 typedef struct atfork {
737 737 struct atfork *forw; /* forward pointer */
738 738 struct atfork *back; /* backward pointer */
739 739 void (*prepare)(void); /* pre-fork handler */
740 740 void (*parent)(void); /* post-fork parent handler */
741 741 void (*child)(void); /* post-fork child handler */
742 742 } atfork_t;
743 743
744 744 /*
745 745 * Element in the table and in the list of registered process
746 746 * robust locks. We keep track of these to make sure that we
747 747 * only call ___lwp_mutex_register() once for each such lock
748 748 * after it is first mapped in (or newly mapped in).
749 749 */
750 750 typedef struct robust {
751 751 struct robust *robust_next; /* hash table list */
752 752 struct robust *robust_list; /* global list */
753 753 mutex_t *robust_lock;
754 754 } robust_t;
755 755
756 756 /*
757 757 * Invalid address, used to mark an unused element in the hash table.
758 758 */
759 759 #define INVALID_ADDR ((void *)(uintptr_t)(-1L))
760 760
761 761 /*
762 762 * Parameters of the lock registration hash table.
763 763 */
764 764 #define LOCKSHIFT 15 /* number of hashing bits */
765 765 #define LOCKHASHSZ (1 << LOCKSHIFT) /* power of 2 (1<<15 == 32K) */
766 766 #define LOCK_HASH(addr) (uint_t) \
767 767 ((((uintptr_t)(addr) >> 3) \
768 768 ^ ((uintptr_t)(addr) >> (LOCKSHIFT + 3))) \
769 769 & (LOCKHASHSZ - 1))
770 770
771 771 /*
772 772 * Make our hot locks reside on private cache lines (64 bytes).
773 773 */
774 774 typedef struct {
775 775 mutex_t pad_lock;
776 776 char pad_pad[64 - sizeof (mutex_t)];
777 777 } pad_lock_t;
778 778
779 779 /*
780 780 * Make our semi-hot locks reside on semi-private cache lines (32 bytes).
781 781 */
782 782 typedef struct {
783 783 mutex_t pad_lock;
784 784 char pad_pad[32 - sizeof (mutex_t)];
785 785 } pad32_lock_t;
786 786
787 787 /*
788 788 * The threads hash table is used for fast lookup and locking of an active
789 789 * thread structure (ulwp_t) given a thread-id. It is an N-element array of
790 790 * thr_hash_table_t structures, where N == 1 before the main thread creates
791 791 * the first additional thread and N == 1024 afterwards. Each element of the
792 792 * table is 64 bytes in size and alignment to reduce cache conflicts.
793 793 */
794 794 typedef struct {
795 795 mutex_t hash_lock; /* lock per bucket */
796 796 cond_t hash_cond; /* convar per bucket */
797 797 ulwp_t *hash_bucket; /* hash bucket points to the list of ulwps */
798 798 char hash_pad[64 - /* pad out to 64 bytes */
799 799 (sizeof (mutex_t) + sizeof (cond_t) + sizeof (ulwp_t *))];
800 800 } thr_hash_table_t;
801 801
802 802 #ifdef _SYSCALL32
803 803 typedef struct {
804 804 mutex_t hash_lock;
805 805 cond_t hash_cond;
806 806 caddr32_t hash_bucket;
807 807 char hash_pad[64 -
808 808 (sizeof (mutex_t) + sizeof (cond_t) + sizeof (caddr32_t))];
809 809 } thr_hash_table32_t;
810 810 #endif /* _SYSCALL32 */
811 811
812 812
813 813 /*
814 814 * siguaction members have 128-byte size and 64-byte alignment.
815 815 * We know that sizeof (struct sigaction) is 32 bytes for both
816 816 * _ILP32 and _LP64 and that sizeof (rwlock_t) is 64 bytes.
817 817 */
818 818 typedef struct {
819 819 rwlock_t sig_lock;
820 820 struct sigaction sig_uaction;
821 821 char sig_pad[128 - sizeof (rwlock_t) - sizeof (struct sigaction)];
822 822 } siguaction_t;
823 823
824 824 #ifdef _SYSCALL32
825 825 typedef struct {
826 826 rwlock_t sig_lock;
827 827 struct sigaction32 sig_uaction;
828 828 char sig_pad[128 - sizeof (rwlock_t) - sizeof (struct sigaction32)];
829 829 } siguaction32_t;
830 830 #endif /* _SYSCALL32 */
831 831
832 832
833 833 /*
834 834 * Bucket structures, used by lmalloc()/lfree().
835 835 * See port/threads/alloc.c for details.
836 836 * A bucket's size and alignment is 64 bytes.
837 837 */
838 838 typedef struct {
839 839 mutex_t bucket_lock; /* protects the free list allocations */
840 840 void *free_list; /* LIFO list of blocks to allocate/free */
841 841 size_t chunks; /* number of 64K blocks mmap()ed last time */
842 842 char pad64[64 - /* pad out to 64 bytes */
843 843 (sizeof (mutex_t) + sizeof (void *) + sizeof (size_t))];
844 844 } bucket_t;
845 845
846 846 #ifdef _SYSCALL32
847 847 typedef struct {
848 848 mutex_t bucket_lock;
849 849 caddr32_t free_list;
850 850 size32_t chunks;
851 851 char pad64[64 - /* pad out to 64 bytes */
852 852 (sizeof (mutex_t) + sizeof (caddr32_t) + sizeof (size32_t))];
853 853 } bucket32_t;
854 854 #endif /* _SYSCALL32 */
855 855
856 856 #define NBUCKETS 10 /* sizes ranging from 64 to 32768 */
857 857
858 858
859 859 /*
860 860 * atexit() data structures.
