xref: /titanic_50/usr/src/lib/libc/inc/asyncio.h (revision 1e1ddd6cc98ab5af8293f7ebd132be62900730fd)
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 
22 /*
23  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef	_ASYNCIO_H
28 #define	_ASYNCIO_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifdef	__cplusplus
33 extern "C" {
34 #endif
35 
36 #include <stdio.h>
37 #include <stdlib.h>
38 #include <unistd.h>
39 #include <string.h>
40 #include <errno.h>
41 #include <sys/types.h>
42 #include <sys/stat.h>
43 #include <thread.h>
44 #include <pthread.h>
45 #include <setjmp.h>
46 #include <signal.h>
47 #include <siginfo.h>
48 #include <aio.h>
49 #include <limits.h>
50 #include <ucontext.h>
51 #include <sys/asynch.h>
52 #include <sys/mman.h>
53 
54 #if !defined(_LP64)
55 #define	AIOSTKSIZE	(64 * 1024)
56 #else
57 #define	AIOSTKSIZE	(128 * 1024)
58 #endif
59 
60 #define	SIGAIOCANCEL		SIGLWP	/* special aio cancelation signal */
61 
62 #define	AIO_WAITN_MAXIOCBS	32768	/* max. iocbs per system call */
63 
64 /*
65  * Declare structure types.  The structures themselves are defined below.
66  */
67 typedef struct aio_args		aio_args_t;
68 typedef struct aio_lio		aio_lio_t;
69 typedef struct notif_param	notif_param_t;
70 typedef struct aio_req		aio_req_t;
71 typedef struct aio_worker	aio_worker_t;
72 typedef struct aio_hash		aio_hash_t;
73 
74 struct aio_args {
75 	int 		fd;
76 	caddr_t		buf;
77 	size_t		bufsz;
78 	offset_t	offset;
79 };
80 
81 /*
82  * list head for UFS list I/O
83  */
84 struct aio_lio {
85 	mutex_t		lio_mutex;	/* list mutex */
86 	cond_t		lio_cond_cv;	/* list notification for I/O done */
87 	aio_lio_t	*lio_next;	/* pointer to next on freelist */
88 	char		lio_mode;	/* LIO_WAIT/LIO_NOWAIT */
89 	char		lio_canned;	/* lio was canceled */
90 	char		lio_largefile;	/* largefile operation */
91 	char		lio_waiting;	/* waiting in __lio_listio() */
92 	int		lio_nent;	/* Number of list I/O's */
93 	int		lio_refcnt;	/* outstanding I/O's */
94 	int		lio_event;	/* Event number for notification */
95 	int		lio_port;	/* Port number for notification */
96 	int		lio_signo;	/* Signal number for notification */
97 	union sigval	lio_sigval;	/* Signal parameter */
98 	uintptr_t	lio_object;	/* for SIGEV_THREAD or SIGEV_PORT */
99 	struct sigevent	*lio_sigevent;	/* Notification function and attr. */
100 };
101 
102 /*
103  * Notification parameters
104  */
105 struct notif_param {
106 	int		np_signo;	/* SIGEV_SIGNAL */
107 	int		np_port;	/* SIGEV_THREAD or SIGEV_PORT */
108 	void		*np_user;
109 	int		np_event;
110 	uintptr_t	np_object;
111 	int		np_lio_signo;	/* listio: SIGEV_SIGNAL */
112 	int		np_lio_port;	/* listio: SIGEV_THREAD or SIGEV_PORT */
113 	void		*np_lio_user;
114 	int		np_lio_event;
115 	uintptr_t	np_lio_object;
116 };
117 
118 struct aio_req {
119 	/*
120 	 * fields protected by _aio_mutex lock.
121 	 */
122 	aio_req_t *req_link;		/* hash/freelist chain link */
123 	/*
124 	 * when req is on the doneq, then req_next is protected by
125 	 * the _aio_mutex lock. when the req is on a work q, then
126 	 * req_next is protected by a worker's work_qlock1 lock.
