puffs_msgif.c revision 1.95
1 /* $NetBSD: puffs_msgif.c,v 1.95 2014/08/28 08:29:50 hannken Exp $ */ 2 3 /* 4 * Copyright (c) 2005, 2006, 2007 Antti Kantee. All Rights Reserved. 5 * 6 * Development of this software was supported by the 7 * Google Summer of Code program and the Ulla Tuominen Foundation. 8 * The Google SoC project was mentored by Bill Studenmund. 9 * 10 * Redistribution and use in source and binary forms, with or without 11 * modification, are permitted provided that the following conditions 12 * are met: 13 * 1. Redistributions of source code must retain the above copyright 14 * notice, this list of conditions and the following disclaimer. 15 * 2. Redistributions in binary form must reproduce the above copyright 16 * notice, this list of conditions and the following disclaimer in the 17 * documentation and/or other materials provided with the distribution. 18 * 19 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS 20 * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 21 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 22 * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 23 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 24 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 25 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 26 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 27 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 28 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 29 * SUCH DAMAGE. 30 */ 31 32 #include <sys/cdefs.h> 33 __KERNEL_RCSID(0, "$NetBSD: puffs_msgif.c,v 1.95 2014/08/28 08:29:50 hannken Exp $"); 34 35 #include <sys/param.h> 36 #include <sys/kernel.h> 37 #include <sys/atomic.h> 38 #include <sys/kmem.h> 39 #include <sys/kthread.h> 40 #include <sys/lock.h> 41 #include <sys/malloc.h> 42 #include <sys/mount.h> 43 #include <sys/namei.h> 44 #include <sys/proc.h> 45 #include <sys/vnode.h> 46 #include <sys/atomic.h> 47 48 #include <uvm/uvm.h> 49 50 #include <dev/putter/putter_sys.h> 51 52 #include <fs/puffs/puffs_msgif.h> 53 #include <fs/puffs/puffs_sys.h> 54 55 #include <miscfs/syncfs/syncfs.h> /* XXX: for syncer_mutex reference */ 56 57 /* 58 * waitq data structures 59 */ 60 61 /* 62 * While a request is going to userspace, park the caller within the 63 * kernel. This is the kernel counterpart of "struct puffs_req". 64 */ 65 struct puffs_msgpark { 66 struct puffs_req *park_preq; /* req followed by buf */ 67 68 size_t park_copylen; /* userspace copylength */ 69 size_t park_maxlen; /* max size in comeback */ 70 71 struct puffs_req *park_creq; /* non-compat preq */ 72 size_t park_creqlen; /* non-compat preq len */ 73 74 parkdone_fn park_done; /* "biodone" a'la puffs */ 75 void *park_donearg; 76 77 int park_flags; 78 int park_refcount; 79 80 kcondvar_t park_cv; 81 kmutex_t park_mtx; 82 83 TAILQ_ENTRY(puffs_msgpark) park_entries; 84 }; 85 #define PARKFLAG_WAITERGONE 0x01 86 #define PARKFLAG_DONE 0x02 87 #define PARKFLAG_ONQUEUE1 0x04 88 #define PARKFLAG_ONQUEUE2 0x08 89 #define PARKFLAG_CALL 0x10 90 #define PARKFLAG_WANTREPLY 0x20 91 #define PARKFLAG_HASERROR 0x40 92 93 static pool_cache_t parkpc; 94 #ifdef PUFFSDEBUG 95 static int totalpark; 96 #endif 97 98 int puffs_sopreq_expire_timeout = PUFFS_SOPREQ_EXPIRE_TIMEOUT; 99 100 static int 101 makepark(void *arg, void *obj, int flags) 102 { 103 struct puffs_msgpark *park = obj; 104 105 mutex_init(&park->park_mtx, MUTEX_DEFAULT, IPL_NONE); 106 cv_init(&park->park_cv, "puffsrpl"); 107 108 return 0; 109 } 110 111 static void 112 nukepark(void *arg, void *obj) 113 { 114 struct puffs_msgpark *park = obj; 115 116 cv_destroy(&park->park_cv); 117 mutex_destroy(&park->park_mtx); 118 } 119 120 void 121 puffs_msgif_init(void) 122 { 123 124 parkpc = pool_cache_init(sizeof(struct puffs_msgpark), 0, 0, 0, 125 "puffprkl", NULL, IPL_NONE, makepark, nukepark, NULL); 126 } 127 128 void 129 puffs_msgif_destroy(void) 130 { 131 132 pool_cache_destroy(parkpc); 133 } 134 135 static struct puffs_msgpark * 136 puffs_msgpark_alloc(int waitok) 137 { 138 struct puffs_msgpark *park; 139 140 KASSERT(curlwp != uvm.pagedaemon_lwp || !waitok); 141 142 park = pool_cache_get(parkpc, waitok ? PR_WAITOK : PR_NOWAIT); 143 if (park == NULL) 144 return park; 145 146 park->park_refcount = 1; 147 park->park_preq = park->park_creq = NULL; 148 park->park_flags = PARKFLAG_WANTREPLY; 149 150 #ifdef PUFFSDEBUG 151 totalpark++; 152 #endif 153 154 return park; 155 } 156 157 static void 158 puffs_msgpark_reference(struct puffs_msgpark *park) 159 { 160 161 KASSERT(mutex_owned(&park->park_mtx)); 162 park->park_refcount++; 163 } 164 165 /* 166 * Release reference to park structure. 