861 861 * See port/gen/atexit.c for details.
862 862 */
863 863 typedef void (*_exithdlr_func_t) (void*);
864 864
865 865 typedef struct _exthdlr {
866 866 struct _exthdlr *next; /* next in handler list */
867 867 _exithdlr_func_t hdlr; /* handler itself */
868 868 void *arg; /* argument to handler */
869 869 void *dso; /* DSO associated with handler */
870 870 } _exthdlr_t;
871 871
872 872 typedef struct {
873 873 mutex_t exitfns_lock;
874 874 _exthdlr_t *head;
875 875 /*
876 876 * exit_frame_monitor is part of a private contract between libc and
877 877 * the Sun C++ runtime.
878 878 *
879 879 * It should be NULL until exit() is called, and thereafter hold the
880 880 * frame pointer of the function implementing our exit processing.
881 881 */
882 882 void *exit_frame_monitor;
883 883 char exit_pad[64 - /* pad out to 64 bytes */
884 884 (sizeof (mutex_t) + sizeof (_exthdlr_t *) + sizeof (void *))];
885 885 } atexit_root_t;
886 886
887 887 #ifdef _SYSCALL32
888 888 typedef struct {
889 889 mutex_t exitfns_lock;
890 890 caddr32_t head;
891 891 caddr32_t exit_frame_monitor;
892 892 char exit_pad[64 - /* pad out to 64 bytes */
893 893 (sizeof (mutex_t) + sizeof (caddr32_t) + sizeof (caddr32_t))];
894 894 } atexit_root32_t;
895 895 #endif /* _SYSCALL32 */
896 896
897 897 /*
898 898 * at_quick_exit() and quick_exit() data structures. The ISO/IEC C11 odd
899 899 * siblings of atexit()
900 900 */
901 901 typedef void (*_quick_exithdlr_func_t)(void);
902 902
903 903 typedef struct _qexthdlr {
904 904 struct _qexthdlr *next; /* next in handler list */
905 905 _quick_exithdlr_func_t hdlr; /* handler itself */
906 906 } _qexthdlr_t;
907 907
908 908 /*
909 909 * We add a pad on 32-bit systems to allow us to always have the structure size
910 910 * be 32-bytes which helps us deal with the compiler's alignment when building
911 911 * in ILP32 / LP64 systems.
912 912 */
913 913 typedef struct {
914 914 mutex_t exitfns_lock;
915 915 _qexthdlr_t *head;
916 916 #if !defined(_LP64)
917 917 uint32_t pad;
918 918 #endif
919 919 } quickexit_root_t;
920 920
921 921 #ifdef _SYSCALL32
922 922 typedef struct {
923 923 mutex_t exitfns_lock;
924 924 caddr32_t head;
925 925 uint32_t pad;
926 926 } quickexit_root32_t;
927 927 #endif /* _SYSCALL32 */
928 928
929 929 /*
930 930 * This is data that is global to all link maps (uberdata, aka super-global).
931 931 * Note: When changing this, please be sure to keep the 32-bit variant of
932 932 * this in sync. (see uberdata32_t below)
933 933 */
934 934 typedef struct uberdata {
935 935 pad_lock_t _link_lock;
936 936 pad_lock_t _ld_lock;
937 937 pad_lock_t _fork_lock;
938 938 pad_lock_t _atfork_lock;
939 939 pad32_lock_t _callout_lock;
940 940 pad32_lock_t _tdb_hash_lock;
941 941 tdb_sync_stats_t tdb_hash_lock_stats;
942 942 siguaction_t siguaction[NSIG];
943 943 bucket_t bucket[NBUCKETS];
944 944 atexit_root_t atexit_root;
945 945 quickexit_root_t quickexit_root;
946 946 tsd_metadata_t tsd_metadata;
947 947 tls_metadata_t tls_metadata;
948 948 /*
949 949 * Every object before this point has size and alignment of 64 bytes.
950 950 * Don't add any other type of data before this point.
951 951 */
952 952 char primary_map; /* set when primary link map is initialized */
953 953 char bucket_init; /* set when bucket[NBUCKETS] is initialized */
954 954 char pad[2];
955 955 uberflags_t uberflags;
956 956 queue_head_t *queue_head;
957 957 thr_hash_table_t *thr_hash_table;
958 958 uint_t hash_size; /* # of entries in thr_hash_table[] */
959 959 uint_t hash_mask; /* hash_size - 1 */
960 960 ulwp_t *ulwp_one; /* main thread */
961 961 ulwp_t *all_lwps; /* circular ul_forw/ul_back list of live lwps */
962 962 ulwp_t *all_zombies; /* circular ul_forw/ul_back list of zombies */
963 963 int nthreads; /* total number of live threads/lwps */
964 964 int nzombies; /* total number of zombie threads */
965 965 int ndaemons; /* total number of THR_DAEMON threads/lwps */
966 966 pid_t pid; /* the current process's pid */
967 967 void (*sigacthandler)(int, siginfo_t *, void *);
968 968 int (*setctxt)(const ucontext_t *);
969 969 ulwp_t *lwp_stacks;
970 970 ulwp_t *lwp_laststack;
971 971 int nfreestack;
972 972 int thread_stack_cache;
973 973 ulwp_t *ulwp_freelist;
974 974 ulwp_t *ulwp_lastfree;
975 975 ulwp_t *ulwp_replace_free;
976 976 ulwp_t *ulwp_replace_last;
977 977 atfork_t *atforklist; /* circular Q for fork handlers */
978 978 robust_t **robustlocks; /* table of registered robust locks */
979 979 robust_t *robustlist; /* list of registered robust locks */
980 980 char *progname; /* the basename of the program, from argv[0] */
981 981 char *ub_broot; /* the root of the native code in the brand */
982 982 void *ub_comm_page; /* arch-specific comm page of kernel data */
983 983 struct uberdata **tdb_bootstrap;
984 984 tdb_t tdb; /* thread debug interfaces (for libc_db) */
985 985 } uberdata_t;
986 986
987 987 #define link_lock _link_lock.pad_lock
988 988 #define ld_lock _ld_lock.pad_lock
989 989 #define fork_lock _fork_lock.pad_lock
990 990 #define atfork_lock _atfork_lock.pad_lock
991 991 #define callout_lock _callout_lock.pad_lock
992 992 #define tdb_hash_lock _tdb_hash_lock.pad_lock
993 993
994 994 #pragma align 64(__uberdata)
995 995 extern uberdata_t __uberdata;
996 996 extern uberdata_t **__tdb_bootstrap; /* known to libc_db and mdb */
997 997 extern int primary_link_map;
998 998
999 999 #define ulwp_mutex(ulwp, udp) \
1000 1000 (&(udp)->thr_hash_table[(ulwp)->ul_ix].hash_lock)
1001 1001 #define ulwp_condvar(ulwp, udp) \
1002 1002 (&(udp)->thr_hash_table[(ulwp)->ul_ix].hash_cond)
1003 1003
1004 1004 /*
1005 1005 * Grab and release the hash table lock for the specified lwp.
