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 * Copyright (c) 1992, 2010, Oracle and/or its affiliates. All rights reserved. 23 */ 24 25 /* 26 * Instance number assignment code 27 */ 28 29 #include <sys/types.h> 30 #include <sys/param.h> 31 #include <sys/errno.h> 32 #include <sys/systm.h> 33 #include <sys/kobj.h> 34 #include <sys/t_lock.h> 35 #include <sys/kmem.h> 36 #include <sys/cmn_err.h> 37 #include <sys/ddi.h> 38 #include <sys/sunddi.h> 39 #include <sys/autoconf.h> 40 #include <sys/systeminfo.h> 41 #include <sys/hwconf.h> 42 #include <sys/reboot.h> 43 #include <sys/ddi_impldefs.h> 44 #include <sys/instance.h> 45 #include <sys/debug.h> 46 #include <sys/sysevent.h> 47 #include <sys/modctl.h> 48 #include <sys/console.h> 49 #include <sys/cladm.h> 50 #include <sys/sysmacros.h> 51 #include <sys/crc32.h> 52 53 54 static void in_preassign_instance(void); 55 static void i_log_devfs_instance_mod(void); 56 static int in_get_infile(char *); 57 static void in_removenode(struct devnames *dnp, in_node_t *mp, in_node_t *ap); 58 static in_node_t *in_alloc_node(char *name, char *addr); 59 static int in_eqstr(char *a, char *b); 60 static char *in_name_addr(char **cpp, char **addrp); 61 static in_node_t *in_devwalk(dev_info_t *dip, in_node_t **ap, char *addr); 62 static void in_dealloc_node(in_node_t *np); 63 static in_node_t *in_make_path(char *path); 64 static void in_enlist(in_node_t *ap, in_node_t *np); 65 static int in_inuse(int instance, char *name); 66 static void in_hashdrv(in_drv_t *dp); 67 static in_drv_t *in_drvwalk(in_node_t *np, char *binding_name); 68 static in_drv_t *in_alloc_drv(char *bindingname); 69 static void in_endrv(in_node_t *np, in_drv_t *dp); 70 static void in_dq_drv(in_drv_t *np); 71 static void in_removedrv(struct devnames *dnp, in_drv_t *mp); 72 static int in_pathin(char *cp, int instance, char *bname, struct bind **args); 73 static int in_next_instance_block(major_t, int); 74 static int in_next_instance(major_t); 75 76 #pragma weak plat_ioaliases_init 77 78 79 /* external functions */ 80 extern char *i_binding_to_drv_name(char *bname); 81 extern void plat_ioaliases_init(void); 82 83 /* 84 * This plus devnames defines the entire software state of the instance world. 85 */ 86 typedef struct in_softstate { 87 in_node_t *ins_root; /* the root of our instance tree */ 88 in_drv_t *ins_no_major; /* majorless drv entries */ 89 /* 90 * Used to serialize access to data structures 91 */ 92 void *ins_thread; 93 kmutex_t ins_serial; 94 kcondvar_t ins_serial_cv; 95 int ins_busy; 96 boolean_t ins_dirty; /* instance info needs flush */ 97 } in_softstate_t; 98 99 static in_softstate_t e_ddi_inst_state; 100 101 /* 102 * State transition information: 103 * e_ddi_inst_state contains, among other things, the root of a tree of 104 * device nodes used to track instance number assignments. 105 * Each device node may contain multiple driver bindings, represented 106 * by a linked list of in_drv_t nodes, each with an instance assignment 107 * (except for root node). Each in_drv node can be in one of 3 states, 108 * indicated by ind_state: 109 * 110 * IN_UNKNOWN: Each node created in this state. The instance number of 111 * this node is not known. ind_instance is set to -1. 112 * IN_PROVISIONAL: When a node is assigned an instance number in 113 * e_ddi_assign_instance(), its state is set to IN_PROVISIONAL. 114 * Subsequently, the framework will always call either 115 * e_ddi_keep_instance() which makes the node IN_PERMANENT 116 * or e_ddi_free_instance(), which deletes the node. 117 * IN_PERMANENT: 118 * If e_ddi_keep_instance() is called on an IN_PROVISIONAL node, 119 * its state is set to IN_PERMANENT. 120 */ 121 122 static char *instance_file = INSTANCE_FILE; 123 static char *instance_file_backup = INSTANCE_FILE INSTANCE_FILE_SUFFIX; 124 125 /* 126 * Return values for in_get_infile(). 127 */ 128 #define PTI_FOUND 0 129 #define PTI_NOT_FOUND 1 130 #define PTI_REBUILD 2 131 132 int instance_searchme = 0; /* testing: use complex code path */ 133 134 /* 135 * Path to instance file magic string used for first time boot after 136 * an install. If this is the first string in the file we will 137 * automatically rebuild the file. 138 */ 139 #define PTI_MAGIC_STR "#path_to_inst_bootstrap_1" 140 #define PTI_MAGIC_STR_LEN (sizeof (PTI_MAGIC_STR) - 1) 141 142 void 143 e_ddi_instance_init(void) 144 { 145 char *file; 146 int rebuild = 1; 147 struct in_drv *dp; 148 149 mutex_init(&e_ddi_inst_state.ins_serial, NULL, MUTEX_DEFAULT, NULL); 150 cv_init(&e_ddi_inst_state.ins_serial_cv, NULL, CV_DEFAULT, NULL); 151 152 /* 153 * Only one thread is allowed to change the state of the instance 154 * number assignments on the system at any given time. 155 * Note that this is not really necessary, as we are single-threaded 156 * here, but it won't hurt, and it allows us to keep ASSERTS for 157 * our assumptions in the code. 158 */ 159 e_ddi_enter_instance(); 160 161 /* 162 * Init the ioaliases if the platform supports it 163 */ 164 if (&plat_ioaliases_init) 165 plat_ioaliases_init(); 166 167 /* 168 * Create the root node, instance zallocs to 0. 