sys_aio.c revision 1.43.10.1
1 1.43.10.1 christos /* $NetBSD: sys_aio.c,v 1.43.10.1 2019/06/10 22:09:03 christos Exp $ */ 2 1.1 rmind 3 1.1 rmind /* 4 1.31 rmind * Copyright (c) 2007 Mindaugas Rasiukevicius <rmind at NetBSD org> 5 1.10 rmind * All rights reserved. 6 1.1 rmind * 7 1.1 rmind * Redistribution and use in source and binary forms, with or without 8 1.1 rmind * modification, are permitted provided that the following conditions 9 1.1 rmind * are met: 10 1.1 rmind * 1. Redistributions of source code must retain the above copyright 11 1.1 rmind * notice, this list of conditions and the following disclaimer. 12 1.1 rmind * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 rmind * notice, this list of conditions and the following disclaimer in the 14 1.1 rmind * documentation and/or other materials provided with the distribution. 15 1.1 rmind * 16 1.19 rmind * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 17 1.19 rmind * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 18 1.19 rmind * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 19 1.19 rmind * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 20 1.19 rmind * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 21 1.19 rmind * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 22 1.19 rmind * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 23 1.19 rmind * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 24 1.19 rmind * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 25 1.19 rmind * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 26 1.19 rmind * SUCH DAMAGE. 27 1.1 rmind */ 28 1.1 rmind 29 1.1 rmind /* 30 1.19 rmind * Implementation of POSIX asynchronous I/O. 31 1.19 rmind * Defined in the Base Definitions volume of IEEE Std 1003.1-2001. 32 1.1 rmind */ 33 1.1 rmind 34 1.1 rmind #include <sys/cdefs.h> 35 1.43.10.1 christos __KERNEL_RCSID(0, "$NetBSD: sys_aio.c,v 1.43.10.1 2019/06/10 22:09:03 christos Exp $"); 36 1.4 rmind 37 1.20 ad #ifdef _KERNEL_OPT 38 1.4 rmind #include "opt_ddb.h" 39 1.20 ad #endif 40 1.1 rmind 41 1.1 rmind #include <sys/param.h> 42 1.1 rmind #include <sys/condvar.h> 43 1.1 rmind #include <sys/file.h> 44 1.1 rmind #include <sys/filedesc.h> 45 1.1 rmind #include <sys/kernel.h> 46 1.1 rmind #include <sys/kmem.h> 47 1.1 rmind #include <sys/lwp.h> 48 1.1 rmind #include <sys/mutex.h> 49 1.1 rmind #include <sys/pool.h> 50 1.1 rmind #include <sys/proc.h> 51 1.1 rmind #include <sys/queue.h> 52 1.1 rmind #include <sys/signal.h> 53 1.1 rmind #include <sys/signalvar.h> 54 1.20 ad #include <sys/syscall.h> 55 1.1 rmind #include <sys/syscallargs.h> 56 1.20 ad #include <sys/syscallvar.h> 57 1.1 rmind #include <sys/sysctl.h> 58 1.1 rmind #include <sys/systm.h> 59 1.1 rmind #include <sys/types.h> 60 1.1 rmind #include <sys/vnode.h> 61 1.11 ad #include <sys/atomic.h> 62 1.20 ad #include <sys/module.h> 63 1.21 pooka #include <sys/buf.h> 64 1.1 rmind 65 1.1 rmind #include <uvm/uvm_extern.h> 66 1.1 rmind 67 1.20 ad MODULE(MODULE_CLASS_MISC, aio, NULL); 68 1.20 ad 69 1.1 rmind /* 70 1.1 rmind * System-wide limits and counter of AIO operations. 71 1.1 rmind */ 72 1.31 rmind u_int aio_listio_max = AIO_LISTIO_MAX; 73 1.31 rmind static u_int aio_max = AIO_MAX; 74 1.31 rmind static u_int aio_jobs_count; 75 1.31 rmind 76 1.35 jruoho static struct sysctllog *aio_sysctl; 77 1.31 rmind static struct pool aio_job_pool; 78 1.31 rmind static struct pool aio_lio_pool; 79 1.31 rmind static void * aio_ehook; 80 1.31 rmind 81 1.35 jruoho static void aio_worker(void *); 82 1.35 jruoho static void aio_process(struct aio_job *); 83 1.35 jruoho static void aio_sendsig(struct proc *, struct sigevent *); 84 1.35 jruoho static int aio_enqueue_job(int, void *, struct lio_req *); 85 1.35 jruoho static void aio_exit(proc_t *, void *); 86 1.35 jruoho 87 1.35 jruoho static int sysctl_aio_listio_max(SYSCTLFN_PROTO); 88 1.35 jruoho static int sysctl_aio_max(SYSCTLFN_PROTO); 89 1.35 jruoho static int sysctl_aio_init(void); 90 1.20 ad 91 1.20 ad static const struct syscall_package aio_syscalls[] = { 92 1.20 ad { SYS_aio_cancel, 0, (sy_call_t *)sys_aio_cancel }, 93 1.20 ad { SYS_aio_error, 0, (sy_call_t *)sys_aio_error }, 94 1.20 ad { SYS_aio_fsync, 0, (sy_call_t *)sys_aio_fsync }, 95 1.20 ad { SYS_aio_read, 0, (sy_call_t *)sys_aio_read }, 96 1.20 ad { SYS_aio_return, 0, (sy_call_t *)sys_aio_return }, 97 1.22 christos { SYS___aio_suspend50, 0, (sy_call_t *)sys___aio_suspend50 }, 98 1.20 ad { SYS_aio_write, 0, (sy_call_t *)sys_aio_write }, 99 1.20 ad { SYS_lio_listio, 0, (sy_call_t *)sys_lio_listio }, 100 1.20 ad { 0, 0, NULL }, 101 1.20 ad }; 102 1.1 rmind 103 1.1 rmind /* 104 1.20 ad * Tear down all AIO state. 105 1.4 rmind */ 106 1.20 ad static int 107 1.20 ad aio_fini(bool interface) 108 1.20 ad { 109 1.20 ad int error; 110 1.20 ad proc_t *p; 111 1.20 ad 112 1.20 ad if (interface) { 113 1.20 ad /* Stop syscall activity. */ 114 1.20 ad error = syscall_disestablish(NULL, aio_syscalls); 115 1.20 ad if (error != 0) 116 1.20 ad return error; 117 1.20 ad /* Abort if any processes are using AIO. */ 118 1.20 ad mutex_enter(proc_lock); 119 1.20 ad PROCLIST_FOREACH(p, &allproc) { 120 1.20 ad if (p->p_aio != NULL) 121 1.20 ad break; 122 1.20 ad } 123 1.20 ad mutex_exit(proc_lock); 124 1.20 ad if (p != NULL) { 125 1.20 ad error = syscall_establish(NULL, aio_syscalls); 126 1.20 ad KASSERT(error == 0); 127 1.20 ad return EBUSY; 128 1.20 ad } 129 1.20 ad } 130 1.35 jruoho if (aio_sysctl != NULL) 131 1.35 jruoho sysctl_teardown(&aio_sysctl); 132 1.35 jruoho 133 1.20 ad KASSERT(aio_jobs_count == 0); 134 1.20 ad exithook_disestablish(aio_ehook); 135 1.20 ad pool_destroy(&aio_job_pool); 136 1.20 ad pool_destroy(&aio_lio_pool); 137 1.20 ad return 0; 138 1.20 ad } 139 1.20 ad 140 1.20 ad /* 141 1.20 ad * Initialize global AIO state. 