1006 1006 */
1007 1007 #define ulwp_lock(ulwp, udp) lmutex_lock(ulwp_mutex(ulwp, udp))
1008 1008 #define ulwp_unlock(ulwp, udp) lmutex_unlock(ulwp_mutex(ulwp, udp))
1009 1009
1010 1010 #ifdef _SYSCALL32 /* needed by libc_db */
1011 1011
1012 1012 typedef struct ulwp32 {
1013 1013 #if defined(__sparc)
1014 1014 uint32_t ul_dinstr; /* scratch space for dtrace */
1015 1015 uint32_t ul_padsparc0[15];
1016 1016 uint32_t ul_dsave; /* dtrace: save %g1, %g0, %sp */
1017 1017 uint32_t ul_drestore; /* dtrace: restore %g0, %g0, %g0 */
1018 1018 uint32_t ul_dftret; /* dtrace: return probe fasttrap */
1019 1019 uint32_t ul_dreturn; /* dtrace: return %o0 */
1020 1020 #endif
1021 1021 caddr32_t ul_self; /* pointer to self */
1022 1022 #if defined(__x86)
1023 1023 uint8_t ul_dinstr[40]; /* scratch space for dtrace */
1024 1024 #endif
1025 1025 caddr32_t ul_uberdata; /* uber (super-global) data */
1026 1026 tls32_t ul_tls; /* dynamic thread-local storage base */
1027 1027 caddr32_t ul_forw; /* forw, back all_lwps list, */
1028 1028 caddr32_t ul_back; /* protected by link_lock */
1029 1029 caddr32_t ul_next; /* list to keep track of stacks */
1030 1030 caddr32_t ul_hash; /* hash chain linked list */
1031 1031 caddr32_t ul_rval; /* return value from thr_exit() */
1032 1032 caddr32_t ul_stk; /* mapping base of the stack */
1033 1033 size32_t ul_mapsiz; /* mapping size of the stack */
1034 1034 size32_t ul_guardsize; /* normally _lpagesize */
1035 1035 caddr32_t ul_stktop; /* broken thr_stksegment() interface */
1036 1036 size32_t ul_stksiz; /* broken thr_stksegment() interface */
1037 1037 stack32_t ul_ustack; /* current stack boundaries */
1038 1038 int ul_ix; /* hash index */
1039 1039 lwpid_t ul_lwpid; /* thread id, aka the lwp id */
1040 1040 pri_t ul_pri; /* scheduling priority */
1041 1041 pri_t ul_epri; /* real-time ceiling priority */
1042 1042 char ul_policy; /* scheduling policy */
1043 1043 char ul_cid; /* scheduling class id */
1044 1044 union {
1045 1045 struct {
1046 1046 char cursig; /* deferred signal number */
1047 1047 char pleasestop; /* lwp requested to stop itself */
1048 1048 } s;
1049 1049 short curplease; /* for testing both at once */
1050 1050 } ul_cp;
1051 1051 char ul_stop; /* reason for stopping */
1052 1052 char ul_signalled; /* this lwp was cond_signal()d */
1053 1053 char ul_dead; /* this lwp has called thr_exit */
1054 1054 char ul_unwind; /* posix: unwind C++ stack */
1055 1055 char ul_detached; /* THR_DETACHED at thread_create() */
1056 1056 /* or pthread_detach() was called */
1057 1057 char ul_writer; /* sleeping in rw_wrlock() */
1058 1058 char ul_stopping; /* set by curthread: stopping self */
1059 1059 char ul_cancel_prologue; /* for _cancel_prologue() */
1060 1060 short ul_preempt; /* no_preempt()/preempt() */
1061 1061 short ul_savpreempt; /* pre-existing preempt value */
1062 1062 char ul_sigsuspend; /* thread is in sigsuspend/pollsys */
1063 1063 char ul_main; /* thread is the main thread */
1064 1064 char ul_fork; /* thread is performing a fork */
1065 1065 char ul_primarymap; /* primary link-map is initialized */
1066 1066 /* per-thread copies of the corresponding global variables */
1067 1067 uint8_t ul_max_spinners; /* thread_max_spinners */
1068 1068 char ul_door_noreserve; /* thread_door_noreserve */
1069 1069 char ul_queue_fifo; /* thread_queue_fifo */
1070 1070 char ul_cond_wait_defer; /* thread_cond_wait_defer */
1071 1071 char ul_error_detection; /* thread_error_detection */
1072 1072 char ul_async_safe; /* thread_async_safe */
1073 1073 char ul_rt; /* found on an RT queue */
1074 1074 char ul_rtqueued; /* was RT when queued */
1075 1075 char ul_misaligned; /* thread_locks_misaligned */
1076 1076 char ul_pad[3];
1077 1077 int ul_adaptive_spin; /* thread_adaptive_spin */
1078 1078 int ul_queue_spin; /* thread_queue_spin */