169 * The name and address of this node never get examined, we always 170 * start searching with its first child. 171 */ 172 ASSERT(e_ddi_inst_state.ins_root == NULL); 173 e_ddi_inst_state.ins_root = in_alloc_node(NULL, NULL); 174 dp = in_alloc_drv("rootnex"); 175 in_endrv(e_ddi_inst_state.ins_root, dp); 176 177 file = instance_file; 178 switch (in_get_infile(file)) { 179 default: 180 case PTI_NOT_FOUND: 181 /* make sure path_to_inst is recreated */ 182 boothowto |= RB_RECONFIG; 183 184 /* 185 * Something is wrong. First try the backup file. 186 * If not found, rebuild path_to_inst. Emit a 187 * message about the problem. 188 */ 189 cmn_err(CE_WARN, "%s empty or not found", file); 190 191 file = instance_file_backup; 192 if (in_get_infile(file) != PTI_FOUND) { 193 cmn_err(CE_NOTE, "rebuilding device instance data"); 194 break; 195 } 196 cmn_err(CE_NOTE, "using backup instance data in %s", file); 197 /*FALLTHROUGH*/ 198 199 case PTI_FOUND: 200 /* 201 * We've got a readable file 202 * parse the file into the instance tree 203 */ 204 (void) read_binding_file(file, NULL, in_pathin); 205 rebuild = 0; 206 break; 207 208 case PTI_REBUILD: 209 /* 210 * path_to_inst has magic str requesting a create 211 * Convert boot to reconfig boot to ensure /dev is 212 * in sync with new path_to_inst. 213 */ 214 boothowto |= RB_RECONFIG; 215 cmn_err(CE_CONT, 216 "?Using default device instance data\n"); 217 break; 218 } 219 220 /* 221 * The OBP device tree has been copied to the kernel and 222 * bound to drivers at this point. We walk the per-driver 223 * list to preassign instances. Since the bus addr is 224 * unknown at this point, we cannot place the instance 225 * number in the instance tree. This will be done at 226 * a later time. 227 */ 228 if (rebuild) 229 in_preassign_instance(); 230 231 e_ddi_exit_instance(); 232 } 233 234 static void 235 in_preassign_instance() 236 { 237 major_t m; 238 struct devnames *dnp; 239 dev_info_t *dip; 240 extern major_t devcnt; 241 242 for (m = 0; m < devcnt; m++) { 243 dnp = &devnamesp[m]; 244 dip = dnp->dn_head; 245 while (dip) { 246 DEVI(dip)->devi_instance = dnp->dn_instance; 247 dnp->dn_instance++; 248 dip = ddi_get_next(dip); 249 } 250 251 /* 252 * The preassign instance numbers are not fully 253 * accounted for until e_ddi_assign_instance(). 254 * We can't fully account for them now because we 255 * don't currently have a unit-address. Because of 256 * this, we need to remember the preassign boundary 257 * to avoid ordering issues related to 258 * e_ddi_assign_instance of a preassigned value .vs. 259 * re-assignment of the same value for a dynamic 260 * SID node created by bus_config. 261 */ 262 dnp->dn_pinstance = dnp->dn_instance; 263 dnp->dn_instance = IN_SEARCHME; 264 } 265 } 266 267 /* 268 * Checks to see if the /etc/path_to_inst file exists and whether or not 269 * it has the magic string in it. 270 * 271 * Returns one of the following: 272 * 273 * PTI_FOUND - We have found the /etc/path_to_inst file 274 * PTI_REBUILD - We have found the /etc/path_to_inst file and the 275 * first line was PTI_MAGIC_STR. 276 * PTI_NOT_FOUND - We did not find the /etc/path_to_inst file 277 * 278 */ 279 static int 280 in_get_infile(char *filename) 281 { 282 struct _buf *file; 283 int return_val; 284 char buf[PTI_MAGIC_STR_LEN]; 285 286 /* 287 * Try to open the file. 288 */ 289 if ((file = kobj_open_file(filename)) == (struct _buf *)-1) { 290 return (PTI_NOT_FOUND); 291 } 292 return_val = PTI_FOUND; 293 294 /* 295 * Read the first PTI_MAGIC_STR_LEN bytes from the file to see if 296 * it contains the magic string. If there aren't that many bytes 297 * in the file, then assume file is correct and no magic string 298 * and move on. 299 */ 300 switch (kobj_read_file(file, buf, PTI_MAGIC_STR_LEN, 0)) { 301 302 case PTI_MAGIC_STR_LEN: 303 /* 304 * If the first PTI_MAGIC_STR_LEN bytes are the magic string 305 * then return PTI_REBUILD. 