167 */ 168 static void 169 puffs_msgpark_release1(struct puffs_msgpark *park, int howmany) 170 { 171 struct puffs_req *preq = park->park_preq; 172 struct puffs_req *creq = park->park_creq; 173 int refcnt; 174 175 KASSERT(mutex_owned(&park->park_mtx)); 176 refcnt = park->park_refcount -= howmany; 177 mutex_exit(&park->park_mtx); 178 179 KASSERT(refcnt >= 0); 180 181 if (refcnt == 0) { 182 if (preq) 183 kmem_free(preq, park->park_maxlen); 184 #if 1 185 if (creq) 186 kmem_free(creq, park->park_creqlen); 187 #endif 188 pool_cache_put(parkpc, park); 189 190 #ifdef PUFFSDEBUG 191 totalpark--; 192 #endif 193 } 194 } 195 #define puffs_msgpark_release(a) puffs_msgpark_release1(a, 1) 196 197 #ifdef PUFFSDEBUG 198 static void 199 parkdump(struct puffs_msgpark *park) 200 { 201 202 DPRINTF(("park %p, preq %p, id %" PRIu64 "\n" 203 "\tcopy %zu, max %zu - done: %p/%p\n" 204 "\tflags 0x%08x, refcount %d, cv/mtx: %p/%p\n", 205 park, park->park_preq, park->park_preq->preq_id, 206 park->park_copylen, park->park_maxlen, 207 park->park_done, park->park_donearg, 208 park->park_flags, park->park_refcount, 209 &park->park_cv, &park->park_mtx)); 210 } 211 212 static void 213 parkqdump(struct puffs_wq *q, int dumpall) 214 { 215 struct puffs_msgpark *park; 216 int total = 0; 217 218 TAILQ_FOREACH(park, q, park_entries) { 219 if (dumpall) 220 parkdump(park); 221 total++; 222 } 223 DPRINTF(("puffs waitqueue at %p dumped, %d total\n", q, total)); 224 225 } 226 #endif /* PUFFSDEBUG */ 227 228 /* 229 * A word about locking in the park structures: the lock protects the 230 * fields of the *park* structure (not preq) and acts as an interlock 231 * in cv operations. The lock is always internal to this module and 232 * callers do not need to worry about it. 233 */ 234 235 int 236 puffs_msgmem_alloc(size_t len, struct puffs_msgpark **ppark, void **mem, 237 int cansleep) 238 { 239 struct puffs_msgpark *park; 240 void *m; 241 242 KASSERT(curlwp != uvm.pagedaemon_lwp || !cansleep); 243 m = kmem_zalloc(len, cansleep ? KM_SLEEP : KM_NOSLEEP); 244 if (m == NULL) { 245 KASSERT(cansleep == 0); 246 return ENOMEM; 247 } 248 249 park = puffs_msgpark_alloc(cansleep); 250 if (park == NULL) { 251 KASSERT(cansleep == 0); 252 kmem_free(m, len); 253 return ENOMEM; 254 } 255 256 park->park_preq = m; 257 park->park_maxlen = park->park_copylen = len; 258 259 *ppark = park; 260 *mem = m; 261 262 return 0; 263 } 264 265 void 266 puffs_msgmem_release(struct puffs_msgpark *park) 267 { 268 269 if (park == NULL) 270 return; 271 272 mutex_enter(&park->park_mtx); 273 puffs_msgpark_release(park); 274 } 275 276 void 277 puffs_msg_setfaf(struct puffs_msgpark *park) 278 { 279 280 KASSERT((park->park_flags & PARKFLAG_CALL) == 0); 281 park->park_flags &= ~PARKFLAG_WANTREPLY; 282 } 283 284 void 285 puffs_msg_setdelta(struct puffs_msgpark *park, size_t delta) 286 { 287 288 KASSERT(delta < park->park_maxlen); /* "<=" wouldn't make sense */ 289 park->park_copylen = park->park_maxlen - delta; 290 } 291 292 void 293 puffs_msg_setinfo(struct puffs_msgpark *park, int class, int type, 294 puffs_cookie_t ck) 295 { 296 297 park->park_preq->preq_opclass = PUFFSOP_OPCLASS(class); 298 park->park_preq->preq_optype = type; 299 park->park_preq->preq_cookie = ck; 300 } 301 302 void 303 puffs_msg_setcall(struct puffs_msgpark *park, parkdone_fn donefn, void *donearg) 304 { 305 306 KASSERT(park->park_flags & PARKFLAG_WANTREPLY); 307 park->park_done = donefn; 308 park->park_donearg = donearg; 309 park->park_flags |= PARKFLAG_CALL; 310 } 311 312 /* 313 * kernel-user-kernel waitqueues 314 */ 315 316 static uint64_t 317 puffs_getmsgid(struct puffs_mount *pmp) 318 { 319 uint64_t rv; 320 321 mutex_enter(&pmp->pmp_lock); 322 rv = pmp->pmp_nextmsgid++; 323 mutex_exit(&pmp->pmp_lock); 324 325 return rv; 326 } 327 328 /* 329 * A word about reference counting of parks. A reference must be taken 330 * when accessing a park and additionally when it is on a queue. So 331 * when taking it off a queue and releasing the access reference, the 332 * reference count is generally decremented by 2. 