1079 1079 int ul_critical; /* non-zero == in a critical region */
1080 1080 int ul_sigdefer; /* non-zero == defer signals */
1081 1081 int ul_vfork; /* thread is the child of vfork() */
1082 1082 int ul_cancelable; /* _cancelon()/_canceloff() */
1083 1083 char ul_cancel_pending; /* pthread_cancel() was called */
1084 1084 char ul_cancel_disabled; /* PTHREAD_CANCEL_DISABLE */
1085 1085 char ul_cancel_async; /* PTHREAD_CANCEL_ASYNCHRONOUS */
1086 1086 char ul_save_async; /* saved copy of ul_cancel_async */
1087 1087 char ul_mutator; /* lwp is a mutator (java interface) */
1088 1088 char ul_created; /* created suspended */
1089 1089 char ul_replace; /* replacement; must be free()d */
1090 1090 uchar_t ul_nocancel; /* cancellation can't happen */
1091 1091 int ul_errno; /* per-thread errno */
1092 1092 caddr32_t ul_errnop; /* pointer to errno or self->ul_errno */
1093 1093 caddr32_t ul_clnup_hdr; /* head of cleanup handlers list */
1094 1094 caddr32_t ul_schedctl_called; /* ul_schedctl is set up */
1095 1095 caddr32_t ul_schedctl; /* schedctl data */
1096 1096 int ul_bindflags; /* bind_guard() interface to ld.so.1 */
1097 1097 uint_t ul_libc_locks; /* count of cancel_safe_mutex_lock()s */
1098 1098 caddr32_t ul_stsd; /* slow TLS for keys >= TSD_NFAST */
1099 1099 caddr32_t ul_ftsd[TSD_NFAST]; /* fast TLS for keys < TSD_NFAST */
1100 1100 td_evbuf32_t ul_td_evbuf; /* event buffer */
1101 1101 char ul_td_events_enable; /* event mechanism enabled */
1102 1102 char ul_sync_obj_reg; /* tdb_sync_obj_register() */
1103 1103 char ul_qtype; /* MX or CV */
1104 1104 char ul_cv_wake; /* != 0: just wake up, don't requeue */
1105 1105 int ul_rtld; /* thread is running inside ld.so.1 */
1106 1106 int ul_usropts; /* flags given to thr_create() */
1107 1107 caddr32_t ul_startpc; /* start func (thr_create()) */
1108 1108 caddr32_t ul_startarg; /* argument for start function */
1109 1109 caddr32_t ul_wchan; /* synch object when sleeping */
1110 1110 caddr32_t ul_link; /* sleep queue link */
1111 1111 caddr32_t ul_sleepq; /* sleep queue thread is waiting on */
1112 1112 caddr32_t ul_cvmutex; /* mutex dropped when waiting on a cv */
1113 1113 caddr32_t ul_mxchain; /* chain of owned ceiling mutexes */
1114 1114 int ul_save_state; /* bind_guard() interface to ld.so.1 */
1115 1115 uint_t ul_rdlockcnt; /* # entries in ul_readlock array */
1116 1116 /* 0 means there is but a single entry */
1117 1117 union { /* single entry or pointer to array */
1118 1118 readlock32_t single;
1119 1119 caddr32_t array;
1120 1120 } ul_readlock;
1121 1121 uint_t ul_heldlockcnt; /* # entries in ul_heldlocks array */
1122 1122 /* 0 means there is but a single entry */
1123 1123 union { /* single entry or pointer to array */
1124 1124 caddr32_t single;
1125 1125 caddr32_t array;
1126 1126 } ul_heldlocks;
1127 1127 /* PROBE_SUPPORT begin */
1128 1128 caddr32_t ul_tpdp;
1129 1129 /* PROBE_SUPPORT end */
1130 1130 caddr32_t ul_siglink; /* pointer to previous context */
1131 1131 uint_t ul_spin_lock_spin; /* spin lock statistics */
1132 1132 uint_t ul_spin_lock_spin2;
1133 1133 uint_t ul_spin_lock_sleep;
1134 1134 uint_t ul_spin_lock_wakeup;
1135 1135 queue_root32_t ul_queue_root; /* root of a sleep queue */
1136 1136 id_t ul_rtclassid; /* real-time class id */
1137 1137 uint_t ul_pilocks; /* count of PI locks held */
1138 1138 /* the following members *must* be last in the structure */
1139 1139 /* they are discarded when ulwp is replaced on thr_exit() */
1140 1140 sigset_t ul_sigmask; /* thread's current signal mask */
1141 1141 sigset_t ul_tmpmask; /* signal mask for sigsuspend/pollsys */
1142 1142 siginfo32_t ul_siginfo; /* deferred siginfo */
1143 1143 mutex_t ul_spinlock; /* used when suspending/continuing */
1144 1144 fpuenv32_t ul_fpuenv; /* floating point state */
1145 1145 caddr32_t ul_sp; /* stack pointer when blocked */