142 1.20 ad */ 143 1.20 ad static int 144 1.20 ad aio_init(void) 145 1.4 rmind { 146 1.20 ad int error; 147 1.4 rmind 148 1.4 rmind pool_init(&aio_job_pool, sizeof(struct aio_job), 0, 0, 0, 149 1.4 rmind "aio_jobs_pool", &pool_allocator_nointr, IPL_NONE); 150 1.4 rmind pool_init(&aio_lio_pool, sizeof(struct lio_req), 0, 0, 0, 151 1.4 rmind "aio_lio_pool", &pool_allocator_nointr, IPL_NONE); 152 1.20 ad aio_ehook = exithook_establish(aio_exit, NULL); 153 1.35 jruoho 154 1.35 jruoho error = sysctl_aio_init(); 155 1.35 jruoho if (error != 0) { 156 1.35 jruoho (void)aio_fini(false); 157 1.35 jruoho return error; 158 1.35 jruoho } 159 1.20 ad error = syscall_establish(NULL, aio_syscalls); 160 1.20 ad if (error != 0) 161 1.35 jruoho (void)aio_fini(false); 162 1.20 ad return error; 163 1.20 ad } 164 1.20 ad 165 1.20 ad /* 166 1.20 ad * Module interface. 167 1.20 ad */ 168 1.20 ad static int 169 1.20 ad aio_modcmd(modcmd_t cmd, void *arg) 170 1.20 ad { 171 1.20 ad 172 1.20 ad switch (cmd) { 173 1.20 ad case MODULE_CMD_INIT: 174 1.20 ad return aio_init(); 175 1.20 ad case MODULE_CMD_FINI: 176 1.20 ad return aio_fini(true); 177 1.20 ad default: 178 1.20 ad return ENOTTY; 179 1.20 ad } 180 1.4 rmind } 181 1.4 rmind 182 1.4 rmind /* 183 1.1 rmind * Initialize Asynchronous I/O data structures for the process. 184 1.1 rmind */ 185 1.20 ad static int 186 1.20 ad aio_procinit(struct proc *p) 187 1.1 rmind { 188 1.1 rmind struct aioproc *aio; 189 1.1 rmind struct lwp *l; 190 1.8 ad int error; 191 1.1 rmind vaddr_t uaddr; 192 1.1 rmind 193 1.1 rmind /* Allocate and initialize AIO structure */ 194 1.15 ad aio = kmem_zalloc(sizeof(struct aioproc), KM_SLEEP); 195 1.1 rmind 196 1.4 rmind /* Initialize queue and their synchronization structures */ 197 1.1 rmind mutex_init(&aio->aio_mtx, MUTEX_DEFAULT, IPL_NONE); 198 1.1 rmind cv_init(&aio->aio_worker_cv, "aiowork"); 199 1.1 rmind cv_init(&aio->done_cv, "aiodone"); 200 1.1 rmind TAILQ_INIT(&aio->jobs_queue); 201 1.1 rmind 202 1.1 rmind /* 203 1.1 rmind * Create an AIO worker thread. 204 1.1 rmind * XXX: Currently, AIO thread is not protected against user's actions. 205 1.1 rmind */ 206 1.29 rmind uaddr = uvm_uarea_alloc(); 207 1.1 rmind if (uaddr == 0) { 208 1.5 rmind aio_exit(p, aio); 209 1.1 rmind return EAGAIN; 210 1.1 rmind } 211 1.29 rmind error = lwp_create(curlwp, p, uaddr, 0, NULL, 0, aio_worker, 212 1.42 christos NULL, &l, curlwp->l_class, &curlwp->l_sigmask, &curlwp->l_sigstk); 213 1.8 ad if (error != 0) { 214 1.29 rmind uvm_uarea_free(uaddr); 215 1.5 rmind aio_exit(p, aio); 216 1.8 ad return error; 217 1.1 rmind } 218 1.1 rmind 219 1.5 rmind /* Recheck if we are really first */ 220 1.18 ad mutex_enter(p->p_lock); 221 1.5 rmind if (p->p_aio) { 222 1.18 ad mutex_exit(p->p_lock); 223 1.5 rmind aio_exit(p, aio); 224 1.5 rmind lwp_exit(l); 225 1.5 rmind return 0; 226 1.5 rmind } 227 1.5 rmind p->p_aio = aio; 228 1.5 rmind 229 1.1 rmind /* Complete the initialization of thread, and run it */ 230 1.1 rmind aio->aio_worker = l; 231 1.1 rmind lwp_lock(l); 232 1.1 rmind l->l_stat = LSRUN; 233 1.12 rmind l->l_priority = MAXPRI_USER; 234 1.2 yamt sched_enqueue(l, false); 235 1.1 rmind lwp_unlock(l); 236 1.18 ad mutex_exit(p->p_lock); 237 1.1 rmind 238 1.1 rmind return 0; 239 1.1 rmind } 240 1.1 rmind 241 1.1 rmind /* 242 1.1 rmind * Exit of Asynchronous I/O subsystem of process. 243 1.1 rmind */ 244 1.20 ad static void 245 1.20 ad aio_exit(struct proc *p, void *cookie) 246 1.1 rmind { 247 1.1 rmind struct aio_job *a_job; 248 1.20 ad struct aioproc *aio; 249 1.1 rmind 250 1.20 ad if (cookie != NULL) 251 1.20 ad aio = cookie; 252 1.20 ad else if ((aio = p->p_aio) == NULL) 253 1.1 rmind return; 254 1.1 rmind 255 1.1 rmind /* Free AIO queue */ 256 1.1 rmind while (!TAILQ_EMPTY(&aio->jobs_queue)) { 257 1.1 rmind a_job = TAILQ_FIRST(&aio->jobs_queue); 258 1.1 rmind TAILQ_REMOVE(&aio->jobs_queue, a_job, list); 259 1.4 rmind pool_put(&aio_job_pool, a_job); 260 1.11 ad atomic_dec_uint(&aio_jobs_count); 261 1.1 rmind } 262 1.1 rmind 263 1.1 rmind /* Destroy and free the entire AIO data structure */ 264 1.1 rmind cv_destroy(&aio->aio_worker_cv); 265 1.1 rmind cv_destroy(&aio->done_cv); 266 1.1 rmind mutex_destroy(&aio->aio_mtx); 267 1.1 rmind kmem_free(aio, sizeof(struct aioproc)); 268 1.1 rmind } 269 1.1 rmind 270 1.1 rmind /* 271 1.1 rmind * AIO worker thread and processor. 272 1.1 rmind */ 273 1.26 yamt static void 274 1.1 rmind aio_worker(void *arg) 275 1.1 rmind { 276 1.1 rmind struct proc *p = curlwp->l_proc; 277 1.1 rmind struct aioproc *aio = p->p_aio; 278 1.1 rmind struct aio_job *a_job; 279 1.1 rmind struct lio_req *lio; 280 1.1 rmind sigset_t oss, nss; 281 1.38 martin int error __diagused, refcnt; 282 1.1 rmind 283 1.1 rmind /* 284 1.1 rmind * Make an empty signal mask, so it 285 1.1 rmind * handles only SIGKILL and SIGSTOP. 