306 */ 307 if (strncmp(PTI_MAGIC_STR, buf, PTI_MAGIC_STR_LEN) == 0) 308 return_val = PTI_REBUILD; 309 break; 310 311 case 0: 312 /* 313 * If the file is zero bytes in length, then consider the 314 * file to not be found 315 */ 316 return_val = PTI_NOT_FOUND; 317 318 default: /* Do nothing we have a good file */ 319 break; 320 } 321 322 kobj_close_file(file); 323 return (return_val); 324 } 325 326 int 327 is_pseudo_device(dev_info_t *dip) 328 { 329 dev_info_t *pdip; 330 331 for (pdip = ddi_get_parent(dip); pdip && pdip != ddi_root_node(); 332 pdip = ddi_get_parent(pdip)) { 333 if (strcmp(ddi_get_name(pdip), DEVI_PSEUDO_NEXNAME) == 0) 334 return (1); 335 } 336 return (0); 337 } 338 339 340 static void 341 in_set_instance(dev_info_t *dip, in_drv_t *dp, major_t major) 342 { 343 /* use preassigned instance if available */ 344 if (DEVI(dip)->devi_instance != -1) 345 dp->ind_instance = DEVI(dip)->devi_instance; 346 else 347 dp->ind_instance = in_next_instance(major); 348 } 349 350 /* 351 * Return 1 if instance block was assigned for the path. 352 * 353 * For multi-port NIC cards, sequential instance assignment across all 354 * ports on a card is highly desirable since the ppa is typically the 355 * same as the instance number, and the ppa is used in the NIC's public 356 * /dev name. This sequential assignment typically occurs as a result 357 * of in_preassign_instance() after initial install, or by 358 * i_ndi_init_hw_children() for NIC ports that share a common parent. 359 * 360 * Some NIC cards however use multi-function bridge chips, and to 361 * support sequential instance assignment accross all ports, without 362 * disabling multi-threaded attach, we have a (currently) undocumented 363 * hack to allocate instance numbers in contiguous blocks based on 364 * driver.conf properties. 365 * 366 * ^ 367 * /---------- ------------\ 368 * pci@0 pci@0,1 MULTI-FUNCTION BRIDGE CHIP 369 * / \ / \ 370 * FJSV,e4ta@4 FJSV,e4ta@4,1 FJSV,e4ta@6 FJSV,e4ta@6,1 NIC PORTS 371 * n n+2 n+2 n+3 INSTANCE 372 * 373 * For the above example, the following driver.conf properties would be 374 * used to guarantee sequential instance number assignment. 375 * 376 * ddi-instance-blocks ="ib-FJSVe4ca", "ib-FJSVe4ta", "ib-generic"; 377 * ib-FJSVe4ca = "/pci@0/FJSV,e4ca@4", "/pci@0/FJSV,e4ca@4,1", 378 * "/pci@0,1/FJSV,e4ca@6", "/pci@0,1/FJSV,e4ca@6,1"; 379 * ib-FJSVe4ta = "/pci@0/FJSV,e4ta@4", "/pci@0/FJSV,e4ta@4,1", 380 * "/pci@0,1/FJSV,e4ta@6", "/pci@0,1/FJSV,e4ta@6,1"; 381 * ib-generic = "/pci@0/network@4", "/pci@0/network@4,1", 382 * "/pci@0,1/network@6", "/pci@0,1/network@6,1"; 383 * 384 * The value of the 'ddi-instance-blocks' property references a series 385 * of card specific properties, like 'ib-FJSV-e4ta', who's value 386 * defines a single 'instance block'. The 'instance block' describes 387 * all the paths below a multi-function bridge, where each path is 388 * called an 'instance path'. The 'instance block' property value is a 389 * series of 'instance paths'. The number of 'instance paths' in an 390 * 'instance block' defines the size of the instance block, and the 391 * ordering of the 'instance paths' defines the instance number 392 * assignment order for paths going through the 'instance block'. 393 * 394 * In the instance assignment code below, if a (path, driver) that 395 * currently has no instance number has a path that goes through an 396 * 'instance block', then block instance number allocation occurs. The 397 * block allocation code will find a sequential set of unused instance 398 * numbers, and assign instance numbers for all the paths in the 399 * 'instance block'. Each path is assigned a persistent instance 400 * number, even paths that don't exist in the device tree or fail 401 * probe(9E). 402 */ 403 static int 404 in_assign_instance_block(dev_info_t *dip) 405 { 406 char **ibn; /* instance block names */ 407 uint_t nibn; /* number of instance block names */ 408 uint_t ibni; /* ibn index */ 409 char *driver; 410 major_t major; 411 char *path; 412 char *addr; 413 int plen; 414 char **ibp; /* instance block paths */ 415 uint_t nibp; /* number of paths in instance block */ 416 uint_t ibpi; /* ibp index */ 417 int ibplen; /* length of instance block path */ 418 char *ipath; 419 int instance_base; 420 int splice; 421 int i; 422 423 /* check for fresh install case (in miniroot) */ 424 if (DEVI(dip)->devi_instance != -1) 425 return (0); /* already assigned */ 426 427 /* 428 * Check to see if we need to allocate a block of contiguous instance 429 * numbers by looking for the 'ddi-instance-blocks' property. 430 */ 431 if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, 432 "ddi-instance-blocks", &ibn, &nibn) != DDI_SUCCESS) 433 return (0); /* no instance block needed */ 434 435 /* 436 * Get information out about node we are processing. 