127 	 */
128 	aio_req_t *req_next;		/* request/done queue link */
129 	aio_req_t *req_prev;		/* double linked list */
130 	/*
131 	 * fields protected by a worker's work_qlock1 lock.
132 	 */
133 	char		req_state;	/* AIO_REQ_QUEUED, ... */
134 	/*
135 	 * fields require no locking.
136 	 */
137 	char		req_type;	/* AIO_POSIX_REQ or not */
138 	char		req_largefile;	/* largefile operation */
139 	char		req_op;		/* AIOREAD, etc. */
140 	aio_worker_t	*req_worker;	/* associate request with worker */
141 	aio_result_t	*req_resultp;	/* address of result buffer */
142 	aio_args_t	req_args;	/* arglist */
143 	aio_lio_t	*req_head;	/* list head for LIO */
144 	struct sigevent	req_sigevent;
145 	void		*req_aiocbp;	/* ptr to aiocb or aiocb64 */
146 	notif_param_t	req_notify;	/* notification parameters */
147 };
148 
149 /* special lio type that destroys itself when lio refcnt becomes zero */
150 #define	LIO_FSYNC	LIO_WAIT+1
151 #define	LIO_DESTROY	LIO_FSYNC+1
152 
153 /* lio flags */
154 #define	LIO_FSYNC_CANCELED	0x1
155 
156 /* values for aio_state */
157 
158 #define	AIO_REQ_QUEUED		1
159 #define	AIO_REQ_INPROGRESS	2
160 #define	AIO_REQ_CANCELED	3
161 #define	AIO_REQ_DONE 		4
162 #define	AIO_REQ_FREE		5
163 #define	AIO_REQ_DONEQ 		6
164 
165 /* use KAIO in _aio_rw() */
166 #define	AIO_NO_KAIO		0x0
167 #define	AIO_KAIO		0x1
168 #define	AIO_NO_DUPS		0x2
169 
170 #define	AIO_POSIX_REQ		0x1
171 
172 #define	CHECK			1
173 #define	NOCHECK			2
174 #define	CHECKED			3
175 #define	USERAIO			4
176 #define	USERAIO_DONE		5
177 
178 /* values for _aio_flags */
179 
180 /* if set, _aiodone() notifies aio_waitn about done requests */
181 #define	AIO_WAIT_INPROGRESS	0x1
182 /* if set, _aiodone() wakes up functions waiting for completed I/Os */
183 #define	AIO_IO_WAITING		0x2
184 #define	AIO_LIB_WAITN		0x4	/* aio_waitn in progress */
185 #define	AIO_LIB_WAITN_PENDING	0x8	/* aio_waitn requests pending */
186 
187 /*
188  * Before a kaio() system call, the fd will be checked
189  * to ensure that kernel async. I/O is supported for this file.
190  * The only way to find out is if a kaio() call returns ENOTSUP,
191  * so the default will always be to try the kaio() call. Only in
192  * the specific instance of a kaio() call returning ENOTSUP
193  * will we stop submitting kaio() calls for that fd.
194  * If the fd is outside the array bounds, we will allow the kaio()
195  * call.
196  *
197  * The only way that an fd entry can go from ENOTSUP to supported
198  * is if that fd is freed up by a close(), and close will clear
199  * the entry for that fd.
200  *
201  * Each fd gets a bit in the array _kaio_supported[].
202  *
203  * uint32_t	_kaio_supported[MAX_KAIO_FDARRAY_SIZE];
204  *
205  * Array is MAX_KAIO_ARRAY_SIZE of 32-bit elements, for 8kb.
206  * If more than (MAX_KAIO_FDARRAY_SIZE * KAIO_FDARRAY_ELEM_SIZE)
207  * files are open, this can be expanded.