333 */ 334 335 void 336 puffs_msg_enqueue(struct puffs_mount *pmp, struct puffs_msgpark *park) 337 { 338 struct lwp *l = curlwp; 339 struct puffs_req *preq, *creq; 340 ssize_t delta; 341 342 /* 343 * Some clients reuse a park, so reset some flags. We might 344 * want to provide a caller-side interface for this and add 345 * a few more invariant checks here, but this will do for now. 346 */ 347 park->park_flags &= ~(PARKFLAG_DONE | PARKFLAG_HASERROR); 348 KASSERT((park->park_flags & PARKFLAG_WAITERGONE) == 0); 349 350 preq = park->park_preq; 351 352 #if 1 353 /* check if we do compat adjustments */ 354 if (pmp->pmp_docompat && puffs_compat_outgoing(preq, &creq, &delta)) { 355 park->park_creq = park->park_preq; 356 park->park_creqlen = park->park_maxlen; 357 358 park->park_maxlen += delta; 359 park->park_copylen += delta; 360 park->park_preq = preq = creq; 361 } 362 #endif 363 364 preq->preq_buflen = park->park_maxlen; 365 KASSERT(preq->preq_id == 0 366 || (preq->preq_opclass & PUFFSOPFLAG_ISRESPONSE)); 367 368 if ((park->park_flags & PARKFLAG_WANTREPLY) == 0) 369 preq->preq_opclass |= PUFFSOPFLAG_FAF; 370 else 371 preq->preq_id = puffs_getmsgid(pmp); 372 373 /* fill in caller information */ 374 preq->preq_pid = l->l_proc->p_pid; 375 preq->preq_lid = l->l_lid; 376 377 /* 378 * To support cv_sig, yet another movie: check if there are signals 379 * pending and we are issueing a non-FAF. If so, return an error 380 * directly UNLESS we are issueing INACTIVE/RECLAIM. In that case, 381 * convert it to a FAF, fire off to the file server and return 382 * an error. Yes, this is bordering disgusting. Barfbags are on me. 383 */ 384 if (__predict_false((park->park_flags & PARKFLAG_WANTREPLY) 385 && (park->park_flags & PARKFLAG_CALL) == 0 386 && (l->l_flag & LW_PENDSIG) != 0 && sigispending(l, 0))) { 387 sigset_t ss; 388 389 /* 390 * see the comment about signals in puffs_msg_wait. 391 */ 392 sigpending1(l, &ss); 393 if (sigismember(&ss, SIGINT) || 394 sigismember(&ss, SIGTERM) || 395 sigismember(&ss, SIGKILL) || 396 sigismember(&ss, SIGHUP) || 397 sigismember(&ss, SIGQUIT)) { 398 park->park_flags |= PARKFLAG_HASERROR; 399 preq->preq_rv = EINTR; 400 if (PUFFSOP_OPCLASS(preq->preq_opclass) == PUFFSOP_VN 401 && (preq->preq_optype == PUFFS_VN_INACTIVE 402 || preq->preq_optype == PUFFS_VN_RECLAIM)) { 403 park->park_preq->preq_opclass |= 404 PUFFSOPFLAG_FAF; 405 park->park_flags &= ~PARKFLAG_WANTREPLY; 406 DPRINTF(("puffs_msg_enqueue: " 407 "converted to FAF %p\n", park)); 408 } else { 409 return; 410 } 411 } 412 } 413 414 mutex_enter(&pmp->pmp_lock); 415 if (pmp->pmp_status != PUFFSTAT_RUNNING) { 416 mutex_exit(&pmp->pmp_lock); 417 park->park_flags |= PARKFLAG_HASERROR; 418 preq->preq_rv = ENXIO; 419 return; 420 } 421 422 #ifdef PUFFSDEBUG 423 parkqdump(&pmp->pmp_msg_touser, puffsdebug > 1); 424 parkqdump(&pmp->pmp_msg_replywait, puffsdebug > 1); 425 #endif 426 427 /* 428 * Note: we don't need to lock park since we have the only 429 * reference to it at this point. 430 */ 431 TAILQ_INSERT_TAIL(&pmp->pmp_msg_touser, park, park_entries); 432 park->park_flags |= PARKFLAG_ONQUEUE1; 433 pmp->pmp_msg_touser_count++; 434 park->park_refcount++; 435 mutex_exit(&pmp->pmp_lock); 436 437 cv_broadcast(&pmp->pmp_msg_waiter_cv); 438 putter_notify(pmp->pmp_pi); 439 440 DPRINTF(("touser: req %" PRIu64 ", preq: %p, park: %p, " 441 "c/t: 0x%x/0x%x, f: 0x%x\n", preq->preq_id, preq, park, 442 preq->preq_opclass, preq->preq_optype, park->park_flags)); 443 } 444 445 int 446 puffs_msg_wait(struct puffs_mount *pmp, struct puffs_msgpark *park) 447 { 448 lwp_t *l = curlwp; 449 proc_t *p = l->l_proc; 450 struct puffs_req *preq = park->park_preq; /* XXX: hmmm */ 451 sigset_t ss; 452 sigset_t oss; 453 int error = 0; 454 int rv; 455 456 /* 457 * block unimportant signals. 458 * 459 * The set of "important" signals here was chosen to be same as 460 * nfs interruptible mount. 461 */ 462 sigfillset(&ss); 463 sigdelset(&ss, SIGINT); 464 sigdelset(&ss, SIGTERM); 465 sigdelset(&ss, SIGKILL); 466 sigdelset(&ss, SIGHUP); 467 sigdelset(&ss, SIGQUIT); 468 mutex_enter(p->p_lock); 469 sigprocmask1(l, SIG_BLOCK, &ss, &oss); 470 mutex_exit(p->p_lock); 471 472 mutex_enter(&pmp->pmp_lock); 473 puffs_mp_reference(pmp); 474 mutex_exit(&pmp->pmp_lock); 475 476 mutex_enter(&park->park_mtx); 477 /* did the response beat us to the wait? */ 478 if (__predict_false((park->park_flags & PARKFLAG_DONE) 479 || (park->park_flags & PARKFLAG_HASERROR))) { 480 rv = park->park_preq->preq_rv; 481 mutex_exit(&park->park_mtx); 482 goto skipwait; 483 } 484 485 if ((park->park_flags & PARKFLAG_WANTREPLY) == 0 486 || (park->park_flags & PARKFLAG_CALL)) { 487 mutex_exit(&park->park_mtx); 488 rv = 0; 489 goto skipwait; 490 } 491 492 error = cv_wait_sig(&park->park_cv, &park->park_mtx); 493 DPRINTF(("puffs_touser: waiter for %p woke up with %d\n", 494 park, error)); 495 if (error) { 496 park->park_flags |= PARKFLAG_WAITERGONE; 497 if (park->park_flags & PARKFLAG_DONE) { 498 rv = preq->preq_rv; 499 mutex_exit(&park->park_mtx); 500 } else { 501 /* 502 * ok, we marked it as going away, but 503 * still need to do queue ops. take locks 504 * in correct order. 