437 * 438 * NOTE: Since the node is not yet at DS_INITIALIZED, ddi_pathname() 439 * will not return the unit-address of the final path component even 440 * though the node has an established devi_addr unit-address - so we 441 * need to add the unit-address by hand. 442 */ 443 driver = (char *)ddi_driver_name(dip); 444 major = ddi_driver_major(dip); 445 path = kmem_alloc(MAXPATHLEN, KM_SLEEP); 446 (void) ddi_pathname(dip, path); 447 if ((addr = ddi_get_name_addr(dip)) != NULL) { 448 (void) strcat(path, "@"); 449 (void) strcat(path, addr); 450 } 451 plen = strlen(path); 452 453 /* loop through instance block names */ 454 for (ibni = 0; ibni < nibn; ibni++) { 455 if (ibn[ibni] == NULL) 456 continue; 457 458 /* lookup instance block */ 459 if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, dip, 460 DDI_PROP_DONTPASS, ibn[ibni], 461 &ibp, &nibp) != DDI_SUCCESS) { 462 cmn_err(CE_WARN, 463 "no devinition for instance block '%s' in %s.conf", 464 ibn[ibni], driver); 465 continue; 466 } 467 468 /* Does 'path' go through this instance block? */ 469 for (ibpi = 0; ibpi < nibp; ibpi++) { 470 if (ibp[ibpi] == NULL) 471 continue; 472 ibplen = strlen(ibp[ibpi]); 473 if ((ibplen <= plen) && 474 (strcmp(ibp[ibpi], path + plen - ibplen) == 0)) 475 break; 476 477 } 478 if (ibpi >= nibp) { 479 ddi_prop_free(ibp); 480 continue; /* no try next instance block */ 481 } 482 483 /* yes, allocate and assign instances for all paths in block */ 484 485 /* 486 * determine where we splice in instance paths and verify 487 * that none of the paths are too long. 488 */ 489 splice = plen - ibplen; 490 for (i = 0; i < nibp; i++) { 491 if ((splice + strlen(ibp[i])+ 1) >= MAXPATHLEN) { 492 cmn_err(CE_WARN, 493 "path %d through instance block '%s' from " 494 "%s.conf too long", i, ibn[ibni], driver); 495 break; 496 } 497 } 498 if (i < nibp) { 499 ddi_prop_free(ibp); 500 continue; /* too long */ 501 } 502 503 /* allocate the instance block - no more failures */ 504 instance_base = in_next_instance_block(major, nibp); 505 506 ipath = kmem_alloc(MAXPATHLEN, KM_SLEEP); 507 for (ibpi = 0; ibpi < nibp; ibpi++) { 508 if (ibp[ibpi] == NULL) 509 continue; 510 (void) strcpy(ipath, path); 511 (void) strcpy(ipath + splice, ibp[ibpi]); 512 (void) in_pathin(ipath, 513 instance_base + ibpi, driver, NULL); 514 } 515 516 /* free allocations */ 517 kmem_free(ipath, MAXPATHLEN); 518 ddi_prop_free(ibp); 519 kmem_free(path, MAXPATHLEN); 520 ddi_prop_free(ibn); 521 522 /* notify devfsadmd to sync of path_to_inst file */ 523 mutex_enter(&e_ddi_inst_state.ins_serial); 524 i_log_devfs_instance_mod(); 525 e_ddi_inst_state.ins_dirty = B_TRUE; 526 mutex_exit(&e_ddi_inst_state.ins_serial); 527 return (1); 528 } 529 530 /* our path did not go through any of of the instance blocks */ 531 kmem_free(path, MAXPATHLEN); 532 ddi_prop_free(ibn); 533 return (0); 534 } 535 536 /* 537 * Look up an instance number for a dev_info node, and assign one if it does 538 * not have one (the dev_info node has devi_name and devi_addr already set). 539 */ 540 uint_t 541 e_ddi_assign_instance(dev_info_t *dip) 542 { 543 char *name; 544 in_node_t *ap, *np; 545 in_drv_t *dp; 546 major_t major; 547 uint_t ret; 548 char *bname; 549 550 /* 551 * Allow implementation to override 552 */ 553 if ((ret = impl_assign_instance(dip)) != (uint_t)-1) 554 return (ret); 555 556 /* 557 * If this is a pseudo-device, use the instance number 558 * assigned by the pseudo nexus driver. The mutex is 559 * not needed since the instance tree is not used. 560 */ 561 if (is_pseudo_device(dip)) { 562 return (ddi_get_instance(dip)); 563 } 564 565 /* 566 * Only one thread is allowed to change the state of the instance 567 * number assignments on the system at any given time. 568 */ 569 e_ddi_enter_instance(); 570 571 /* 572 * Look for instance node, allocate one if not found 573 */ 574 np = in_devwalk(dip, &ap, NULL); 575 if (np == NULL) { 576 if (in_assign_instance_block(dip)) { 577 np = in_devwalk(dip, &ap, NULL); 578 } else { 579 name = ddi_node_name(dip); 580 np = in_alloc_node(name, ddi_get_name_addr(dip)); 581 ASSERT(np != NULL); 582 in_enlist(ap, np); /* insert into tree */ 583 } 584 } 585 ASSERT(np == in_devwalk(dip, &ap, NULL)); 586 587 /* 588 * Link the devinfo node and in_node_t 589 */ 590 if (DEVI(dip)->devi_in_node || np->in_devi) { 591 ddi_err(DER_MODE, dip, "devinfo and instance node (%p) " 592 "interlink fields are not NULL", (void *)np); 593 } 594 DEVI(dip)->devi_in_node = np; 595 np->in_devi = dip; 596 597 /* 598 * Look for driver entry, allocate one if not found 599 */ 600 bname = (char *)ddi_driver_name(dip); 601 dp = in_drvwalk(np, bname); 602 if (dp == NULL) { 603 604 if (ddi_aliases_present == B_TRUE) { 605 e_ddi_borrow_instance(dip, np); 606 } 607 608 if ((dp = in_drvwalk(np, bname)) == NULL) { 609 dp = in_alloc_drv(bname); 610 ASSERT(dp != NULL); 611 major = ddi_driver_major(dip); 612 ASSERT(major != DDI_MAJOR_T_NONE); 613 in_endrv(np, dp); 614 in_set_instance(dip, dp, major); 615 dp->ind_state = IN_PROVISIONAL; 616 in_hashdrv(dp); 617 } else { 618 dp->ind_state = IN_BORROWED; 619 } 620 } 621 622 ret = dp->ind_instance; 623 624 e_ddi_exit_instance(); 625 return (ret); 626 } 627 628 static int 629 mkpathname(char *path, in_node_t *np, int len) 630 { 631 int len_needed; 632 633 if (np == e_ddi_inst_state.ins_root) 634 return (DDI_SUCCESS); 635 636 if (mkpathname(path, np->in_parent, len) == DDI_FAILURE) 637 return (DDI_FAILURE); 638 639 len_needed = strlen(path); 640 len_needed += strlen(np->in_node_name) + 1; /* for '/' */ 641 if (np->in_unit_addr) { 642 len_needed += strlen(np->in_unit_addr) + 1; /* for '@' */ 643 } 644 len_needed += 1; /* for '\0' */ 645 646 /* 647 * XX complain 648 */ 649 if (len_needed > len) 650 return (DDI_FAILURE); 651 652 if (np->in_unit_addr[0] == '\0') 653 (void) sprintf(path+strlen(path), "/%s", np->in_node_name); 654 else 655 (void) sprintf(path+strlen(path), "/%s@%s", np->in_node_name, 656 np->in_unit_addr); 657 658 return (DDI_SUCCESS); 659 } 660 661 /* 662 * produce the path to the given instance of a major number. 