1146 1146 #if defined(sparc)
1147 1147 caddr32_t ul_unwind_ret; /* used only by _ex_clnup_handler() */
1148 1148 #endif
1149 1149 tumem32_t ul_tmem; /* used only by umem */
1150 1150 } ulwp32_t;
1151 1151
1152 1152 #define REPLACEMENT_SIZE32 ((size_t)&((ulwp32_t *)NULL)->ul_sigmask)
1153 1153
1154 1154 typedef struct uberdata32 {
1155 1155 pad_lock_t _link_lock;
1156 1156 pad_lock_t _ld_lock;
1157 1157 pad_lock_t _fork_lock;
1158 1158 pad_lock_t _atfork_lock;
1159 1159 pad32_lock_t _callout_lock;
1160 1160 pad32_lock_t _tdb_hash_lock;
1161 1161 tdb_sync_stats_t tdb_hash_lock_stats;
1162 1162 siguaction32_t siguaction[NSIG];
1163 1163 bucket32_t bucket[NBUCKETS];
1164 1164 atexit_root32_t atexit_root;
1165 1165 quickexit_root32_t quickexit_root;
1166 1166 tsd_metadata32_t tsd_metadata;
1167 1167 tls_metadata32_t tls_metadata;
1168 1168 char primary_map;
1169 1169 char bucket_init;
1170 1170 char pad[2];
1171 1171 uberflags_t uberflags;
1172 1172 caddr32_t queue_head;
1173 1173 caddr32_t thr_hash_table;
1174 1174 uint_t hash_size;
1175 1175 uint_t hash_mask;
1176 1176 caddr32_t ulwp_one;
1177 1177 caddr32_t all_lwps;
1178 1178 caddr32_t all_zombies;
1179 1179 int nthreads;
1180 1180 int nzombies;
1181 1181 int ndaemons;
1182 1182 int pid;
1183 1183 caddr32_t sigacthandler;
1184 1184 caddr32_t setctxt;
1185 1185 caddr32_t lwp_stacks;
1186 1186 caddr32_t lwp_laststack;
1187 1187 int nfreestack;
1188 1188 int thread_stack_cache;
1189 1189 caddr32_t ulwp_freelist;
1190 1190 caddr32_t ulwp_lastfree;
1191 1191 caddr32_t ulwp_replace_free;
1192 1192 caddr32_t ulwp_replace_last;
1193 1193 caddr32_t atforklist;
1194 1194 caddr32_t robustlocks;
1195 1195 caddr32_t robustlist;
1196 1196 caddr32_t progname;
1197 1197 caddr32_t ub_broot;
1198 1198 caddr32_t ub_comm_page;
1199 1199 caddr32_t tdb_bootstrap;
1200 1200 tdb32_t tdb;
1201 1201 } uberdata32_t;
1202 1202
1203 1203 #endif /* _SYSCALL32 */
1204 1204
1205 1205 /* ul_stop values */
1206 1206 #define TSTP_REGULAR 0x01 /* Stopped by thr_suspend() */
1207 1207 #define TSTP_MUTATOR 0x08 /* stopped by thr_suspend_*mutator*() */
1208 1208 #define TSTP_FORK 0x20 /* stopped by suspend_fork() */
1209 1209
1210 1210 /*
1211 1211 * Implementation-specific attribute types for pthread_mutexattr_init() etc.
1212 1212 */
1213 1213
1214 1214 typedef struct _cvattr {
1215 1215 int pshared;
1216 1216 clockid_t clockid;
1217 1217 } cvattr_t;
1218 1218
1219 1219 typedef struct _mattr {
1220 1220 int pshared;
1221 1221 int protocol;
1222 1222 int prioceiling;
1223 1223 int type;
1224 1224 int robustness;
1225 1225 } mattr_t;
1226 1226
1227 1227 typedef struct _thrattr {
1228 1228 size_t stksize;
1229 1229 void *stkaddr;
1230 1230 int detachstate;
1231 1231 int daemonstate;
1232 1232 int scope;
1233 1233 int prio;
1234 1234 int policy;
1235 1235 int inherit;
1236 1236 size_t guardsize;
1237 1237 } thrattr_t;
1238 1238
1239 1239 typedef struct _rwlattr {
1240 1240 int pshared;
1241 1241 } rwlattr_t;
1242 1242
1243 1243 /* _curthread() is inline for speed */
1244 1244 extern ulwp_t *_curthread(void);
1245 1245 #define curthread (_curthread())
1246 1246
1247 1247 /* this version (also inline) can be tested for NULL */
1248 1248 extern ulwp_t *__curthread(void);
1249 1249
1250 1250 /* get the current stack pointer (also inline) */
1251 1251 extern greg_t stkptr(void);
1252 1252
1253 1253 /*
1254 1254 * Suppress __attribute__((...)) if we are not compiling with gcc
1255 1255 */
1256 1256 #if !defined(__GNUC__)
1257 1257 #define __attribute__(string)
1258 1258 #endif
1259 1259
1260 1260 /* Fetch the dispatch (kernel) priority of a thread */
1261 1261 #define real_priority(ulwp) \
1262 1262 ((ulwp)->ul_schedctl? (ulwp)->ul_schedctl->sc_priority : 0)
1263 1263
1264 1264 /*
1265 1265 * Implementation functions. Not visible outside of the library itself.