505 * 506 * We don't want to release our reference 507 * if it's on replywait queue to avoid error 508 * to file server. putop() code will DTRT. 509 */ 510 mutex_exit(&park->park_mtx); 511 mutex_enter(&pmp->pmp_lock); 512 mutex_enter(&park->park_mtx); 513 514 /* 515 * Still on queue1? We can safely remove it 516 * without any consequences since the file 517 * server hasn't seen it. "else" we need to 518 * wait for the response and just ignore it 519 * to avoid signalling an incorrect error to 520 * the file server. 521 */ 522 if (park->park_flags & PARKFLAG_ONQUEUE1) { 523 TAILQ_REMOVE(&pmp->pmp_msg_touser, 524 park, park_entries); 525 puffs_msgpark_release(park); 526 pmp->pmp_msg_touser_count--; 527 park->park_flags &= ~PARKFLAG_ONQUEUE1; 528 } else { 529 mutex_exit(&park->park_mtx); 530 } 531 mutex_exit(&pmp->pmp_lock); 532 533 rv = EINTR; 534 } 535 } else { 536 rv = preq->preq_rv; 537 mutex_exit(&park->park_mtx); 538 } 539 540 skipwait: 541 mutex_enter(&pmp->pmp_lock); 542 puffs_mp_release(pmp); 543 mutex_exit(&pmp->pmp_lock); 544 545 mutex_enter(p->p_lock); 546 sigprocmask1(l, SIG_SETMASK, &oss, NULL); 547 mutex_exit(p->p_lock); 548 549 return rv; 550 } 551 552 /* 553 * XXX: this suuuucks. Hopefully I'll get rid of this lossage once 554 * the whole setback-nonsense gets fixed. 555 */ 556 int 557 puffs_msg_wait2(struct puffs_mount *pmp, struct puffs_msgpark *park, 558 struct puffs_node *pn1, struct puffs_node *pn2) 559 { 560 struct puffs_req *preq; 561 int rv; 562 563 rv = puffs_msg_wait(pmp, park); 564 565 preq = park->park_preq; 566 if (pn1 && preq->preq_setbacks & PUFFS_SETBACK_INACT_N1) 567 pn1->pn_stat |= PNODE_DOINACT; 568 if (pn2 && preq->preq_setbacks & PUFFS_SETBACK_INACT_N2) 569 pn2->pn_stat |= PNODE_DOINACT; 570 571 if (pn1 && preq->preq_setbacks & PUFFS_SETBACK_NOREF_N1) 572 pn1->pn_stat |= PNODE_NOREFS; 573 if (pn2 && preq->preq_setbacks & PUFFS_SETBACK_NOREF_N2) 574 pn2->pn_stat |= PNODE_NOREFS; 575 576 return rv; 577 578 } 579 580 /* 581 * XXX: lazy bum. please, for the love of foie gras, fix me. 582 * This should *NOT* depend on setfaf. Also "memcpy" could 583 * be done more nicely. 584 */ 585 void 586 puffs_msg_sendresp(struct puffs_mount *pmp, struct puffs_req *origpreq, int rv) 587 { 588 struct puffs_msgpark *park; 589 struct puffs_req *preq; 590 591 puffs_msgmem_alloc(sizeof(struct puffs_req), &park, (void *)&preq, 1); 592 puffs_msg_setfaf(park); /* XXXXXX: avoids reqid override */ 593 594 memcpy(preq, origpreq, sizeof(struct puffs_req)); 595 preq->preq_rv = rv; 596 preq->preq_opclass |= PUFFSOPFLAG_ISRESPONSE; 597 598 puffs_msg_enqueue(pmp, park); 599 puffs_msgmem_release(park); 600 } 601 602 /* 603 * Get next request in the outgoing queue. "maxsize" controls the 604 * size the caller can accommodate and "nonblock" signals if this 605 * should block while waiting for input. Handles all locking internally. 606 */ 607 int 608 puffs_msgif_getout(void *this, size_t maxsize, int nonblock, 609 uint8_t **data, size_t *dlen, void **parkptr) 610 { 611 struct puffs_mount *pmp = this; 612 struct puffs_msgpark *park = NULL; 613 struct puffs_req *preq = NULL; 614 int error; 615 616 error = 0; 617 mutex_enter(&pmp->pmp_lock); 618 puffs_mp_reference(pmp); 619 for (;;) { 620 /* RIP? */ 621 if (pmp->pmp_status != PUFFSTAT_RUNNING) { 622 error = ENXIO; 623 break; 624 } 625 626 /* need platinum yendorian express card? */ 627 if (TAILQ_EMPTY(&pmp->pmp_msg_touser)) { 628 DPRINTF(("puffs_getout: no outgoing op, ")); 629 if (nonblock) { 630 DPRINTF(("returning EWOULDBLOCK\n")); 631 error = EWOULDBLOCK; 632 break; 633 } 634 DPRINTF(("waiting ...\n")); 635 636 error = cv_wait_sig(&pmp->pmp_msg_waiter_cv, 637 &pmp->pmp_lock); 638 if (error) 639 break; 640 else 641 continue; 642 } 643 644 park = TAILQ_FIRST(&pmp->pmp_msg_touser); 645 if (park == NULL) 646 continue; 647 648 mutex_enter(&park->park_mtx); 649 puffs_msgpark_reference(park); 650 651 DPRINTF(("puffs_getout: found park at %p, ", park)); 652 653 /* If it's a goner, don't process any furher */ 654 if (park->park_flags & PARKFLAG_WAITERGONE) { 655 DPRINTF(("waitergone!