663 * path must hold MAXPATHLEN string 664 */ 665 int 666 e_ddi_instance_majorinstance_to_path(major_t major, uint_t inst, char *path) 667 { 668 struct devnames *dnp; 669 in_drv_t *dp; 670 int ret; 671 672 e_ddi_enter_instance(); 673 674 /* look for the instance threaded off major */ 675 dnp = &devnamesp[major]; 676 for (dp = dnp->dn_inlist; dp != NULL; dp = dp->ind_next) 677 if (dp->ind_instance == inst) 678 break; 679 680 /* produce path from the node that uses the instance */ 681 if (dp) { 682 *path = 0; 683 ret = mkpathname(path, dp->ind_node, MAXPATHLEN); 684 } else 685 ret = DDI_FAILURE; 686 687 e_ddi_exit_instance(); 688 return (ret); 689 } 690 691 /* 692 * Allocate a sequential block of instance numbers for the specified driver, 693 * and return the base instance number of the block. The implementation 694 * depends on the list being sorted in ascending instance number sequence. 695 * When there are no 'holes' in the allocation sequence, dn_instance is the 696 * next available instance number. When dn_instance is IN_SEARCHME, hole(s) 697 * exists and a slower code path executes which tries to fill holes. 698 * 699 * The block returned can't be in the preassigned range. 700 */ 701 static int 702 in_next_instance_block(major_t major, int block_size) 703 { 704 int prev; 705 struct devnames *dnp; 706 in_drv_t *dp; 707 int base; 708 int hole; 709 710 dnp = &devnamesp[major]; 711 ASSERT(major != DDI_MAJOR_T_NONE); 712 ASSERT(e_ddi_inst_state.ins_busy); 713 ASSERT(block_size); 714 715 /* check to see if we can do a quick allocation */ 716 if (!instance_searchme && (dnp->dn_instance != IN_SEARCHME)) { 717 base = dnp->dn_instance; 718 dnp->dn_instance += block_size; 719 return (base); 720 } 721 722 /* 723 * Use more complex code path, start by skipping preassign entries. 724 */ 725 for (dp = dnp->dn_inlist; dp; dp = dp->ind_next) 726 if (dp->ind_instance >= dnp->dn_pinstance) 727 break; /* beyond preassign */ 728 729 /* No non-preassign entries, allocate block at preassign base. */ 730 if (dp == NULL) { 731 base = dnp->dn_pinstance; 732 if (base == 0) 733 dnp->dn_instance = block_size; 734 return (base); 735 } 736 737 /* See if we fit in hole at beginning (after preassigns) */ 738 prev = dp->ind_instance; 739 if ((prev - dnp->dn_pinstance) >= block_size) 740 return (dnp->dn_pinstance); /* we fit in beginning hole */ 741 742 /* search the list for a large enough hole */ 743 for (dp = dp->ind_next, hole = 0; dp; dp = dp->ind_next) { 744 if (dp->ind_instance != (prev + 1)) 745 hole++; /* we have a hole */ 746 if (dp->ind_instance >= (prev + block_size + 1)) 747 break; /* we fit in hole */ 748 prev = dp->ind_instance; 749 } 750 751 /* 752 * If hole is zero then all holes are patched and we can resume 753 * quick allocations, but don't resume quick allocation if there is 754 * a preassign. 755 */ 756 if ((hole == 0) && (dnp->dn_pinstance == 0)) 757 dnp->dn_instance = prev + 1 + block_size; 758 759 return (prev + 1); 760 } 761 762 /* assign instance block of size 1 */ 763 static int 764 in_next_instance(major_t major) 765 { 766 return (in_next_instance_block(major, 1)); 767 } 768 769 /* 770 * This call causes us to *forget* the instance number we've generated 771 * for a given device if it was not permanent. 772 */ 773 void 774 e_ddi_free_instance(dev_info_t *dip, char *addr) 775 { 776 char *name; 777 in_node_t *np; 778 in_node_t *ap; /* ancestor node */ 779 major_t major; 780 struct devnames *dnp; 781 in_drv_t *dp; /* in_drv entry */ 782 783 /* 784 * Allow implementation override 785 */ 786 if (impl_free_instance(dip) == DDI_SUCCESS) 787 return; 788 789 /* 790 * If this is a pseudo-device, no instance number 791 * was assigned. 