1266 1266 */
1267 1267 extern int __nanosleep(const timespec_t *, timespec_t *);
1268 1268 extern void getgregs(ulwp_t *, gregset_t);
1269 1269 extern void setgregs(ulwp_t *, gregset_t);
1270 1270 extern void thr_panic(const char *);
1271 1271 #pragma rarely_called(thr_panic)
1272 1272 extern void mutex_panic(mutex_t *, const char *);
1273 1273 #pragma rarely_called(mutex_panic)
1274 1274 extern ulwp_t *find_lwp(thread_t);
1275 1275 extern void finish_init(void);
1276 1276 extern void update_sched(ulwp_t *);
1277 1277 extern void queue_alloc(void);
1278 1278 extern void tmem_exit(void);
1279 1279 extern void tsd_exit(void);
1280 1280 extern void tsd_free(ulwp_t *);
1281 1281 extern void tls_setup(void);
1282 1282 extern void tls_exit(void);
1283 1283 extern void tls_free(ulwp_t *);
1284 1284 extern void rwl_free(ulwp_t *);
1285 1285 extern void heldlock_exit(void);
1286 1286 extern void heldlock_free(ulwp_t *);
1287 1287 extern void sigacthandler(int, siginfo_t *, void *);
1288 1288 extern int setctxt(const ucontext_t *);
1289 1289 extern void signal_init(void);
1290 1290 extern int sigequalset(const sigset_t *, const sigset_t *);
1291 1291 extern void mutex_setup(void);
1292 1292 extern void take_deferred_signal(int);
1293 1293 extern void *setup_top_frame(void *, size_t, ulwp_t *);
1294 1294 extern int setup_context(ucontext_t *, void *(*func)(ulwp_t *),
1295 1295 ulwp_t *ulwp, caddr_t stk, size_t stksize);
1296 1296 extern volatile sc_shared_t *setup_schedctl(void);
1297 1297 extern void *lmalloc(size_t);
1298 1298 extern void lfree(void *, size_t);
1299 1299 extern void *libc_malloc(size_t);
1300 1300 extern void *libc_realloc(void *, size_t);
1301 1301 extern void libc_free(void *);
1302 1302 extern char *libc_strdup(const char *);
1303 1303 extern void ultos(uint64_t, int, char *);
1304 1304 extern void lock_error(const mutex_t *, const char *, void *, const char *);
1305 1305 extern void rwlock_error(const rwlock_t *, const char *, const char *);
1306 1306 extern void thread_error(const char *);
1307 1307 extern void grab_assert_lock(void);
1308 1308 extern void dump_queue_statistics(void);
1309 1309 extern void collect_queue_statistics(void);
1310 1310 extern void record_spin_locks(ulwp_t *);
1311 1311 extern void remember_lock(mutex_t *);
1312 1312 extern void forget_lock(mutex_t *);
1313 1313 extern void register_lock(mutex_t *);
1314 1314 extern void unregister_locks(void);
1315 1315 #if defined(__sparc)
1316 1316 extern void _flush_windows(void);
1317 1317 #else
1318 1318 #define _flush_windows()
1319 1319 #endif
1320 1320 extern void set_curthread(void *);
1321 1321
1322 1322 /*
1323 1323 * Utility function used when waking up many threads (more than MAXLWPS)
1324 1324 * all at once. See mutex_wakeup_all(), cond_broadcast(), and rw_unlock().
1325 1325 */
1326 1326 #define MAXLWPS 128 /* max remembered lwpids before overflow */
1327 1327 #define NEWLWPS 2048 /* max remembered lwpids at first overflow */
1328 1328 extern lwpid_t *alloc_lwpids(lwpid_t *, int *, int *);
1329 1329
1330 1330 /* enter a critical section */
1331 1331 #define enter_critical(self) (self->ul_critical++)
1332 1332
1333 1333 /* exit a critical section, take deferred actions if necessary */
1334 1334 extern void do_exit_critical(void);
1335 1335 #define exit_critical(self) \
1336 1336 (void) (self->ul_critical--, \
1337 1337 ((self->ul_curplease && self->ul_critical == 0)? \
1338 1338 (do_exit_critical(), 0) : 0))
1339 1339
1340 1340 /*
1341 1341 * Like enter_critical()/exit_critical() but just for deferring signals.
1342 1342 * Unlike enter_critical()/exit_critical(), ul_sigdefer may be set while
1343 1343 * calling application functions like constructors and destructors.
1344 1344 * Care must be taken if the application function attempts to set
1345 1345 * the signal mask while a deferred signal is present; the setting
1346 1346 * of the signal mask must also be deferred.
1347 1347 */
1348 1348 #define sigoff(self) (self->ul_sigdefer++)
1349 1349 #define sigon(self) \
1350 1350 (void) ((--self->ul_sigdefer == 0 && \
1351 1351 self->ul_curplease && self->ul_critical == 0)? \
1352 1352 (do_exit_critical(), 0) : 0)
1353 1353
1354 1354 /* these are exported functions */
1355 1355 extern void _sigoff(void);
1356 1356 extern void _sigon(void);
1357 1357
1358 1358 #define sigorset(s1, s2) \
1359 1359 (((s1)->__sigbits[0] |= (s2)->__sigbits[0]), \
1360 1360 ((s1)->__sigbits[1] |= (s2)->__sigbits[1]), \
1361 1361 ((s1)->__sigbits[2] |= (s2)->__sigbits[2]), \
1362 1362 ((s1)->__sigbits[3] |= (s2)->__sigbits[3]))
1363 1363
1364 1364 #define sigandset(s1, s2) \
1365 1365 (((s1)->__sigbits[0] &= (s2)->__sigbits[0]), \
1366 1366 ((s1)->__sigbits[1] &= (s2)->__sigbits[1]), \
1367 1367 ((s1)->__sigbits[2] &= (s2)->__sigbits[2]), \
1368 1368 ((s1)->__sigbits[3] &= (s2)->__sigbits[3]))
1369 1369
1370 1370 #define sigdiffset(s1, s2) \
1371 1371 (((s1)->__sigbits[0] &= ~(s2)->__sigbits[0]), \
1372 1372 ((s1)->__sigbits[1] &= ~(s2)->__sigbits[1]), \
1373 1373 ((s1)->__sigbits[2] &= ~(s2)->__sigbits[2]), \
1374 1374 ((s1)->__sigbits[3] &= ~(s2)->__sigbits[3]))
1375 1375
1376 1376 #define delete_reserved_signals(s) \
1377 1377 (((s)->__sigbits[0] &= MASKSET0), \
1378 1378 ((s)->__sigbits[1] &= (MASKSET1 & ~SIGMASK(SIGCANCEL))),\
1379 1379 ((s)->__sigbits[2] &= MASKSET2), \
1380 1380 ((s)->__sigbits[3] &= MASKSET3))
1381 1381
1382 1382 extern void block_all_signals(ulwp_t *self);
1383 1383
1384 1384 /*
1385 1385 * When restoring the signal mask after having previously called
1386 1386 * block_all_signals(), if we have a deferred signal present then
1387 1387 * do nothing other than ASSERT() that we are in a critical region.