\n")); 656 puffs_msgpark_release(park); 657 continue; 658 } 659 preq = park->park_preq; 660 661 #if 0 662 /* check size */ 663 /* 664 * XXX: this check is not valid for now, we don't know 665 * the size of the caller's input buffer. i.e. this 666 * will most likely go away 667 */ 668 if (maxsize < preq->preq_frhdr.pfr_len) { 669 DPRINTF(("buffer too small\n")); 670 puffs_msgpark_release(park); 671 error = E2BIG; 672 break; 673 } 674 #endif 675 676 DPRINTF(("returning\n")); 677 678 /* 679 * Ok, we found what we came for. Release it from the 680 * outgoing queue but do not unlock. We will unlock 681 * only after we "releaseout" it to avoid complications: 682 * otherwise it is (theoretically) possible for userland 683 * to race us into "put" before we have a change to put 684 * this baby on the receiving queue. 685 */ 686 TAILQ_REMOVE(&pmp->pmp_msg_touser, park, park_entries); 687 KASSERT(park->park_flags & PARKFLAG_ONQUEUE1); 688 park->park_flags &= ~PARKFLAG_ONQUEUE1; 689 mutex_exit(&park->park_mtx); 690 691 pmp->pmp_msg_touser_count--; 692 KASSERT(pmp->pmp_msg_touser_count >= 0); 693 694 break; 695 } 696 puffs_mp_release(pmp); 697 mutex_exit(&pmp->pmp_lock); 698 699 if (error == 0) { 700 *data = (uint8_t *)preq; 701 preq->preq_pth.pth_framelen = park->park_copylen; 702 *dlen = preq->preq_pth.pth_framelen; 703 *parkptr = park; 704 } 705 706 return error; 707 } 708 709 /* 710 * Release outgoing structure. Now, depending on the success of the 711 * outgoing send, it is either going onto the result waiting queue 712 * or the death chamber. 713 */ 714 void 715 puffs_msgif_releaseout(void *this, void *parkptr, int status) 716 { 717 struct puffs_mount *pmp = this; 718 struct puffs_msgpark *park = parkptr; 719 720 DPRINTF(("puffs_releaseout: returning park %p, errno %d: " , 721 park, status)); 722 mutex_enter(&pmp->pmp_lock); 723 mutex_enter(&park->park_mtx); 724 if (park->park_flags & PARKFLAG_WANTREPLY) { 725 if (status == 0) { 726 DPRINTF(("enqueue replywait\n")); 727 TAILQ_INSERT_TAIL(&pmp->pmp_msg_replywait, park, 728 park_entries); 729 park->park_flags |= PARKFLAG_ONQUEUE2; 730 } else { 731 DPRINTF(("error path!\n")); 732 park->park_preq->preq_rv = status; 733 park->park_flags |= PARKFLAG_DONE; 734 cv_signal(&park->park_cv); 735 } 736 puffs_msgpark_release(park); 737 } else { 738 DPRINTF(("release\n")); 739 puffs_msgpark_release1(park, 2); 740 } 741 mutex_exit(&pmp->pmp_lock); 742 } 743 744 size_t 745 puffs_msgif_waitcount(void *this) 746 { 747 struct puffs_mount *pmp = this; 748 size_t rv; 749 750 mutex_enter(&pmp->pmp_lock); 751 rv = pmp->pmp_msg_touser_count; 752 mutex_exit(&pmp->pmp_lock); 753 754 return rv; 755 } 756 757 /* 758 * XXX: locking with this one? 759 */ 760 static void 761 puffsop_msg(void *this, struct puffs_req *preq) 762 { 763 struct puffs_mount *pmp = this; 764 struct putter_hdr *pth = &preq->preq_pth; 765 struct puffs_msgpark *park; 766 int wgone; 767 768 mutex_enter(&pmp->pmp_lock); 769 770 /* Locate waiter */ 771 TAILQ_FOREACH(park, &pmp->pmp_msg_replywait, park_entries) { 772 if (park->park_preq->preq_id == preq->preq_id) 773 break; 774 } 775 if (park == NULL) { 776 DPRINTF(("puffsop_msg: no request: %" PRIu64 "\n", 777 preq->preq_id)); 778 mutex_exit(&pmp->pmp_lock); 779 return; /* XXX send error */ 780 } 781 782 mutex_enter(&park->park_mtx); 783 puffs_msgpark_reference(park); 784 if (pth->pth_framelen > park->park_maxlen) { 785 DPRINTF(("puffsop_msg: invalid buffer length: " 786 "%" PRIu64 " (req %" PRIu64 ", \n", pth->pth_framelen, 787 preq->preq_id)); 788 park->park_preq->preq_rv = EPROTO; 789 cv_signal(&park->park_cv); 790 puffs_msgpark_release1(park, 2); 791 mutex_exit(&pmp->pmp_lock); 792 return; /* XXX: error */ 793 } 794 wgone = park->park_flags & PARKFLAG_WAITERGONE; 795 796 KASSERT(park->park_flags & PARKFLAG_ONQUEUE2); 797 TAILQ_REMOVE(&pmp->pmp_msg_replywait, park, park_entries); 798 park->park_flags &= ~PARKFLAG_ONQUEUE2; 799 mutex_exit(&pmp->pmp_lock); 800 801 if (wgone) { 802 DPRINTF(("puffsop_msg: bad service - waiter gone for " 803 "park %p\n", park)); 804 } else { 805 #if 1 806 if (park->park_creq) { 807 struct puffs_req *creq; 808 size_t csize; 809 810 KASSERT(pmp->pmp_docompat); 811 puffs_compat_incoming(preq, park->park_creq); 812 creq = park->park_creq; 813 csize = park->park_creqlen; 814 park->park_creq = park->park_preq; 815 park->park_creqlen = park->park_maxlen; 816 817 park->park_preq = creq; 818 park->park_maxlen = csize; 819 820 memcpy(park->park_creq, preq, pth->pth_framelen); 821 } else { 822 #endif 823 memcpy(park->park_preq, preq, pth->pth_framelen); 824 } 825 826 if (park->park_flags & PARKFLAG_CALL) { 827 DPRINTF(("puffsop_msg: call for %p, arg %p\n", 828 park->park_preq, park->park_donearg)); 829 park->park_done(pmp, preq, park->park_donearg); 830 } 831 } 832 833 if (!wgone) { 834 DPRINTF(("puffs_putop: flagging done for " 835 "park %p\n", park)); 836 cv_signal(&park->park_cv); 837 } 838 839 park->park_flags |= PARKFLAG_DONE; 840 puffs_msgpark_release1(park, 2); 841 } 842 843 /* 844 * Node expiry. We come here after an inactive on an unexpired node. 845 * The expiry has been queued and is done in sop thread. 