792 */ 793 if (is_pseudo_device(dip)) { 794 return; 795 } 796 797 name = (char *)ddi_driver_name(dip); 798 major = ddi_driver_major(dip); 799 ASSERT(major != DDI_MAJOR_T_NONE); 800 dnp = &devnamesp[major]; 801 /* 802 * Only one thread is allowed to change the state of the instance 803 * number assignments on the system at any given time. 804 */ 805 e_ddi_enter_instance(); 806 np = in_devwalk(dip, &ap, addr); 807 ASSERT(np); 808 809 /* 810 * Break the interlink between dip and np 811 */ 812 if (DEVI(dip)->devi_in_node != np || np->in_devi != dip) { 813 ddi_err(DER_MODE, dip, "devinfo node linked to " 814 "wrong instance node: %p", (void *)np); 815 } 816 DEVI(dip)->devi_in_node = NULL; 817 np->in_devi = NULL; 818 819 dp = in_drvwalk(np, name); 820 ASSERT(dp); 821 if (dp->ind_state == IN_PROVISIONAL) { 822 in_removedrv(dnp, dp); 823 } else if (dp->ind_state == IN_BORROWED) { 824 dp->ind_state = IN_PERMANENT; 825 e_ddi_return_instance(dip, addr, np); 826 } 827 if (np->in_drivers == NULL) { 828 in_removenode(dnp, np, ap); 829 } 830 e_ddi_exit_instance(); 831 } 832 833 /* 834 * This makes our memory of an instance assignment permanent 835 */ 836 void 837 e_ddi_keep_instance(dev_info_t *dip) 838 { 839 in_node_t *np, *ap; 840 in_drv_t *dp; 841 842 /* Don't make nulldriver instance assignments permanent */ 843 if (ddi_driver_major(dip) == nulldriver_major) 844 return; 845 846 /* 847 * Allow implementation override 848 */ 849 if (impl_keep_instance(dip) == DDI_SUCCESS) 850 return; 851 852 /* 853 * Nothing to do for pseudo devices. 854 */ 855 if (is_pseudo_device(dip)) 856 return; 857 858 /* 859 * Only one thread is allowed to change the state of the instance 860 * number assignments on the system at any given time. 861 */ 862 e_ddi_enter_instance(); 863 np = in_devwalk(dip, &ap, NULL); 864 ASSERT(np); 865 dp = in_drvwalk(np, (char *)ddi_driver_name(dip)); 866 ASSERT(dp); 867 868 mutex_enter(&e_ddi_inst_state.ins_serial); 869 if (dp->ind_state == IN_PROVISIONAL || dp->ind_state == IN_BORROWED) { 870 dp->ind_state = IN_PERMANENT; 871 i_log_devfs_instance_mod(); 872 e_ddi_inst_state.ins_dirty = B_TRUE; 873 } 874 mutex_exit(&e_ddi_inst_state.ins_serial); 875 e_ddi_exit_instance(); 876 } 877 878 /* 879 * A new major has been added to the system. Run through the orphan list 880 * and try to attach each one to a driver's list. 881 */ 882 void 883 e_ddi_unorphan_instance_nos() 884 { 885 in_drv_t *dp, *ndp; 886 887 /* 888 * disconnect the orphan list, and call in_hashdrv for each item 889 * on it 890 */ 891 892 /* 893 * Only one thread is allowed to change the state of the instance 894 * number assignments on the system at any given time. 895 */ 896 e_ddi_enter_instance(); 897 if (e_ddi_inst_state.ins_no_major == NULL) { 898 e_ddi_exit_instance(); 899 return; 900 } 901 /* 902 * Hash instance list to devnames structure of major. 903 * Note that if there is not a valid major number for the 904 * node, in_hashdrv will put it back on the no_major list. 905 */ 906 dp = e_ddi_inst_state.ins_no_major; 907 e_ddi_inst_state.ins_no_major = NULL; 908 while (dp) { 909 ndp = dp->ind_next; 910 ASSERT(dp->ind_state != IN_UNKNOWN); 911 dp->ind_next = NULL; 912 in_hashdrv(dp); 913 dp = ndp; 914 } 915 e_ddi_exit_instance(); 916 } 917 918 static void 919 in_removenode(struct devnames *dnp, in_node_t *mp, in_node_t *ap) 920 { 921 in_node_t *np; 922 923 ASSERT(e_ddi_inst_state.ins_busy); 924 925 /* 926 * Assertion: parents are always instantiated by the framework 927 * before their children, destroyed after them 928 */ 929 ASSERT(mp->in_child == NULL); 930 /* 931 * Assertion: drv entries are always removed before their owning nodes 932 */ 933 ASSERT(mp->in_drivers == NULL); 934 /* 935 * Take the node out of the tree 936 */ 937 if (ap->in_child == mp) { 938 ap->in_child = mp->in_sibling; 939 in_dealloc_node(mp); 940 return; 941 } else { 942 for (np = ap->in_child; np; np = np->in_sibling) { 943 if (np->in_sibling == mp) { 944 np->in_sibling = mp->in_sibling; 945 in_dealloc_node(mp); 946 return; 947 } 948 } 949 } 950 panic("in_removenode dnp %p mp %p", (void *)dnp, (void *)mp); 951 } 952 953 /* 954 * Recursive ascent 955 * 956 * This now only does half the job. It finds the node, then the caller 957 * has to search the node for the binding name 958 */ 959 static in_node_t * 960 in_devwalk(dev_info_t *dip, in_node_t **ap, char *addr) 961 { 962 in_node_t *np; 963 char *name; 964 965 ASSERT(dip); 966 ASSERT(e_ddi_inst_state.ins_busy); 967 if (dip == ddi_root_node()) { 968 *ap = NULL; 969 return (e_ddi_inst_state.ins_root); 970 } 971 /* 972 * call up to find parent, then look through the list of kids 973 * for a match 974 */ 975 np = in_devwalk(ddi_get_parent(dip), ap, NULL); 976 if (np == NULL) 977 return (np); 978 *ap = np; 979 np = np->in_child; 980 name = ddi_node_name(dip); 981 if (addr == NULL) 982 addr = ddi_get_name_addr(dip); 983 984 while (np) { 985 if (in_eqstr(np->in_node_name, name) && 986 in_eqstr(np->in_unit_addr, addr)) { 987 return (np); 988 } 989 np = np->in_sibling; 990 } 991 992 return (np); 993 } 994 995 /* 996 * Create a node specified by cp and assign it the given instance no. 997 */ 998 static int 999 in_pathin(char *cp, int instance, char *bname, struct bind **args) 1000 { 1001 in_node_t *np; 1002 in_drv_t *dp; 1003 char *name; 1004 1005 ASSERT(e_ddi_inst_state.ins_busy); 1006 ASSERT(args == NULL); 1007 1008 /* 1009 * Give a warning to the console. 