286 1.1 rmind */ 287 1.1 rmind sigfillset(&nss); 288 1.18 ad mutex_enter(p->p_lock); 289 1.1 rmind error = sigprocmask1(curlwp, SIG_SETMASK, &nss, &oss); 290 1.18 ad mutex_exit(p->p_lock); 291 1.1 rmind KASSERT(error == 0); 292 1.1 rmind 293 1.1 rmind for (;;) { 294 1.1 rmind /* 295 1.1 rmind * Loop for each job in the queue. If there 296 1.4 rmind * are no jobs then sleep. 297 1.1 rmind */ 298 1.1 rmind mutex_enter(&aio->aio_mtx); 299 1.1 rmind while ((a_job = TAILQ_FIRST(&aio->jobs_queue)) == NULL) { 300 1.1 rmind if (cv_wait_sig(&aio->aio_worker_cv, &aio->aio_mtx)) { 301 1.1 rmind /* 302 1.4 rmind * Thread was interrupted - check for 303 1.4 rmind * pending exit or suspend. 304 1.1 rmind */ 305 1.4 rmind mutex_exit(&aio->aio_mtx); 306 1.4 rmind lwp_userret(curlwp); 307 1.4 rmind mutex_enter(&aio->aio_mtx); 308 1.1 rmind } 309 1.1 rmind } 310 1.1 rmind 311 1.1 rmind /* Take the job from the queue */ 312 1.1 rmind aio->curjob = a_job; 313 1.1 rmind TAILQ_REMOVE(&aio->jobs_queue, a_job, list); 314 1.1 rmind 315 1.11 ad atomic_dec_uint(&aio_jobs_count); 316 1.1 rmind aio->jobs_count--; 317 1.1 rmind 318 1.1 rmind mutex_exit(&aio->aio_mtx); 319 1.1 rmind 320 1.1 rmind /* Process an AIO operation */ 321 1.1 rmind aio_process(a_job); 322 1.1 rmind 323 1.1 rmind /* Copy data structure back to the user-space */ 324 1.1 rmind (void)copyout(&a_job->aiocbp, a_job->aiocb_uptr, 325 1.1 rmind sizeof(struct aiocb)); 326 1.1 rmind 327 1.1 rmind mutex_enter(&aio->aio_mtx); 328 1.36 yamt KASSERT(aio->curjob == a_job); 329 1.1 rmind aio->curjob = NULL; 330 1.4 rmind 331 1.1 rmind /* Decrease a reference counter, if there is a LIO structure */ 332 1.1 rmind lio = a_job->lio; 333 1.4 rmind refcnt = (lio != NULL ? --lio->refcnt : -1); 334 1.4 rmind 335 1.1 rmind /* Notify all suspenders */ 336 1.1 rmind cv_broadcast(&aio->done_cv); 337 1.1 rmind mutex_exit(&aio->aio_mtx); 338 1.1 rmind 339 1.1 rmind /* Send a signal, if any */ 340 1.1 rmind aio_sendsig(p, &a_job->aiocbp.aio_sigevent); 341 1.1 rmind 342 1.1 rmind /* Destroy the LIO structure */ 343 1.4 rmind if (refcnt == 0) { 344 1.1 rmind aio_sendsig(p, &lio->sig); 345 1.4 rmind pool_put(&aio_lio_pool, lio); 346 1.1 rmind } 347 1.1 rmind 348 1.30 mbalmer /* Destroy the job */ 349 1.4 rmind pool_put(&aio_job_pool, a_job); 350 1.1 rmind } 351 1.1 rmind 352 1.4 rmind /* NOTREACHED */ 353 1.1 rmind } 354 1.1 rmind 355 1.1 rmind static void 356 1.1 rmind aio_process(struct aio_job *a_job) 357 1.1 rmind { 358 1.1 rmind struct proc *p = curlwp->l_proc; 359 1.1 rmind struct aiocb *aiocbp = &a_job->aiocbp; 360 1.1 rmind struct file *fp; 361 1.1 rmind int fd = aiocbp->aio_fildes; 362 1.1 rmind int error = 0; 363 1.1 rmind 364 1.1 rmind KASSERT(a_job->aio_op != 0); 365 1.1 rmind 366 1.4 rmind if ((a_job->aio_op & (AIO_READ | AIO_WRITE)) != 0) { 367 1.1 rmind struct iovec aiov; 368 1.1 rmind struct uio auio; 369 1.1 rmind 370 1.1 rmind if (aiocbp->aio_nbytes > SSIZE_MAX) { 371 1.1 rmind error = EINVAL; 372 1.1 rmind goto done; 373 1.1 rmind } 374 1.1 rmind 375 1.16 ad fp = fd_getfile(fd); 376 1.1 rmind if (fp == NULL) { 377 1.1 rmind error = EBADF; 378 1.1 rmind goto done; 379 1.1 rmind } 380 1.1 rmind 381 1.1 rmind aiov.iov_base = (void *)(uintptr_t)aiocbp->aio_buf; 382 1.1 rmind aiov.iov_len = aiocbp->aio_nbytes; 383 1.1 rmind auio.uio_iov = &aiov; 384 1.1 rmind auio.uio_iovcnt = 1; 385 1.1 rmind auio.uio_resid = aiocbp->aio_nbytes; 386 1.1 rmind auio.uio_vmspace = p->p_vmspace; 387 1.1 rmind 388 1.1 rmind if (a_job->aio_op & AIO_READ) { 389 1.1 rmind /* 390 1.1 rmind * Perform a Read operation 391 1.1 rmind */ 392 1.1 rmind KASSERT((a_job->aio_op & AIO_WRITE) == 0); 393 1.1 rmind 394 1.1 rmind if ((fp->f_flag & FREAD) == 0) { 395 1.16 ad fd_putfile(fd); 396 1.1 rmind error = EBADF; 397 1.1 rmind goto done; 398 1.1 rmind } 399 1.1 rmind auio.uio_rw = UIO_READ; 400 1.1 rmind error = (*fp->f_ops->fo_read)(fp, &aiocbp->aio_offset, 401 1.1 rmind &auio, fp->f_cred, FOF_UPDATE_OFFSET); 402 1.1 rmind } else { 403 1.1 rmind /* 404 1.1 rmind * Perform a Write operation 405 1.1 rmind */ 406 1.1 rmind KASSERT(a_job->aio_op & AIO_WRITE); 407 1.1 rmind 408 1.1 rmind if ((fp->f_flag & FWRITE) == 0) { 409 1.16 ad fd_putfile(fd); 410 1.1 rmind error = EBADF; 411 1.1 rmind goto done; 412 1.1 rmind } 413 1.1 rmind auio.uio_rw = UIO_WRITE; 414 1.1 rmind error = (*fp->f_ops->fo_write)(fp, &aiocbp->aio_offset, 415 1.1 rmind &auio, fp->f_cred, FOF_UPDATE_OFFSET); 416 1.1 rmind } 417 1.16 ad fd_putfile(fd); 418 1.1 rmind 419 1.1 rmind /* Store the result value */ 420 1.1 rmind a_job->aiocbp.aio_nbytes -= auio.uio_resid; 421 1.1 rmind a_job->aiocbp._retval = (error == 0) ? 