846 */ 847 static void 848 puffsop_expire(struct puffs_mount *pmp, puffs_cookie_t cookie) 849 { 850 struct vnode *vp; 851 852 KASSERT(PUFFS_USE_FS_TTL(pmp)); 853 854 /* 855 * If it still exists and has no reference, 856 * vrele should cause it to be reclaimed. 857 * Otherwise, we have nothing to do. 858 */ 859 if (puffs_cookie2vnode(pmp, cookie, &vp) == 0) { 860 VPTOPP(vp)->pn_stat &= ~PNODE_SOPEXP; 861 vrele(vp); 862 } 863 864 return; 865 } 866 867 static void 868 puffsop_flush(struct puffs_mount *pmp, struct puffs_flush *pf) 869 { 870 struct vnode *vp; 871 voff_t offlo, offhi; 872 int rv, flags = 0; 873 874 KASSERT(pf->pf_req.preq_pth.pth_framelen == sizeof(struct puffs_flush)); 875 876 /* XXX: slurry */ 877 if (pf->pf_op == PUFFS_INVAL_NAMECACHE_ALL) { 878 cache_purgevfs(PMPTOMP(pmp)); 879 rv = 0; 880 goto out; 881 } 882 883 /* 884 * Get vnode, don't lock it. Namecache is protected by its own lock 885 * and we have a reference to protect against premature harvesting. 886 * 887 * The node we want here might be locked and the op is in 888 * userspace waiting for us to complete ==> deadlock. Another 889 * reason we need to eventually bump locking to userspace, as we 890 * will need to lock the node if we wish to do flushes. 891 */ 892 rv = puffs_cookie2vnode(pmp, pf->pf_cookie, &vp); 893 if (rv) { 894 if (rv == PUFFS_NOSUCHCOOKIE) 895 rv = ENOENT; 896 goto out; 897 } 898 899 switch (pf->pf_op) { 900 #if 0 901 /* not quite ready, yet */ 902 case PUFFS_INVAL_NAMECACHE_NODE: 903 struct componentname *pf_cn; 904 char *name; 905 /* get comfortab^Wcomponentname */ 906 pf_cn = kmem_alloc(componentname); 907 memset(pf_cn, 0, sizeof(struct componentname)); 908 break; 909 910 #endif 911 case PUFFS_INVAL_NAMECACHE_DIR: 912 if (vp->v_type != VDIR) { 913 rv = EINVAL; 914 break; 915 } 916 cache_purge1(vp, NULL, 0, PURGE_CHILDREN); 917 break; 918 919 case PUFFS_INVAL_PAGECACHE_NODE_RANGE: 920 flags = PGO_FREE; 921 /*FALLTHROUGH*/ 922 case PUFFS_FLUSH_PAGECACHE_NODE_RANGE: 923 if (flags == 0) 924 flags = PGO_CLEANIT; 925 926 if (pf->pf_end > vp->v_size || vp->v_type != VREG) { 927 rv = EINVAL; 928 break; 929 } 930 931 offlo = trunc_page(pf->pf_start); 932 offhi = round_page(pf->pf_end); 933 if (offhi != 0 && offlo >= offhi) { 934 rv = EINVAL; 935 break; 936 } 937 938 mutex_enter(vp->v_uobj.vmobjlock); 939 rv = VOP_PUTPAGES(vp, offlo, offhi, flags); 940 break; 941 942 default: 943 rv = EINVAL; 944 } 945 946 vrele(vp); 947 948 out: 949 puffs_msg_sendresp(pmp, &pf->pf_req, rv); 950 } 951 952 int 953 puffs_msgif_dispatch(void *this, struct putter_hdr *pth) 954 { 955 struct puffs_mount *pmp = this; 956 struct puffs_req *preq = (struct puffs_req *)pth; 957 struct puffs_sopreq *psopr; 958 959 if (pth->pth_framelen < sizeof(struct puffs_req)) { 960 puffs_msg_sendresp(pmp, preq, EINVAL); /* E2SMALL */ 961 return 0; 962 } 963 964 switch (PUFFSOP_OPCLASS(preq->preq_opclass)) { 965 case PUFFSOP_VN: 966 case PUFFSOP_VFS: 967 DPRINTF(("dispatch: vn/vfs message 0x%x\n", preq->preq_optype)); 968 puffsop_msg(pmp, preq); 969 break; 970 971 case PUFFSOP_FLUSH: /* process in sop thread */ 972 { 973 struct puffs_flush *pf; 974 975 DPRINTF(("dispatch: flush 0x%x\n", preq->preq_optype)); 976 977 if (preq->preq_pth.pth_framelen != sizeof(struct puffs_flush)) { 978 puffs_msg_sendresp(pmp, preq, EINVAL); /* E2SMALL */ 979 break; 980 } 981 pf = (struct puffs_flush *)preq; 982 983 KASSERT(curlwp != uvm.pagedaemon_lwp); 984 psopr = kmem_alloc(sizeof(*psopr), KM_SLEEP); 985 memcpy(&psopr->psopr_pf, pf, sizeof(*pf)); 986 psopr->psopr_sopreq = PUFFS_SOPREQ_FLUSH; 987 988 mutex_enter(&pmp->pmp_sopmtx); 989 if (pmp->pmp_sopthrcount == 0) { 990 mutex_exit(&pmp->pmp_sopmtx); 991 kmem_free(psopr, sizeof(*psopr)); 992 puffs_msg_sendresp(pmp, preq, ENXIO); 993 } else { 994 TAILQ_INSERT_TAIL(&pmp->pmp_sopfastreqs, 995 psopr, psopr_entries); 996 cv_signal(&pmp->pmp_sopcv); 997 mutex_exit(&pmp->pmp_sopmtx); 998 } 999 break; 1000 } 1001 1002 case PUFFSOP_UNMOUNT: /* process in sop thread */ 1003 { 1004 1005 DPRINTF(("dispatch: unmount 