1010 * return value ignored 1011 */ 1012 if (cp[0] != '/' || instance == -1 || bname == NULL) { 1013 cmn_err(CE_WARN, 1014 "invalid instance file entry %s %d", 1015 cp, instance); 1016 return (0); 1017 } 1018 1019 if ((name = i_binding_to_drv_name(bname)) != NULL) 1020 bname = name; 1021 1022 np = in_make_path(cp); 1023 ASSERT(np); 1024 1025 dp = in_drvwalk(np, bname); 1026 if (dp != NULL) { 1027 cmn_err(CE_WARN, 1028 "multiple instance number assignments for " 1029 "'%s' (driver %s), %d used", 1030 cp, bname, dp->ind_instance); 1031 return (0); 1032 } 1033 1034 if (in_inuse(instance, bname)) { 1035 cmn_err(CE_WARN, 1036 "instance already in use: %s %d", cp, instance); 1037 return (0); 1038 } 1039 1040 dp = in_alloc_drv(bname); 1041 in_endrv(np, dp); 1042 dp->ind_instance = instance; 1043 dp->ind_state = IN_PERMANENT; 1044 in_hashdrv(dp); 1045 1046 return (0); 1047 } 1048 1049 /* 1050 * Create (or find) the node named by path by recursively descending from the 1051 * root's first child (we ignore the root, which is never named) 1052 */ 1053 static in_node_t * 1054 in_make_path(char *path) 1055 { 1056 in_node_t *ap; /* ancestor pointer */ 1057 in_node_t *np; /* working node pointer */ 1058 in_node_t *rp; /* return node pointer */ 1059 char buf[MAXPATHLEN]; /* copy of string so we can change it */ 1060 char *cp, *name, *addr; 1061 1062 ASSERT(e_ddi_inst_state.ins_busy); 1063 1064 if (path == NULL || path[0] != '/') 1065 return (NULL); 1066 1067 (void) snprintf(buf, sizeof (buf), "%s", path); 1068 cp = buf + 1; /* skip over initial '/' in path */ 1069 name = in_name_addr(&cp, &addr); 1070 1071 /* 1072 * In S9 and earlier releases, the path_to_inst file 1073 * SunCluster was prepended with "/node@#". This was 1074 * removed in S10. We skip the prefix if the prefix 1075 * still exists in /etc/path_to_inst. It is needed for 1076 * various forms of Solaris upgrade to work properly 1077 * in the SunCluster environment. 1078 */ 1079 if ((cluster_bootflags & CLUSTER_CONFIGURED) && 1080 (strcmp(name, "node") == 0)) 1081 name = in_name_addr(&cp, &addr); 1082 1083 ap = e_ddi_inst_state.ins_root; 1084 np = e_ddi_inst_state.ins_root->in_child; 1085 rp = np; 1086 while (name) { 1087 while (name && np) { 1088 if (in_eqstr(name, np->in_node_name) && 1089 in_eqstr(addr, np->in_unit_addr)) { 1090 name = in_name_addr(&cp, &addr); 1091 if (name == NULL) 1092 return (np); 1093 ap = np; 1094 np = np->in_child; 1095 } else { 1096 np = np->in_sibling; 1097 } 1098 } 1099 np = in_alloc_node(name, addr); 1100 in_enlist(ap, np); /* insert into tree */ 1101 rp = np; /* value to return if we quit */ 1102 ap = np; /* new parent */ 1103 np = NULL; /* can have no children */ 1104 name = in_name_addr(&cp, &addr); 1105 } 1106 1107 return (rp); 1108 } 1109 1110 /* 1111 * Insert node np into the tree as one of ap's children. 1112 */ 1113 static void 1114 in_enlist(in_node_t *ap, in_node_t *np) 1115 { 1116 in_node_t *mp; 1117 ASSERT(e_ddi_inst_state.ins_busy); 1118 /* 1119 * Make this node some other node's child or child's sibling 1120 */ 1121 ASSERT(ap && np); 1122 if (ap->in_child == NULL) { 1123 ap->in_child = np; 1124 } else { 1125 for (mp = ap->in_child; mp; mp = mp->in_sibling) 1126 if (mp->in_sibling == NULL) { 1127 mp->in_sibling = np; 1128 break; 1129 } 1130 } 1131 np->in_parent = ap; 1132 } 1133 1134 /* 1135 * Insert drv entry dp onto a node's driver list 1136 */ 1137 static void 1138 in_endrv(in_node_t *np, in_drv_t *dp) 1139 { 1140 in_drv_t *mp; 1141 ASSERT(e_ddi_inst_state.ins_busy); 1142 ASSERT(np && dp); 1143 mp = np->in_drivers; 1144 np->in_drivers = dp; 1145 dp->ind_next_drv = mp; 1146 dp->ind_node = np; 1147 } 1148 1149 /* 1150 * Parse the next name out of the path, null terminate it and update cp. 1151 * caller has copied string so we can mess with it. 1152 * Upon return *cpp points to the next section to be parsed, *addrp points 1153 * to the current address substring (or NULL if none) and we return the 1154 * current name substring (or NULL if none). name and address substrings 1155 * are null terminated in place. 