1388 1388 * The signal mask will be set when we emerge from the critical region
1389 1389 * and call take_deferred_signal(). There is no race condition here
1390 1390 * because the kernel currently has all signals blocked for this thread.
1391 1391 */
1392 1392 #define restore_signals(self) \
1393 1393 ((void) ((self)->ul_cursig? \
1394 1394 (ASSERT((self)->ul_critical + (self)->ul_sigdefer != 0), 0) : \
1395 1395 __lwp_sigmask(SIG_SETMASK, &(self)->ul_sigmask)))
1396 1396
1397 1397 extern void set_cancel_pending_flag(ulwp_t *, int);
1398 1398 extern void set_cancel_eintr_flag(ulwp_t *);
1399 1399 extern void set_parking_flag(ulwp_t *, int);
1400 1400 extern int cancel_active(void);
1401 1401
1402 1402 extern void *_thrp_setup(ulwp_t *);
1403 1403 extern void _fpinherit(ulwp_t *);
1404 1404 extern void _lwp_start(void);
1405 1405 extern void _lwp_terminate(void);
1406 1406 extern void lmutex_lock(mutex_t *);
1407 1407 extern void lmutex_unlock(mutex_t *);
1408 1408 extern void lrw_rdlock(rwlock_t *);
1409 1409 extern void lrw_wrlock(rwlock_t *);
1410 1410 extern void lrw_unlock(rwlock_t *);
1411 1411 extern void sig_mutex_lock(mutex_t *);
1412 1412 extern void sig_mutex_unlock(mutex_t *);
1413 1413 extern int sig_mutex_trylock(mutex_t *);
1414 1414 extern int sig_cond_wait(cond_t *, mutex_t *);
1415 1415 extern int sig_cond_reltimedwait(cond_t *, mutex_t *, const timespec_t *);
1416 1416 extern void cancel_safe_mutex_lock(mutex_t *);
1417 1417 extern void cancel_safe_mutex_unlock(mutex_t *);
1418 1418 extern int cancel_safe_mutex_trylock(mutex_t *);
1419 1419 extern void _prefork_handler(void);
1420 1420 extern void _postfork_parent_handler(void);
1421 1421 extern void _postfork_child_handler(void);
1422 1422 extern void postfork1_child(void);
1423 1423 extern void postfork1_child_aio(void);
1424 1424 extern void postfork1_child_sigev_aio(void);
1425 1425 extern void postfork1_child_sigev_mq(void);
1426 1426 extern void postfork1_child_sigev_timer(void);
1427 1427 extern void postfork1_child_tpool(void);
1428 1428 extern void fork_lock_enter(void);
1429 1429 extern void fork_lock_exit(void);
1430 1430 extern void suspend_fork(void);
1431 1431 extern void continue_fork(int);
1432 1432 extern void do_sigcancel(void);
1433 1433 extern void setup_cancelsig(int);
1434 1434 extern void init_sigev_thread(void);
1435 1435 extern void init_aio(void);
1436 1436 extern void init_progname(void);
1437 1437 extern void _cancelon(void);
1438 1438 extern void _canceloff(void);
1439 1439 extern void _canceloff_nocancel(void);
1440 1440 extern void _cancel_prologue(void);
1441 1441 extern void _cancel_epilogue(void);
1442 1442 extern void no_preempt(ulwp_t *);
1443 1443 extern void preempt(ulwp_t *);
1444 1444 extern void _thrp_unwind(void *);
1445 1445
1446 1446 extern pid_t __forkx(int);
1447 1447 extern pid_t __forkallx(int);
1448 1448 extern int __open(const char *, int, mode_t);
1449 1449 extern int __open64(const char *, int, mode_t);
1450 1450 extern int __openat(int, const char *, int, mode_t);
1451 1451 extern int __openat64(int, const char *, int, mode_t);
1452 1452 extern int __close(int);
1453 1453 extern ssize_t __read(int, void *, size_t);
1454 1454 extern ssize_t __write(int, const void *, size_t);
1455 1455 extern int __fcntl(int, int, ...);
1456 1456 extern int __lwp_continue(lwpid_t);
1457 1457 extern int __lwp_create(ucontext_t *, uint_t, lwpid_t *);
1458 1458 extern int ___lwp_suspend(lwpid_t);
1459 1459 extern int lwp_wait(lwpid_t, lwpid_t *);
1460 1460 extern int __lwp_wait(lwpid_t, lwpid_t *);
1461 1461 extern int __lwp_detach(lwpid_t);
1462 1462 extern sc_shared_t *__schedctl(void);
1463 1463
1464 1464 /* actual system call traps */
1465 1465 extern int __setcontext(const ucontext_t *);
1466 1466 extern int __getcontext(ucontext_t *);
1467 1467 extern int __clock_gettime(clockid_t, timespec_t *);
1468 1468 extern void abstime_to_reltime(clockid_t, const timespec_t *, timespec_t *);