0x%x\n", preq->preq_optype)); 1006 1007 KASSERT(curlwp != uvm.pagedaemon_lwp); 1008 psopr = kmem_alloc(sizeof(*psopr), KM_SLEEP); 1009 psopr->psopr_preq = *preq; 1010 psopr->psopr_sopreq = PUFFS_SOPREQ_UNMOUNT; 1011 1012 mutex_enter(&pmp->pmp_sopmtx); 1013 if (pmp->pmp_sopthrcount == 0) { 1014 mutex_exit(&pmp->pmp_sopmtx); 1015 kmem_free(psopr, sizeof(*psopr)); 1016 puffs_msg_sendresp(pmp, preq, ENXIO); 1017 } else { 1018 TAILQ_INSERT_TAIL(&pmp->pmp_sopfastreqs, 1019 psopr, psopr_entries); 1020 cv_signal(&pmp->pmp_sopcv); 1021 mutex_exit(&pmp->pmp_sopmtx); 1022 } 1023 break; 1024 } 1025 1026 default: 1027 DPRINTF(("dispatch: invalid class 0x%x\n", preq->preq_opclass)); 1028 puffs_msg_sendresp(pmp, preq, EOPNOTSUPP); 1029 break; 1030 } 1031 1032 return 0; 1033 } 1034 1035 /* 1036 * Work loop for thread processing all ops from server which 1037 * cannot safely be handled in caller context. This includes 1038 * everything which might need a lock currently "held" by the file 1039 * server, i.e. a long-term kernel lock which will be released only 1040 * once the file server acknowledges a request 1041 */ 1042 #define TIMED_OUT(expire) \ 1043 ((int)((unsigned int)hardclock_ticks - (unsigned int)expire) > 0) 1044 void 1045 puffs_sop_thread(void *arg) 1046 { 1047 struct puffs_mount *pmp = arg; 1048 struct mount *mp = PMPTOMP(pmp); 1049 struct puffs_sopreq *psopr; 1050 bool keeprunning; 1051 bool unmountme = false; 1052 int timeo; 1053 1054 timeo = PUFFS_USE_FS_TTL(pmp) ? puffs_sopreq_expire_timeout : 0; 1055 1056 mutex_enter(&pmp->pmp_sopmtx); 1057 for (keeprunning = true; keeprunning; ) { 1058 /* 1059 * We have a fast queue for flush and umount, and a node 1060 * queue for delayes node reclaims. Requests on node queue * are not honoured before clock reaches psopr_at. This 1061 * code assumes that requests are ordered by psopr_at. 1062 */ 1063 do { 1064 psopr = TAILQ_FIRST(&pmp->pmp_sopfastreqs); 1065 if (psopr != NULL) { 1066 TAILQ_REMOVE(&pmp->pmp_sopfastreqs, 1067 psopr, psopr_entries); 1068 break; 1069 } 1070 1071 psopr = TAILQ_FIRST(&pmp->pmp_sopnodereqs); 1072 if ((psopr != NULL) && TIMED_OUT(psopr->psopr_at)) { 1073 TAILQ_REMOVE(&pmp->pmp_sopnodereqs, 1074 psopr, psopr_entries); 1075 break; 1076 } 1077 1078 cv_timedwait(&pmp->pmp_sopcv, &pmp->pmp_sopmtx, timeo); 1079 } while (1 /* CONSTCOND */); 1080 1081 mutex_exit(&pmp->pmp_sopmtx); 1082 1083 switch (psopr->psopr_sopreq) { 1084 case PUFFS_SOPREQSYS_EXIT: 1085 keeprunning = false; 1086 break; 1087 case PUFFS_SOPREQ_FLUSH: 1088 puffsop_flush(pmp, &psopr->psopr_pf); 1089 break; 1090 case PUFFS_SOPREQ_EXPIRE: 1091 puffsop_expire(pmp, psopr->psopr_ck); 1092 break; 1093 case PUFFS_SOPREQ_UNMOUNT: 1094 puffs_msg_sendresp(pmp, &psopr->psopr_preq, 0); 1095 1096 unmountme = true; 1097 keeprunning = false; 1098 1099 /* 1100 * We know the mountpoint is still alive because 1101 * the thread that is us (poetic?) is still alive. 1102 */ 1103 atomic_inc_uint((unsigned int*)&mp->mnt_refcnt); 1104 break; 1105 } 1106 1107 kmem_free(psopr, sizeof(*psopr)); 1108 mutex_enter(&pmp->pmp_sopmtx); 1109 } 1110 1111 /* 1112 * Purge remaining ops. 1113 */ 1114 while ((psopr = TAILQ_FIRST(&pmp->pmp_sopfastreqs)) != NULL) { 1115 TAILQ_REMOVE(&pmp->pmp_sopfastreqs, psopr, psopr_entries); 1116 mutex_exit(&pmp->pmp_sopmtx); 1117 puffs_msg_sendresp(pmp, &psopr->psopr_preq, ENXIO); 1118 kmem_free(psopr, sizeof(*psopr)); 1119 mutex_enter(&pmp->pmp_sopmtx); 1120 } 1121 1122 while ((psopr = TAILQ_FIRST(&pmp->pmp_sopnodereqs)) != NULL) { 1123 TAILQ_REMOVE(&pmp->pmp_sopnodereqs, psopr, psopr_entries); 1124 mutex_exit(&pmp->pmp_sopmtx); 1125 KASSERT(psopr->psopr_sopreq == PUFFS_SOPREQ_EXPIRE); 1126 kmem_free(psopr, sizeof(*psopr)); 1127 mutex_enter(&pmp->pmp_sopmtx); 1128 } 1129 1130 pmp->pmp_sopthrcount--; 1131 cv_broadcast(&pmp->pmp_sopcv); 1132 mutex_exit(&pmp->pmp_sopmtx); /* not allowed to access fs after this */ 1133 1134 /* 1135 * If unmount was requested, we can now safely do it here, since 1136 * our context is dead from the point-of-view of puffs_unmount() 1137 * and we are just another thread. dounmount() makes internally 1138 * sure that VFS_UNMOUNT() isn't called reentrantly and that it 1139 * is eventually completed. 1140 */ 1141 if (unmountme) { 1142 (void)dounmount(mp, MNT_FORCE, curlwp); 1143 vfs_destroy(mp); 1144 } 1145 1146 kthread_exit(0); 1147 } 1148 1149 int 1150 puffs_msgif_close(void *this) 1151 { 1152 struct puffs_mount *pmp = this; 1153 struct mount *mp = PMPTOMP(pmp); 1154 1155 mutex_enter(&pmp->pmp_lock); 1156 puffs_mp_reference(pmp); 1157 1158 /* 1159 * Free the waiting callers before proceeding any further. 