422 1.1 rmind a_job->aiocbp.aio_nbytes : -1; 423 1.1 rmind 424 1.4 rmind } else if ((a_job->aio_op & (AIO_SYNC | AIO_DSYNC)) != 0) { 425 1.1 rmind /* 426 1.1 rmind * Perform a file Sync operation 427 1.1 rmind */ 428 1.1 rmind struct vnode *vp; 429 1.1 rmind 430 1.16 ad if ((error = fd_getvnode(fd, &fp)) != 0) 431 1.41 msaitoh goto done; 432 1.1 rmind 433 1.1 rmind if ((fp->f_flag & FWRITE) == 0) { 434 1.16 ad fd_putfile(fd); 435 1.1 rmind error = EBADF; 436 1.1 rmind goto done; 437 1.1 rmind } 438 1.1 rmind 439 1.40 matt vp = fp->f_vnode; 440 1.1 rmind vn_lock(vp, LK_EXCLUSIVE | LK_RETRY); 441 1.1 rmind if (a_job->aio_op & AIO_DSYNC) { 442 1.1 rmind error = VOP_FSYNC(vp, fp->f_cred, 443 1.9 pooka FSYNC_WAIT | FSYNC_DATAONLY, 0, 0); 444 1.1 rmind } else if (a_job->aio_op & AIO_SYNC) { 445 1.1 rmind error = VOP_FSYNC(vp, fp->f_cred, 446 1.9 pooka FSYNC_WAIT, 0, 0); 447 1.1 rmind } 448 1.34 hannken VOP_UNLOCK(vp); 449 1.16 ad fd_putfile(fd); 450 1.1 rmind 451 1.1 rmind /* Store the result value */ 452 1.1 rmind a_job->aiocbp._retval = (error == 0) ? 0 : -1; 453 1.1 rmind 454 1.1 rmind } else 455 1.1 rmind panic("aio_process: invalid operation code\n"); 456 1.1 rmind 457 1.1 rmind done: 458 1.1 rmind /* Job is done, set the error, if any */ 459 1.1 rmind a_job->aiocbp._errno = error; 460 1.1 rmind a_job->aiocbp._state = JOB_DONE; 461 1.1 rmind } 462 1.1 rmind 463 1.1 rmind /* 464 1.1 rmind * Send AIO signal. 465 1.1 rmind */ 466 1.1 rmind static void 467 1.1 rmind aio_sendsig(struct proc *p, struct sigevent *sig) 468 1.1 rmind { 469 1.1 rmind ksiginfo_t ksi; 470 1.1 rmind 471 1.1 rmind if (sig->sigev_signo == 0 || sig->sigev_notify == SIGEV_NONE) 472 1.1 rmind return; 473 1.1 rmind 474 1.1 rmind KSI_INIT(&ksi); 475 1.1 rmind ksi.ksi_signo = sig->sigev_signo; 476 1.1 rmind ksi.ksi_code = SI_ASYNCIO; 477 1.3 christos ksi.ksi_value = sig->sigev_value; 478 1.17 ad mutex_enter(proc_lock); 479 1.1 rmind kpsignal(p, &ksi, NULL); 480 1.17 ad mutex_exit(proc_lock); 481 1.1 rmind } 482 1.1 rmind 483 1.1 rmind /* 484 1.1 rmind * Enqueue the job. 485 1.1 rmind */ 486 1.1 rmind static int 487 1.1 rmind aio_enqueue_job(int op, void *aiocb_uptr, struct lio_req *lio) 488 1.1 rmind { 489 1.1 rmind struct proc *p = curlwp->l_proc; 490 1.1 rmind struct aioproc *aio; 491 1.1 rmind struct aio_job *a_job; 492 1.1 rmind struct aiocb aiocbp; 493 1.1 rmind struct sigevent *sig; 494 1.1 rmind int error; 495 1.1 rmind 496 1.12 rmind /* Non-accurate check for the limit */ 497 1.12 rmind if (aio_jobs_count + 1 > aio_max) 498 1.1 rmind return EAGAIN; 499 1.1 rmind 500 1.1 rmind /* Get the data structure from user-space */ 501 1.1 rmind error = copyin(aiocb_uptr, &aiocbp, sizeof(struct aiocb)); 502 1.1 rmind if (error) 503 1.1 rmind return error; 504 1.1 rmind 505 1.1 rmind /* Check if signal is set, and validate it */ 506 1.1 rmind sig = &aiocbp.aio_sigevent; 507 1.1 rmind if (sig->sigev_signo < 0 || sig->sigev_signo >= NSIG || 508 1.1 rmind sig->sigev_notify < SIGEV_NONE || sig->sigev_notify > SIGEV_SA) 509 1.1 rmind return EINVAL; 510 1.1 rmind 511 1.1 rmind /* Buffer and byte count */ 512 1.1 rmind if (((AIO_SYNC | AIO_DSYNC) & op) == 0) 513 1.1 rmind if (aiocbp.aio_buf == NULL || aiocbp.aio_nbytes > SSIZE_MAX) 514 1.1 rmind return EINVAL; 515 1.1 rmind 516 1.1 rmind /* Check the opcode, if LIO_NOP - simply ignore */ 517 1.1 rmind if (op == AIO_LIO) { 518 1.1 rmind KASSERT(lio != NULL); 519 1.1 rmind if (aiocbp.aio_lio_opcode == LIO_WRITE) 520 1.1 rmind op = AIO_WRITE; 521 1.1 rmind else if (aiocbp.aio_lio_opcode == LIO_READ) 522 1.1 rmind op = AIO_READ; 523 1.1 rmind else 524 1.1 rmind return (aiocbp.aio_lio_opcode == LIO_NOP) ? 0 : EINVAL; 525 1.1 rmind } else { 526 1.1 rmind KASSERT(lio == NULL); 527 1.1 rmind } 528 1.1 rmind 529 1.1 rmind /* 530 1.1 rmind * Look for already existing job. If found - the job is in-progress. 531 1.1 rmind * According to POSIX this is invalid, so return the error. 532 1.1 rmind */ 533 1.1 rmind aio = p->p_aio; 534 1.1 rmind if (aio) { 535 1.1 rmind mutex_enter(&aio->aio_mtx); 536 1.1 rmind TAILQ_FOREACH(a_job, &aio->jobs_queue, list) { 537 1.1 rmind if (a_job->aiocb_uptr != aiocb_uptr) 538 1.1 rmind continue; 539 1.1 rmind mutex_exit(&aio->aio_mtx); 540 1.1 rmind return EINVAL; 541 1.1 rmind } 542 1.1 rmind mutex_exit(&aio->aio_mtx); 543 1.1 rmind } 544 1.1 rmind 545 1.1 rmind /* 546 1.1 rmind * Check if AIO structure is initialized, if not - initialize it. 547 1.1 rmind * In LIO case, we did that already. We will recheck this with 548 1.20 ad * the lock in aio_procinit(). 549 1.1 rmind */ 550 1.1 rmind if (lio == NULL && p->p_aio == NULL) 551 1.20 ad if (aio_procinit(p)) 552 1.1 rmind return EAGAIN; 553 1.1 rmind aio = p->p_aio; 554 1.1 rmind 555 1.1 rmind /* 556 1.1 rmind * Set the state with errno, and copy data 557 1.1 rmind * structure back to the user-space. 558 1.1 rmind */ 559 1.1 rmind aiocbp._state = JOB_WIP; 560 1.1 rmind aiocbp._errno = EINPROGRESS; 561 1.1 rmind aiocbp._retval = -1; 562 1.1 rmind error = copyout(&aiocbp, aiocb_uptr, sizeof(struct aiocb)); 563 1.1 rmind if (error) 564 1.1 rmind return error; 565 1.1 rmind 566 1.1 rmind /* Allocate and initialize a new AIO job */ 567 1.43.10.1 christos a_job = pool_get(&aio_job_pool, PR_WAITOK | PR_ZERO); 568 1.1 rmind 569 1.1 rmind /* 570 1.1 rmind * Set the data. 571 1.1 rmind * Store the user-space pointer for searching. Since we 572 1.1 rmind * are storing only per proc pointers - it is safe. 573 1.1 rmind */ 574 1.1 rmind memcpy(&a_job->aiocbp, &aiocbp, sizeof(struct aiocb)); 575 1.1 rmind a_job->aiocb_uptr = aiocb_uptr; 576 1.1 rmind a_job->aio_op |= op; 577 1.1 rmind a_job->lio = lio; 578 1.1 rmind 579 1.1 rmind /* 580 1.1 rmind * Add the job to the queue, update the counters, and 581 