208  */
209 
210 #define	MAX_KAIO_FDARRAY_SIZE		2048
211 #define	KAIO_FDARRAY_ELEM_SIZE		WORD_BIT	/* uint32_t */
212 
213 #define	MAX_KAIO_FDS	(MAX_KAIO_FDARRAY_SIZE * KAIO_FDARRAY_ELEM_SIZE)
214 
215 #define	VALID_FD(fdes)		((fdes) >= 0 && (fdes) < MAX_KAIO_FDS)
216 
217 #define	KAIO_SUPPORTED(fdes)						\
218 	(!VALID_FD(fdes) || 						\
219 		((_kaio_supported[(fdes) / KAIO_FDARRAY_ELEM_SIZE] &	\
220 		(uint32_t)(1 << ((fdes) % KAIO_FDARRAY_ELEM_SIZE))) == 0))
221 
222 #define	SET_KAIO_NOT_SUPPORTED(fdes)					\
223 	if (VALID_FD(fdes))						\
224 		_kaio_supported[(fdes) / KAIO_FDARRAY_ELEM_SIZE] |=	\
225 		(uint32_t)(1 << ((fdes) % KAIO_FDARRAY_ELEM_SIZE))
226 
227 #define	CLEAR_KAIO_SUPPORTED(fdes)					\
228 	if (VALID_FD(fdes))						\
229 		_kaio_supported[(fdes) / KAIO_FDARRAY_ELEM_SIZE] &=	\
230 		~(uint32_t)(1 << ((fdes) % KAIO_FDARRAY_ELEM_SIZE))
231 
232 struct aio_worker {
233 	aio_worker_t *work_forw;	/* forward link in list of workers */
234 	aio_worker_t *work_backw;	/* backwards link in list of workers */
235 	mutex_t work_qlock1;		/* lock for work queue 1 */
236 	cond_t work_idle_cv;		/* place to sleep when idle */
237 	aio_req_t *work_head1;		/* head of work request queue 1 */
238 	aio_req_t *work_tail1;		/* tail of work request queue 1 */
239 	aio_req_t *work_next1;		/* work queue one's next pointer */
240 	aio_req_t *work_prev1;		/* last request done from queue 1 */
241 	aio_req_t *work_req;		/* active work request */
242 	thread_t work_tid;		/* worker's thread-id */
243 	int work_count1;		/* length of work queue one */
244 	int work_done1;			/* number of requests done */
245 	int work_minload1;		/* min length of queue */
246 	int work_idleflg;		/* when set, worker is idle */
247 	sigjmp_buf work_jmp_buf;	/* cancellation point */
248 };
249 
250 struct aio_hash {			/* resultp hash table */
251 	mutex_t		hash_lock;
252 	aio_req_t	*hash_ptr;
253 #if !defined(_LP64)
254 	void		*hash_pad;	/* ensure sizeof (aio_hash_t) == 32 */
255 #endif
256 };
257 
258 extern aio_hash_t *_aio_hash;
259 
260 #define	HASHSZ			2048	/* power of 2 */
261 #define	AIOHASH(resultp)	((((uintptr_t)(resultp) >> 17) ^ \
262 				((uintptr_t)(resultp) >> 2)) & (HASHSZ - 1))
263 #define	POSIX_AIO(x)		((x)->req_type == AIO_POSIX_REQ)
264 
265 extern int __uaio_init(void);
266 extern void _kaio_init(void);
267 extern intptr_t _kaio(int, ...);
268 extern int _aiorw(int, caddr_t, int, offset_t, int, aio_result_t *, int);
269 extern int _aio_rw(aiocb_t *, aio_lio_t *, aio_worker_t **, int, int);
270 #if !defined(_LP64)
271 extern int _aio_rw64(aiocb64_t *, aio_lio_t *, aio_worker_t **, int, int);
272 #endif
273 extern int _aio_create_worker(aio_req_t *, int);
274 extern int _aio_cancel_req(aio_worker_t *, aio_req_t *, int *, int *);
275 extern int aiocancel_all(int);
276 extern void aio_panic(const char *);
277 extern aio_req_t *_aio_hash_find(aio_result_t *);
278 extern aio_req_t *_aio_hash_del(aio_result_t *);
279 extern void _aio_req_mark_done(aio_req_t *);
280 extern void _aio_waitn_wakeup(void);
281 extern aio_worker_t *_aio_worker_alloc(void);
282 extern void _aio_worker_free(void *);