1160 * The syncer might be jogging around in this file system 1161 * currently. If we allow it to go to the userspace of no 1162 * return while trying to get the syncer lock, well ... 1163 */ 1164 puffs_userdead(pmp); 1165 1166 /* 1167 * Make sure someone from puffs_unmount() isn't currently in 1168 * userspace. If we don't take this precautionary step, 1169 * they might notice that the mountpoint has disappeared 1170 * from under them once they return. Especially note that we 1171 * cannot simply test for an unmounter before calling 1172 * dounmount(), since it might be possible that that particular 1173 * invocation of unmount was called without MNT_FORCE. Here we 1174 * *must* make sure unmount succeeds. Also, restart is necessary 1175 * since pmp isn't locked. We might end up with PUTTER_DEAD after 1176 * restart and exit from there. 1177 */ 1178 if (pmp->pmp_unmounting) { 1179 cv_wait(&pmp->pmp_unmounting_cv, &pmp->pmp_lock); 1180 puffs_mp_release(pmp); 1181 mutex_exit(&pmp->pmp_lock); 1182 DPRINTF(("puffs_fop_close: unmount was in progress for pmp %p, " 1183 "restart\n", pmp)); 1184 return ERESTART; 1185 } 1186 1187 /* Won't access pmp from here anymore */ 1188 atomic_inc_uint((unsigned int*)&mp->mnt_refcnt); 1189 puffs_mp_release(pmp); 1190 mutex_exit(&pmp->pmp_lock); 1191 1192 /* Detach from VFS. */ 1193 (void)dounmount(mp, MNT_FORCE, curlwp); 1194 vfs_destroy(mp); 1195 1196 return 0; 1197 } 1198 1199 /* 1200 * We're dead, kaput, RIP, slightly more than merely pining for the 1201 * fjords, belly-up, fallen, lifeless, finished, expired, gone to meet 1202 * our maker, ceased to be, etcetc. YASD. It's a dead FS! 1203 * 1204 * Caller must hold puffs mutex. 1205 */ 1206 void 1207 puffs_userdead(struct puffs_mount *pmp) 1208 { 1209 struct puffs_msgpark *park, *park_next; 1210 1211 /* 1212 * Mark filesystem status as dying so that operations don't 1213 * attempt to march to userspace any longer. 1214 */ 1215 pmp->pmp_status = PUFFSTAT_DYING; 1216 1217 /* signal waiters on REQUEST TO file server queue */ 1218 for (park = TAILQ_FIRST(&pmp->pmp_msg_touser); park; park = park_next) { 1219 1220 mutex_enter(&park->park_mtx); 1221 puffs_msgpark_reference(park); 1222 park_next = TAILQ_NEXT(park, park_entries); 1223 1224 KASSERT(park->park_flags & PARKFLAG_ONQUEUE1); 1225 TAILQ_REMOVE(&pmp->pmp_msg_touser, park, park_entries); 1226 park->park_flags &= ~PARKFLAG_ONQUEUE1; 1227 pmp->pmp_msg_touser_count--; 1228 1229 /* 1230 * Even though waiters on QUEUE1 are removed in touser() 1231 * in case of WAITERGONE, it is still possible for us to 1232 * get raced here due to having to retake locks in said 1233 * touser(). In the race case simply "ignore" the item 1234 * on the queue and move on to the next one. 1235 */ 1236 if (park->park_flags & PARKFLAG_WAITERGONE) { 1237 KASSERT((park->park_flags & PARKFLAG_CALL) == 0); 1238 KASSERT(park->park_flags & PARKFLAG_WANTREPLY); 1239 puffs_msgpark_release(park); 1240 1241 } else { 1242 park->park_preq->preq_rv = ENXIO; 1243 1244 if (park->park_flags & PARKFLAG_CALL) { 1245 park->park_done(pmp, park->park_preq, 1246 park->park_donearg); 1247 puffs_msgpark_release1(park, 2); 1248 } else if ((park->park_flags & PARKFLAG_WANTREPLY)==0) { 1249 puffs_msgpark_release1(park, 2); 1250 } else { 1251 park->park_preq->preq_rv = ENXIO; 1252 cv_signal(&park->park_cv); 1253 puffs_msgpark_release(park); 1254 } 1255 } 1256 } 1257 1258 /* signal waiters on RESPONSE FROM file server queue */ 1259 for (park=TAILQ_FIRST(&pmp->pmp_msg_replywait); park; park=park_next) { 1260 mutex_enter(&park->park_mtx); 1261 puffs_msgpark_reference(park); 1262 park_next = TAILQ_NEXT(park, park_entries); 1263 1264 KASSERT(park->park_flags & PARKFLAG_ONQUEUE2); 1265 KASSERT(park->park_flags & PARKFLAG_WANTREPLY); 1266 1267 TAILQ_REMOVE(&pmp->pmp_msg_replywait, park, park_entries); 1268 park->park_flags &= ~PARKFLAG_ONQUEUE2; 1269 1270 if (park->park_flags & PARKFLAG_WAITERGONE) { 1271 KASSERT((park->park_flags & PARKFLAG_CALL) == 0); 1272 puffs_msgpark_release(park); 1273 } else { 1274 park->park_preq->preq_rv = ENXIO; 1275 if (park->park_flags & PARKFLAG_CALL) { 1276 park->park_done(pmp, park->park_preq, 1277 park->park_donearg); 1278 puffs_msgpark_release1(park, 2); 1279 } else { 1280 cv_signal(&park->park_cv); 1281 puffs_msgpark_release(park); 1282 } 1283 } 1284 } 1285 1286 cv_broadcast(&pmp->pmp_msg_waiter_cv); 1287 } 1288
Indexes created Sun Sep 28 16:09:52 GMT 2025