1.1 rmind * notify the AIO worker thread to handle the job. 582 1.1 rmind */ 583 1.1 rmind mutex_enter(&aio->aio_mtx); 584 1.1 rmind 585 1.1 rmind /* Fail, if the limit was reached */ 586 1.13 rmind if (atomic_inc_uint_nv(&aio_jobs_count) > aio_max || 587 1.13 rmind aio->jobs_count >= aio_listio_max) { 588 1.12 rmind atomic_dec_uint(&aio_jobs_count); 589 1.1 rmind mutex_exit(&aio->aio_mtx); 590 1.4 rmind pool_put(&aio_job_pool, a_job); 591 1.1 rmind return EAGAIN; 592 1.1 rmind } 593 1.1 rmind 594 1.1 rmind TAILQ_INSERT_TAIL(&aio->jobs_queue, a_job, list); 595 1.1 rmind aio->jobs_count++; 596 1.1 rmind if (lio) 597 1.1 rmind lio->refcnt++; 598 1.1 rmind cv_signal(&aio->aio_worker_cv); 599 1.1 rmind 600 1.1 rmind mutex_exit(&aio->aio_mtx); 601 1.1 rmind 602 1.1 rmind /* 603 1.1 rmind * One would handle the errors only with aio_error() function. 604 1.1 rmind * This way is appropriate according to POSIX. 605 1.1 rmind */ 606 1.1 rmind return 0; 607 1.1 rmind } 608 1.1 rmind 609 1.1 rmind /* 610 1.1 rmind * Syscall functions. 611 1.1 rmind */ 612 1.1 rmind 613 1.1 rmind int 614 1.27 yamt sys_aio_cancel(struct lwp *l, const struct sys_aio_cancel_args *uap, 615 1.27 yamt register_t *retval) 616 1.1 rmind { 617 1.14 dsl /* { 618 1.1 rmind syscallarg(int) fildes; 619 1.1 rmind syscallarg(struct aiocb *) aiocbp; 620 1.14 dsl } */ 621 1.1 rmind struct proc *p = l->l_proc; 622 1.1 rmind struct aioproc *aio; 623 1.1 rmind struct aio_job *a_job; 624 1.1 rmind struct aiocb *aiocbp_ptr; 625 1.1 rmind struct lio_req *lio; 626 1.1 rmind struct filedesc *fdp = p->p_fd; 627 1.1 rmind unsigned int cn, errcnt, fildes; 628 1.24 ad fdtab_t *dt; 629 1.1 rmind 630 1.1 rmind TAILQ_HEAD(, aio_job) tmp_jobs_list; 631 1.1 rmind 632 1.1 rmind /* Check for invalid file descriptor */ 633 1.1 rmind fildes = (unsigned int)SCARG(uap, fildes); 634 1.24 ad dt = fdp->fd_dt; 635 1.24 ad if (fildes >= dt->dt_nfiles) 636 1.16 ad return EBADF; 637 1.24 ad if (dt->dt_ff[fildes] == NULL || dt->dt_ff[fildes]->ff_file == NULL) 638 1.1 rmind return EBADF; 639 1.1 rmind 640 1.1 rmind /* Check if AIO structure is initialized */ 641 1.1 rmind if (p->p_aio == NULL) { 642 1.1 rmind *retval = AIO_NOTCANCELED; 643 1.1 rmind return 0; 644 1.1 rmind } 645 1.1 rmind 646 1.1 rmind aio = p->p_aio; 647 1.1 rmind aiocbp_ptr = (struct aiocb *)SCARG(uap, aiocbp); 648 1.1 rmind 649 1.1 rmind mutex_enter(&aio->aio_mtx); 650 1.1 rmind 651 1.1 rmind /* Cancel the jobs, and remove them from the queue */ 652 1.1 rmind cn = 0; 653 1.1 rmind TAILQ_INIT(&tmp_jobs_list); 654 1.1 rmind TAILQ_FOREACH(a_job, &aio->jobs_queue, list) { 655 1.1 rmind if (aiocbp_ptr) { 656 1.1 rmind if (aiocbp_ptr != a_job->aiocb_uptr) 657 1.1 rmind continue; 658 1.1 rmind if (fildes != a_job->aiocbp.aio_fildes) { 659 1.1 rmind mutex_exit(&aio->aio_mtx); 660 1.1 rmind return EBADF; 661 1.1 rmind } 662 1.1 rmind } else if (a_job->aiocbp.aio_fildes != fildes) 663 1.1 rmind continue; 664 1.1 rmind 665 1.1 rmind TAILQ_REMOVE(&aio->jobs_queue, a_job, list); 666 1.1 rmind TAILQ_INSERT_TAIL(&tmp_jobs_list, a_job, list); 667 1.1 rmind 668 1.1 rmind /* Decrease the counters */ 669 1.11 ad atomic_dec_uint(&aio_jobs_count); 670 1.1 rmind aio->jobs_count--; 671 1.1 rmind lio = a_job->lio; 672 1.4 rmind if (lio != NULL && --lio->refcnt != 0) 673 1.4 rmind a_job->lio = NULL; 674 1.1 rmind 675 1.1 rmind cn++; 676 1.1 rmind if (aiocbp_ptr) 677 1.1 rmind break; 678 1.1 rmind } 679 1.1 rmind 680 1.1 rmind /* There are canceled jobs */ 681 1.1 rmind if (cn) 682 1.1 rmind *retval = AIO_CANCELED; 683 1.1 rmind 684 1.1 rmind /* We cannot cancel current job */ 685 1.1 rmind a_job = aio->curjob; 686 1.1 rmind if (a_job && ((a_job->aiocbp.aio_fildes == fildes) || 687 1.1 rmind (a_job->aiocb_uptr == aiocbp_ptr))) 688 1.1 rmind *retval = AIO_NOTCANCELED; 689 1.1 rmind 690 1.1 rmind mutex_exit(&aio->aio_mtx); 691 1.1 rmind 692 1.1 rmind /* Free the jobs after the lock */ 693 1.1 rmind errcnt = 0; 694 1.1 rmind while (!TAILQ_EMPTY(&tmp_jobs_list)) { 695 1.1 rmind a_job = TAILQ_FIRST(&tmp_jobs_list); 696 1.1 rmind TAILQ_REMOVE(&tmp_jobs_list, a_job, list); 697 1.1 rmind /* Set the errno and copy structures back to the user-space */ 698 1.1 rmind a_job->aiocbp._errno = ECANCELED; 699 1.1 rmind a_job->aiocbp._state = JOB_DONE; 700 1.1 rmind if (copyout(&a_job->aiocbp, a_job->aiocb_uptr, 701 1.1 rmind sizeof(struct aiocb))) 702 1.1 rmind errcnt++; 703 1.1 rmind /* Send a signal if any */ 704 1.1 rmind aio_sendsig(p, &a_job->aiocbp.aio_sigevent); 705 1.6 rmind if (a_job->lio) { 706 1.6 rmind lio = a_job->lio; 707 1.6 rmind aio_sendsig(p, &lio->sig); 708 1.6 rmind pool_put(&aio_lio_pool, lio); 709 1.6 rmind } 710 1.4 rmind pool_put(&aio_job_pool, a_job); 711 1.1 rmind } 712 1.1 rmind 713 1.1 rmind if (errcnt) 714 1.1 rmind return EFAULT; 715 1.1 rmind 716 1.1 rmind /* Set a correct return value */ 717 1.1 rmind if (*retval == 0) 718 1.1 rmind *retval = AIO_ALLDONE; 719 1.1 rmind 720 1.1 rmind return 0; 721 1.1 rmind } 722 1.1 rmind 723 1.1 rmind int 724 1.27 yamt sys_aio_error(struct lwp *l, const struct sys_aio_error_args *uap, 725 1.27 yamt register_t *retval) 726 1.1 rmind { 727 1.14 dsl /* { 728 1.1 rmind syscallarg(const struct aiocb *) aiocbp; 729 1.14 dsl } */ 730 1.1 rmind struct proc *p = l->l_proc; 731 1.1 rmind struct aioproc *aio = p->p_aio; 732 1.1 rmind struct aiocb aiocbp; 733 1.1 rmind int error; 734 1.1 rmind 735 1.1 rmind if (aio == NULL) 736 1.1 rmind return EINVAL; 737 1.1 rmind 738 1.1 rmind error = copyin(SCARG(uap, aiocbp), &aiocbp, sizeof(struct aiocb)); 739 1.1 rmind if (error) 740 1.1 rmind return error; 741 1.1 rmind 742 1.1 rmind if (aiocbp._state == JOB_NONE) 743 1.1 rmind return EINVAL; 744 1.1 rmind 745 1.1 rmind *retval = aiocbp._errno; 746 1.1 rmind 747 1.1 rmind return 0; 748 1.1 rmind } 749 1.1 rmind 750 1.1 rmind int 751 1.27 yamt sys_aio_fsync(struct lwp *l, const struct sys_aio_fsync_args *uap, 752 1.27 yamt register_t *retval) 753 1.1 rmind { 754 1.14 dsl /* { 755 1.1 rmind syscallarg(int) op; 756 1.1 rmind syscallarg(struct aiocb *) aiocbp; 757 1.14 dsl } */ 758 1.1 rmind int op = SCARG(uap, op); 759 1.1 rmind 760 1.1 rmind if ((op != O_DSYNC) && (op != O_SYNC)) 761 1.1 rmind return EINVAL; 762 1.1 rmind 763 1.1 rmind op = O_DSYNC ? AIO_DSYNC : AIO_SYNC; 764 1.1 rmind 765 1.1 rmind return aio_enqueue_job(op, SCARG(uap, aiocbp), NULL); 766 1.1 rmind } 767 1.1 rmind 768 1.1 rmind int 769 1.27 yamt sys_aio_read(struct lwp *l, const struct sys_aio_read_args *uap, 770 1.27 yamt register_t *retval) 771 1.1 rmind { 772 1.14 dsl /* { 773 1.1 rmind syscallarg(struct aiocb *) aiocbp; 774 1.14 dsl } */ 775 1.1 rmind 776 1.1 rmind return aio_enqueue_job(AIO_READ, SCARG(uap, aiocbp), NULL); 777 1.1 rmind } 778 1.1 rmind 779 1.1 rmind int 780 1.27 yamt sys_aio_return(struct lwp *l, const struct sys_aio_return_args *uap, 781 1.27 yamt register_t *retval) 782 1.1 rmind { 783 1.14 dsl /* { 784 1.1 rmind syscallarg(struct aiocb *) aiocbp; 785 1.14 dsl } */ 786 1.1 rmind struct proc *p = l->l_proc; 787 1.1 rmind struct aioproc *aio = p->p_aio; 788 1.1 rmind struct aiocb aiocbp; 789 1.1 rmind int error; 790 1.1 rmind 791 1.1 rmind if (aio == NULL) 792 1.1 rmind return EINVAL; 793 1.1 rmind 794 1.1 rmind error = copyin(SCARG(uap, aiocbp), &aiocbp, sizeof(struct aiocb)); 795 1.1 rmind if (error) 796 1.1 rmind return error; 797 1.1 rmind 798 1.1 rmind if (aiocbp._errno == EINPROGRESS || aiocbp._state != JOB_DONE) 799 1.1 rmind return EINVAL; 800 1.1 rmind 801 1.1 rmind *retval = aiocbp._retval; 802 1.1 rmind 803 1.1 rmind /* Reset the internal variables */ 804 1.1 rmind aiocbp._errno = 0; 805 1.1 rmind aiocbp._retval = -1; 806 1.1 rmind aiocbp._state = JOB_NONE; 807 1.1 rmind error = copyout(&aiocbp, SCARG(uap, aiocbp), sizeof(struct aiocb)); 808 1.1 rmind 809 1.1 rmind return error; 810 1.1 rmind } 811 1.1 rmind 812 1.1 rmind int 813 1.22 christos sys___aio_suspend50(struct lwp *l, const struct sys___aio_suspend50_args *uap, 814 1.22 christos register_t *retval) 815 1.1 rmind { 816 1.14 dsl /* { 817 1.1 rmind syscallarg(const struct aiocb *const[]) list; 818 1.1 rmind syscallarg(int) nent; 819 1.1 rmind syscallarg(const struct timespec *) timeout; 820 1.14 dsl } */ 821 1.22 christos struct aiocb **list; 822 1.1 rmind struct timespec ts; 823 1.22 christos int error, nent; 824 1.1 rmind 825 1.1 rmind nent = SCARG(uap, nent); 826 1.1 rmind if (nent <= 0 || nent > aio_listio_max) 827 1.1 rmind return EAGAIN; 828 1.1 rmind 829 1.1 rmind if (SCARG(uap, timeout)) { 830 1.1 rmind /* Convert timespec to ticks */ 831 1.1 rmind error = copyin(SCARG(uap, timeout), &ts, 832 1.1 rmind sizeof(struct timespec)); 833 1.1 rmind if (error) 834 1.1 rmind return error; 835 1.22 christos } 836 1.31 rmind 837 1.28 yamt list = kmem_alloc(nent * sizeof(*list), KM_SLEEP); 838 1.28 yamt error = copyin(SCARG(uap, list), list, nent * sizeof(*list)); 839 1.22 christos if (error) 840 1.22 christos goto out; 841 1.22 christos error = aio_suspend1(l, list, nent, SCARG(uap, timeout) ? &ts : NULL); 842 1.22 christos out: 843 1.28 yamt kmem_free(list, nent * sizeof(*list)); 844 1.22 christos return error; 845 1.22 christos } 846 1.22 christos 847 1.22 christos int 848 1.22 christos aio_suspend1(struct lwp *l, struct aiocb **aiocbp_list, int nent, 849 1.22 christos struct timespec *ts) 850 1.22 christos { 851 1.22 christos struct proc *p = l->l_proc; 852 1.22 christos struct aioproc *aio; 853 1.22 christos struct aio_job *a_job; 854 1.22 christos int i, error, timo; 855 1.22 christos 856 1.22 christos if (p->p_aio == NULL) 857 1.22 christos return EAGAIN; 858 1.22 christos aio = p->p_aio; 859 1.22 christos 860 1.22 christos if (ts) { 861 1.22 christos timo = mstohz((ts->tv_sec * 1000) + (ts->tv_nsec / 1000000)); 862 1.22 christos if (timo == 0 && ts->tv_sec == 0 && ts->tv_nsec > 0) 863 1.1 rmind timo = 1; 864 1.1 rmind if (timo <= 0) 865 1.1 rmind return EAGAIN; 866 1.1 rmind } else 867 1.1 rmind timo = 0; 868 1.1 rmind 869 1.1 rmind mutex_enter(&aio->aio_mtx); 870 1.1 rmind for (;;) { 871 1.1 rmind for (i = 0; i < nent; i++) { 872 1.1 rmind 873 1.1 rmind /* Skip NULL entries */ 874 1.1 rmind if (aiocbp_list[i] == NULL) 875 1.1 rmind continue; 876 1.1 rmind 877 1.1 rmind /* Skip current job */ 878 1.1 rmind if (aio->curjob) { 879 1.1 rmind a_job = aio->curjob; 880 1.1 rmind if (a_job->aiocb_uptr == aiocbp_list[i]) 881 1.1 rmind continue; 882 1.1 rmind } 883 1.1 rmind 884 1.1 rmind /* Look for a job in the queue */ 885 1.1 rmind TAILQ_FOREACH(a_job, &aio->jobs_queue, list) 