1469 1469 extern void hrt2ts(hrtime_t, timespec_t *);
1470 1470
1471 1471 extern int __sigaction(int, const struct sigaction *, struct sigaction *);
1472 1472 extern int __sigprocmask(int, const sigset_t *, sigset_t *);
1473 1473 extern int __lwp_sigmask(int, const sigset_t *);
1474 1474 extern void __sighndlr(int, siginfo_t *, ucontext_t *, void (*)());
1475 1475 extern caddr_t __sighndlrend;
1476 1476 #pragma unknown_control_flow(__sighndlr)
1477 1477
1478 1478 /* belongs in <pthread.h> */
1479 1479 #define PTHREAD_CREATE_DAEMON_NP 0x100 /* = THR_DAEMON */
1480 1480 #define PTHREAD_CREATE_NONDAEMON_NP 0
1481 1481 extern int pthread_attr_setdaemonstate_np(pthread_attr_t *, int);
1482 1482 extern int pthread_attr_getdaemonstate_np(const pthread_attr_t *, int *);
1483 1483
1484 1484 extern int mutex_held(mutex_t *);
1485 1485 extern int mutex_lock_internal(mutex_t *, timespec_t *, int);
1486 1486 extern int mutex_unlock_internal(mutex_t *, int);
1487 1487
1488 1488 /* not cancellation points: */
1489 1489 extern int __cond_wait(cond_t *, mutex_t *);
1490 1490 extern int __cond_timedwait(cond_t *, mutex_t *, const timespec_t *);
1491 1491 extern int __cond_reltimedwait(cond_t *, mutex_t *, const timespec_t *);
1492 1492
1493 1493 extern int rw_read_held(rwlock_t *);
1494 1494 extern int rw_write_held(rwlock_t *);
1495 1495
1496 1496 extern int _thrp_create(void *, size_t, void *(*)(void *), void *, long,
1497 1497 thread_t *, size_t);
1498 1498 extern int _thrp_suspend(thread_t, uchar_t);
1499 1499 extern int _thrp_continue(thread_t, uchar_t);
1500 1500
1501 1501 extern void _thrp_terminate(void *);
1502 1502 extern void _thrp_exit(void);
1503 1503
1504 1504 extern const pcclass_t *get_info_by_class(id_t);
1505 1505 extern const pcclass_t *get_info_by_policy(int);
1506 1506 extern const thrattr_t *def_thrattr(void);
1507 1507 extern id_t setparam(idtype_t, id_t, int, int);
1508 1508 extern id_t setprio(idtype_t, id_t, int, int *);
1509 1509 extern id_t getparam(idtype_t, id_t, int *, struct sched_param *);
1510 1510
1511 1511 /*
1512 1512 * System call wrappers (direct interfaces to the kernel)
1513 1513 */
1514 1514 extern int ___lwp_mutex_register(mutex_t *, mutex_t **);
1515 1515 extern int ___lwp_mutex_trylock(mutex_t *, ulwp_t *);
1516 1516 extern int ___lwp_mutex_timedlock(mutex_t *, timespec_t *, ulwp_t *);
1517 1517 extern int ___lwp_mutex_unlock(mutex_t *);
1518 1518 extern int ___lwp_mutex_wakeup(mutex_t *, int);
1519 1519 extern int ___lwp_cond_wait(cond_t *, mutex_t *, timespec_t *, int);
1520 1520 extern int ___lwp_sema_timedwait(lwp_sema_t *, timespec_t *, int);
1521 1521 extern int __lwp_rwlock_rdlock(rwlock_t *, timespec_t *);
1522 1522 extern int __lwp_rwlock_wrlock(rwlock_t *, timespec_t *);
1523 1523 extern int __lwp_rwlock_tryrdlock(rwlock_t *);
1524 1524 extern int __lwp_rwlock_trywrlock(rwlock_t *);
1525 1525 extern int __lwp_rwlock_unlock(rwlock_t *);
1526 1526 extern int __lwp_park(timespec_t *, lwpid_t);
1527 1527 extern int __lwp_unpark(lwpid_t);
1528 1528 extern int __lwp_unpark_all(lwpid_t *, int);
1529 1529 #if defined(__x86)
1530 1530 extern int ___lwp_private(int, int, void *);
1531 1531 #endif /* __x86 */
1532 1532
1533 1533 /*
1534 1534 * inlines
1535 1535 */
1536 1536 extern int set_lock_byte(volatile uint8_t *);
1537 1537 extern uint32_t atomic_swap_32(volatile uint32_t *, uint32_t);
1538 1538 extern uint32_t atomic_cas_32(volatile uint32_t *, uint32_t, uint32_t);
1539 1539 extern void atomic_inc_32(volatile uint32_t *);
1540 1540 extern void atomic_dec_32(volatile uint32_t *);
1541 1541 extern void atomic_and_32(volatile uint32_t *, uint32_t);
1542 1542 extern void atomic_or_32(volatile uint32_t *, uint32_t);
1543 1543 #if defined(__sparc)
1544 1544 extern ulong_t caller(void);
1545 1545 extern ulong_t getfp(void);
1546 1546 #endif /* __sparc */
1547 1547
1548 1548 #include "thr_inlines.h"
1549 1549
1550 1550 #endif /* _THR_UBERDATA_H */
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