283 extern aio_req_t *_aio_req_alloc(void);
284 extern void _aio_req_free(aio_req_t *);
285 extern aio_lio_t *_aio_lio_alloc(void);
286 extern void _aio_lio_free(aio_lio_t *);
287 extern int _aio_idle(aio_worker_t *);
288 extern void *_aio_do_request(void *);
289 extern void *_aio_do_notify(void *);
290 extern void _lio_remove(aio_req_t *);
291 extern aio_req_t *_aio_req_remove(aio_req_t *);
292 extern int _aio_get_timedelta(timespec_t *, timespec_t *);
293 extern aio_result_t *_aio_req_done(void);
294 extern void _aio_set_result(aio_req_t *, ssize_t, int);
295 extern int _aio_sigev_thread_init(struct sigevent *);
296 extern int _aio_sigev_thread(aiocb_t *);
297 #if !defined(_LP64)
298 extern int _aio_sigev_thread64(aiocb64_t *);
299 #endif
300 
301 extern aio_worker_t *_kaiowp;		/* points to kaio cleanup thread */
302 extern aio_worker_t *__workers_rw;	/* list of all rw workers */
303 extern aio_worker_t *__nextworker_rw;	/* worker chosen for next rw request */
304 extern int __rw_workerscnt;		/* number of rw workers */
305 extern aio_worker_t *__workers_no;	/* list of all notification workers */
306 extern aio_worker_t *__nextworker_no;	/* worker chosen, next notification */
307 extern int __no_workerscnt;		/* number of notification workers */
308 extern mutex_t __aio_initlock;		/* makes aio initialization atomic */
309 extern cond_t __aio_initcv;
310 extern int __aio_initbusy;
311 extern mutex_t __aio_mutex;		/* global aio lock */
312 extern cond_t _aio_iowait_cv;		/* wait for userland I/Os */
313 extern cond_t _aio_waitn_cv;		/* wait for end of aio_waitn */
314 extern int _max_workers;		/* max number of workers permitted */
315 extern int _min_workers;		/* min number of workers */
316 extern sigset_t _worker_set;		/* worker's signal mask */
317 extern int _aio_worker_cnt;		/* number of AIO workers */
318 extern int _sigio_enabled;		/* when set, send SIGIO signal */
319 extern pid_t __pid;			/* process's PID */
320 extern int __uaio_ok;			/* indicates if aio is initialized */
321 extern int _kaio_ok;			/* indicates if kaio is initialized */
322 extern pthread_key_t _aio_key;		/* for thread-specific data */
323 extern aio_req_t *_aio_done_tail;	/* list of done requests */
324 extern aio_req_t *_aio_done_head;
325 extern aio_req_t *_aio_doneq;
326 extern int _aio_freelist_cnt;
327 extern int _aio_allocated_cnt;
328 extern int _aio_donecnt;
329 extern int _aio_doneq_cnt;
330 extern int _aio_waitncnt;		/* # of requests for aio_waitn */
331 extern int _aio_outstand_cnt;		/* # of outstanding requests */
332 extern int _kaio_outstand_cnt;		/* # of outstanding kaio requests */
333 extern int _aio_req_done_cnt;		/* req. done but not in "done queue" */
334 extern int _aio_kernel_suspend;		/* active kernel kaio calls */
335 extern int _aio_suscv_cnt;		/* aio_suspend calls waiting on cv's */
336 extern int _aiowait_flag;		/* when set, aiowait() is inprogress */
337 extern int _aio_flags;			/* see defines, above */
338 extern uint32_t *_kaio_supported;
339 
340 extern const sigset_t maskset;		/* all maskable signals */
341 
342 #ifdef	__cplusplus
343 }
344 #endif
345 
346 #endif	/* _ASYNCIO_H */
347