886 1.1 rmind if (a_job->aiocb_uptr == aiocbp_list[i]) 887 1.1 rmind break; 888 1.1 rmind 889 1.1 rmind if (a_job == NULL) { 890 1.1 rmind struct aiocb aiocbp; 891 1.1 rmind 892 1.1 rmind mutex_exit(&aio->aio_mtx); 893 1.1 rmind 894 1.31 rmind /* Check if the job is done. */ 895 1.1 rmind error = copyin(aiocbp_list[i], &aiocbp, 896 1.1 rmind sizeof(struct aiocb)); 897 1.1 rmind if (error == 0 && aiocbp._state != JOB_DONE) { 898 1.1 rmind mutex_enter(&aio->aio_mtx); 899 1.1 rmind continue; 900 1.1 rmind } 901 1.1 rmind return error; 902 1.1 rmind } 903 1.1 rmind } 904 1.1 rmind 905 1.1 rmind /* Wait for a signal or when timeout occurs */ 906 1.1 rmind error = cv_timedwait_sig(&aio->done_cv, &aio->aio_mtx, timo); 907 1.1 rmind if (error) { 908 1.1 rmind if (error == EWOULDBLOCK) 909 1.1 rmind error = EAGAIN; 910 1.1 rmind break; 911 1.1 rmind } 912 1.1 rmind } 913 1.1 rmind mutex_exit(&aio->aio_mtx); 914 1.1 rmind return error; 915 1.1 rmind } 916 1.1 rmind 917 1.1 rmind int 918 1.27 yamt sys_aio_write(struct lwp *l, const struct sys_aio_write_args *uap, 919 1.27 yamt register_t *retval) 920 1.1 rmind { 921 1.14 dsl /* { 922 1.1 rmind syscallarg(struct aiocb *) aiocbp; 923 1.14 dsl } */ 924 1.1 rmind 925 1.1 rmind return aio_enqueue_job(AIO_WRITE, SCARG(uap, aiocbp), NULL); 926 1.1 rmind } 927 1.1 rmind 928 1.1 rmind int 929 1.27 yamt sys_lio_listio(struct lwp *l, const struct sys_lio_listio_args *uap, 930 1.27 yamt register_t *retval) 931 1.1 rmind { 932 1.14 dsl /* { 933 1.1 rmind syscallarg(int) mode; 934 1.1 rmind syscallarg(struct aiocb *const[]) list; 935 1.1 rmind syscallarg(int) nent; 936 1.1 rmind syscallarg(struct sigevent *) sig; 937 1.14 dsl } */ 938 1.1 rmind struct proc *p = l->l_proc; 939 1.1 rmind struct aioproc *aio; 940 1.1 rmind struct aiocb **aiocbp_list; 941 1.1 rmind struct lio_req *lio; 942 1.1 rmind int i, error, errcnt, mode, nent; 943 1.1 rmind 944 1.1 rmind mode = SCARG(uap, mode); 945 1.1 rmind nent = SCARG(uap, nent); 946 1.1 rmind 947 1.12 rmind /* Non-accurate checks for the limit and invalid values */ 948 1.1 rmind if (nent < 1 || nent > aio_listio_max) 949 1.1 rmind return EINVAL; 950 1.12 rmind if (aio_jobs_count + nent > aio_max) 951 1.1 rmind return EAGAIN; 952 1.1 rmind 953 1.1 rmind /* Check if AIO structure is initialized, if not - initialize it */ 954 1.1 rmind if (p->p_aio == NULL) 955 1.20 ad if (aio_procinit(p)) 956 1.1 rmind return EAGAIN; 957 1.1 rmind aio = p->p_aio; 958 1.1 rmind 959 1.1 rmind /* Create a LIO structure */ 960 1.4 rmind lio = pool_get(&aio_lio_pool, PR_WAITOK); 961 1.4 rmind lio->refcnt = 1; 962 1.4 rmind error = 0; 963 1.4 rmind 964 1.4 rmind switch (mode) { 965 1.4 rmind case LIO_WAIT: 966 1.1 rmind memset(&lio->sig, 0, sizeof(struct sigevent)); 967 1.4 rmind break; 968 1.4 rmind case LIO_NOWAIT: 969 1.4 rmind /* Check for signal, validate it */ 970 1.4 rmind if (SCARG(uap, sig)) { 971 1.4 rmind struct sigevent *sig = &lio->sig; 972 1.4 rmind 973 1.4 rmind error = copyin(SCARG(uap, sig), &lio->sig, 974 1.4 rmind sizeof(struct sigevent)); 975 1.4 rmind if (error == 0 && 976 1.4 rmind (sig->sigev_signo < 0 || 977 1.4 rmind sig->sigev_signo >= NSIG || 978 1.4 rmind sig->sigev_notify < SIGEV_NONE || 979 1.4 rmind sig->sigev_notify > SIGEV_SA)) 980 1.4 rmind error = EINVAL; 981 1.4 rmind } else 982 1.4 rmind memset(&lio->sig, 0, sizeof(struct sigevent)); 983 1.4 rmind break; 984 1.4 rmind default: 985 1.4 rmind error = EINVAL; 986 1.4 rmind break; 987 1.4 rmind } 988 1.4 rmind 989 1.4 rmind if (error != 0) { 990 1.4 rmind pool_put(&aio_lio_pool, lio); 991 1.4 rmind return error; 992 1.4 rmind } 993 1.1 rmind 994 1.1 rmind /* Get the list from user-space */ 995 1.28 yamt aiocbp_list = kmem_alloc(nent * sizeof(*aiocbp_list), KM_SLEEP); 996 1.1 rmind error = copyin(SCARG(uap, list), aiocbp_list, 997 1.28 yamt nent * sizeof(*aiocbp_list)); 998 1.4 rmind if (error) { 999 1.4 rmind mutex_enter(&aio->aio_mtx); 1000 1.1 rmind goto err; 1001 1.4 rmind } 1002 1.1 rmind 1003 1.1 rmind /* Enqueue all jobs */ 1004 1.1 rmind errcnt = 0; 1005 1.1 rmind for (i = 0; i < nent; i++) { 1006 1.1 rmind error = aio_enqueue_job(AIO_LIO, aiocbp_list[i], lio); 1007 1.1 rmind /* 1008 1.1 rmind * According to POSIX, in such error case it may 1009 1.1 rmind * fail with other I/O operations initiated. 1010 1.1 rmind */ 1011 1.1 rmind if (error) 1012 1.1 rmind errcnt++; 1013 1.1 rmind } 1014 1.1 rmind 1015 1.4 rmind mutex_enter(&aio->aio_mtx); 1016 1.4 rmind 1017 1.1 rmind /* Return an error, if any */ 1018 1.1 rmind if (errcnt) { 1019 1.1 rmind error = EIO; 1020 1.1 rmind goto err; 1021 1.1 rmind } 1022 1.1 rmind 1023 1.1 rmind if (mode == LIO_WAIT) { 1024 1.1 rmind /* 1025 1.1 rmind * Wait for AIO completion. In such case, 1026 1.1 rmind * the LIO structure will be freed here. 1027 1.1 rmind */ 1028 1.4 rmind while (lio->refcnt > 1 && error == 0) 1029 1.1 rmind error = cv_wait_sig(&aio->done_cv, &aio->aio_mtx); 1030 1.1 rmind if (error) 1031 1.1 rmind error = EINTR; 1032 1.1 rmind } 1033 1.1 rmind 1034 1.1 rmind err: 1035 1.4 rmind if (--lio->refcnt != 0) 1036 1.4 rmind lio = NULL; 1037 1.4 rmind mutex_exit(&aio->aio_mtx); 1038 1.4 rmind if (lio != NULL) { 1039 1.4 rmind aio_sendsig(p, &lio->sig); 1040 1.4 rmind pool_put(&aio_lio_pool, lio); 1041 1.4 rmind } 1042 1.28 yamt kmem_free(aiocbp_list, nent * sizeof(*aiocbp_list)); 1043 1.1 rmind return error; 1044 1.1 rmind } 1045 1.1 rmind 1046 1.1 rmind /* 1047 1.1 rmind * SysCtl 1048 1.1 rmind */ 1049 1.1 rmind 1050 1.1 rmind static int 1051 1.1 rmind sysctl_aio_listio_max(SYSCTLFN_ARGS) 1052 1.1 rmind { 1053 1.1 rmind struct sysctlnode node; 1054 1.1 rmind int error, newsize; 1055 1.1 rmind 1056 1.1 rmind node = *rnode; 1057 1.1 rmind node.sysctl_data = &newsize; 1058 1.1 rmind 1059 1.1 rmind newsize = aio_listio_max; 1060 1.1 rmind error = sysctl_lookup(SYSCTLFN_CALL(&node)); 1061 1.1 rmind if (error || newp == NULL) 1062 1.1 rmind return error; 1063 1.1 rmind 1064 1.1 rmind if (newsize < 1 || newsize > aio_max) 1065 1.1 rmind return EINVAL; 1066 1.1 rmind aio_listio_max = newsize; 1067 1.1 rmind 1068 1.1 rmind return 0; 1069 1.1 rmind } 1070 1.1 rmind 1071 1.1 rmind static int 1072 1.1 rmind sysctl_aio_max(SYSCTLFN_ARGS) 1073 1.1 rmind { 1074 1.1 rmind struct sysctlnode node; 1075 1.1 rmind int error, newsize; 1076 1.1 rmind 1077 1.1 rmind node = *rnode; 1078 1.1 rmind node.sysctl_data = &newsize; 1079 1.1 rmind 1080 1.1 rmind newsize = aio_max; 1081 1.1 rmind error = sysctl_lookup(SYSCTLFN_CALL(&node)); 1082 1.1 rmind if (error || newp == NULL) 1083 1.1 rmind return error; 1084 1.1 rmind 1085 1.1 rmind if (newsize < 1 || newsize < aio_listio_max) 1086 1.1 rmind return EINVAL; 1087 1.1 rmind aio_max = newsize; 1088 1.1 rmind 1089 1.1 rmind return 0; 1090 1.1 rmind } 1091 1.1 rmind 1092 1.35 jruoho static int 1093 1.35 jruoho sysctl_aio_init(void) 1094 1.1 rmind { 1095 1.35 jruoho int rv; 1096 1.35 jruoho 1097 1.35 jruoho aio_sysctl = NULL; 1098 1.1 rmind 1099 1.35 jruoho rv = sysctl_createv(&aio_sysctl, 0, NULL, NULL, 1100 1.1 rmind CTLFLAG_PERMANENT | CTLFLAG_IMMEDIATE, 1101 1.1 rmind CTLTYPE_INT, "posix_aio", 1102 1.1 rmind SYSCTL_DESCR("Version of IEEE Std 1003.1 and its " 1103 1.1 rmind "Asynchronous I/O option to which the " 1104 1.1 rmind "system attempts to conform"), 1105 1.1 rmind NULL, _POSIX_ASYNCHRONOUS_IO, NULL, 0, 1106 1.1 rmind CTL_KERN, CTL_CREATE, CTL_EOL); 1107 1.35 jruoho 1108 1.35 jruoho if (rv != 0) 1109 1.35 jruoho return rv; 1110 1.35 jruoho 1111 1.35 jruoho rv = sysctl_createv(&aio_sysctl, 0, NULL, NULL, 1112 1.1 rmind CTLFLAG_PERMANENT | CTLFLAG_READWRITE, 1113 1.1 rmind CTLTYPE_INT, "aio_listio_max", 1114 1.1 rmind SYSCTL_DESCR("Maximum number of asynchronous I/O " 1115 1.1 rmind "operations in a single list I/O call"), 1116 1.1 rmind sysctl_aio_listio_max, 0, &aio_listio_max, 0, 1117 1.1 rmind CTL_KERN, CTL_CREATE, CTL_EOL); 1118 1.35 jruoho 1119 1.35 jruoho if (rv != 0) 1120 1.35 jruoho return rv; 1121 1.35 jruoho 1122 1.35 jruoho rv = sysctl_createv(&aio_sysctl, 0, NULL, NULL, 1123 1.1 rmind CTLFLAG_PERMANENT | CTLFLAG_READWRITE, 1124 1.1 rmind CTLTYPE_INT, "aio_max", 1125 1.1 rmind SYSCTL_DESCR("Maximum number of asynchronous I/O " 1126 1.1 rmind "operations"), 1127 1.1 rmind sysctl_aio_max, 0, &aio_max, 0, 1128 1.1 rmind CTL_KERN, CTL_CREATE, CTL_EOL); 1129 1.35 jruoho 1130 1.35 jruoho return rv; 1131 1.1 rmind } 1132 1.1 rmind 1133 1.1 rmind /* 1134 1.1 rmind * Debugging 1135 1.1 rmind */ 1136 1.1 rmind #if defined(DDB) 1137 1.1 rmind void 1138 1.1 rmind aio_print_jobs(void (*pr)(const char *, ...)) 1139 1.1 rmind { 1140 1.37 matt struct proc *p = curlwp->l_proc; 1141 1.1 rmind struct aioproc *aio; 1142 1.1 rmind struct aio_job *a_job; 1143 1.1 rmind struct aiocb *aiocbp; 1144 1.1 rmind 1145 1.1 rmind if (p == NULL) { 1146 1.1 rmind (*pr)("AIO: We are not in the processes right now.\n"); 1147 1.1 rmind return; 1148 1.1 rmind } 1149 1.1 rmind 1150 1.1 rmind aio = p->p_aio; 1151 1.1 rmind if (aio == NULL) { 1152 1.1 rmind (*pr)("AIO data is not initialized (PID = %d).\n", p->p_pid); 1153 1.1 rmind return; 1154 1.1 rmind } 1155 1.1 rmind 1156 1.1 rmind (*pr)("AIO: PID = %d\n", p->p_pid); 1157 1.1 rmind (*pr)("AIO: Global count of the jobs = %u\n", aio_jobs_count); 1158 1.1 rmind (*pr)("AIO: Count of the jobs = %u\n", aio->jobs_count); 1159 1.1 rmind 1160 1.1 rmind if (aio->curjob) { 1161 1.1 rmind a_job = aio->curjob; 1162 1.1 rmind (*pr)("\nAIO current job:\n"); 1163 1.1 rmind (*pr)(" opcode = %d, errno = %d, state = %d, aiocb_ptr = %p\n", 1164 1.1 rmind a_job->aio_op, a_job->aiocbp._errno, 1165 1.1 rmind a_job->aiocbp._state, a_job->aiocb_uptr); 1166 1.1 rmind aiocbp = &a_job->aiocbp; 1167 1.1 rmind (*pr)(" fd = %d, offset = %u, buf = %p, nbytes = %u\n", 1168 1.1 rmind aiocbp->aio_fildes, aiocbp->aio_offset, 1169 1.1 rmind aiocbp->aio_buf, aiocbp->aio_nbytes); 1170 1.1 rmind } 1171 1.1 rmind 1172 1.1 rmind (*pr)("\nAIO queue:\n"); 1173 1.1 rmind TAILQ_FOREACH(a_job, &aio->jobs_queue, list) { 1174 1.1 rmind (*pr)(" opcode = %d, errno = %d, state = %d, aiocb_ptr = %p\n", 1175 1.1 rmind a_job->aio_op, a_job->aiocbp._errno, 1176 1.1 rmind a_job->aiocbp._state, a_job->aiocb_uptr); 1177 1.1 rmind aiocbp = &a_job->aiocbp; 1178 1.1 rmind (*pr)(" fd = %d, offset = %u, buf = %p, nbytes = %u\n", 1179 1.1 rmind aiocbp->aio_fildes, aiocbp->aio_offset, 1180 1.1 rmind aiocbp->aio_buf, aiocbp->aio_nbytes); 1181 1.1 rmind } 1182 1.1 rmind } 1183 1.1 rmind #endif /* defined(DDB) */ 1184
Indexes created Tue Sep 30 20:09:53 GMT 2025