1156 */ 1157 1158 static char * 1159 in_name_addr(char **cpp, char **addrp) 1160 { 1161 char *namep; /* return value holder */ 1162 char *ap; /* pointer to '@' in string */ 1163 char *sp; /* pointer to '/' in string */ 1164 1165 if (*cpp == NULL || **cpp == '\0') { 1166 *addrp = NULL; 1167 return (NULL); 1168 } 1169 namep = *cpp; 1170 sp = strchr(*cpp, '/'); 1171 if (sp != NULL) { /* more to follow */ 1172 *sp = '\0'; 1173 *cpp = sp + 1; 1174 } else { /* this is last component. */ 1175 *cpp = NULL; 1176 } 1177 ap = strchr(namep, '@'); 1178 if (ap == NULL) { 1179 *addrp = NULL; 1180 } else { 1181 *ap = '\0'; /* terminate the name */ 1182 *addrp = ap + 1; 1183 } 1184 return (namep); 1185 } 1186 1187 /* 1188 * Allocate a node and storage for name and addr strings, and fill them in. 1189 */ 1190 static in_node_t * 1191 in_alloc_node(char *name, char *addr) 1192 { 1193 in_node_t *np; 1194 char *cp; 1195 size_t namelen; 1196 1197 ASSERT(e_ddi_inst_state.ins_busy); 1198 /* 1199 * Has name or will become root 1200 */ 1201 ASSERT(name || e_ddi_inst_state.ins_root == NULL); 1202 if (addr == NULL) 1203 addr = ""; 1204 if (name == NULL) 1205 namelen = 0; 1206 else 1207 namelen = strlen(name) + 1; 1208 cp = kmem_zalloc(sizeof (in_node_t) + namelen + strlen(addr) + 1, 1209 KM_SLEEP); 1210 np = (in_node_t *)cp; 1211 if (name) { 1212 np->in_node_name = cp + sizeof (in_node_t); 1213 (void) strcpy(np->in_node_name, name); 1214 } 1215 np->in_unit_addr = cp + sizeof (in_node_t) + namelen; 1216 (void) strcpy(np->in_unit_addr, addr); 1217 return (np); 1218 } 1219 1220 /* 1221 * Allocate a drv entry and storage for binding name string, and fill it in. 1222 */ 1223 static in_drv_t * 1224 in_alloc_drv(char *bindingname) 1225 { 1226 in_drv_t *dp; 1227 char *cp; 1228 size_t namelen; 1229 1230 ASSERT(e_ddi_inst_state.ins_busy); 1231 /* 1232 * Has name or will become root 1233 */ 1234 ASSERT(bindingname || e_ddi_inst_state.ins_root == NULL); 1235 if (bindingname == NULL) 1236 namelen = 0; 1237 else 1238 namelen = strlen(bindingname) + 1; 1239 cp = kmem_zalloc(sizeof (in_drv_t) + namelen, KM_SLEEP); 1240 dp = (in_drv_t *)cp; 1241 if (bindingname) { 1242 dp->ind_driver_name = cp + sizeof (in_drv_t); 1243 (void) strcpy(dp->ind_driver_name, bindingname); 1244 } 1245 dp->ind_state = IN_UNKNOWN; 1246 dp->ind_instance = -1; 1247 return (dp); 1248 } 1249 1250 static void 1251 in_dealloc_node(in_node_t *np) 1252 { 1253 /* 1254 * The root node can never be de-allocated 1255 */ 1256 ASSERT(np->in_node_name && np->in_unit_addr); 1257 ASSERT(e_ddi_inst_state.ins_busy); 1258 kmem_free(np, sizeof (in_node_t) + strlen(np->in_node_name) 1259 + strlen(np->in_unit_addr) + 2); 1260 } 1261 1262 static void 1263 in_dealloc_drv(in_drv_t *dp) 1264 { 1265 ASSERT(dp->ind_driver_name); 1266 ASSERT(e_ddi_inst_state.ins_busy); 1267 kmem_free(dp, sizeof (in_drv_t) + strlen(dp->ind_driver_name) 1268 + 1); 1269 } 1270 1271 /* 1272 * Handle the various possible versions of "no address" 1273 */ 1274 static int 1275 in_eqstr(char *a, char *b) 1276 { 1277 if (a == b) /* covers case where both are nulls */ 1278 return (1); 1279 if (a == NULL && *b == 0) 1280 return (1); 1281 if (b == NULL && *a == 0) 1282 return (1); 1283 if (a == NULL || b == NULL) 1284 return (0); 1285 return (strcmp(a, b) == 0); 1286 } 1287 1288 /* 1289 * Returns true if instance no. is already in use by named driver 1290 */ 1291 static int 1292 in_inuse(int instance, char *name) 1293 { 1294 major_t major; 1295 in_drv_t *dp; 1296 struct devnames *dnp; 1297 1298 ASSERT(e_ddi_inst_state.ins_busy); 1299 /* 1300 * For now, if we've never heard of this device we assume it is not 1301 * in use, since we can't tell 1302 * XXX could do the weaker search through the nomajor list checking 1303 * XXX for the same name 1304 */ 1305 if ((major = ddi_name_to_major(name)) == DDI_MAJOR_T_NONE) 1306 return (0); 1307 dnp = &devnamesp[major]; 1308 1309 dp = dnp->dn_inlist; 1310 while (dp) { 1311 if (dp->ind_instance == instance) 1312 return (1); 1313 dp = dp->ind_next; 1314 } 1315 return (0); 1316 } 1317 1318 static void 1319 in_hashdrv(in_drv_t *dp) 1320 { 1321 struct devnames *dnp; 1322 in_drv_t *mp, *pp; 1323 major_t major; 1324 1325 /* hash to no major list */ 1326 major = ddi_name_to_major(dp->ind_driver_name); 1327 if (major == DDI_MAJOR_T_NONE) { 1328 dp->ind_next = e_ddi_inst_state.ins_no_major; 1329 e_ddi_inst_state.ins_no_major = dp; 1330 return; 1331 } 1332 1333 /* 1334 * dnp->dn_inlist is sorted by instance number. 1335 * Adding a new instance entry may introduce holes, 1336 * set dn_instance to IN_SEARCHME so the next instance 1337 * assignment may fill in holes. 1338 */ 1339 dnp = &devnamesp[major]; 1340 pp = mp = dnp->dn_inlist; 1341 if (mp == NULL || dp->ind_instance < mp->ind_instance) { 1342 /* prepend as the first entry, turn on IN_SEARCHME */ 1343 dnp->dn_instance = IN_SEARCHME; 1344 dp->ind_next = mp; 1345 dnp->dn_inlist = dp; 1346 return; 1347 } 1348 1349 ASSERT(mp->ind_instance != dp->ind_instance); 1350 while (mp->ind_instance < dp->ind_instance && mp->ind_next) { 1351 pp = mp; 1352 mp = mp->ind_next; 1353 ASSERT(mp->ind_instance != dp->ind_instance); 1354 } 1355 1356 if (mp->ind_instance < dp->ind_instance) { /* end of list */ 1357 dp->ind_next = NULL; 1358 mp->ind_next = dp; 1359 } else { 1360 dp->ind_next = pp->ind_next; 1361 pp->ind_next = dp; 1362 } 1363 } 1364 1365 /* 1366 * Remove a driver entry from the list, given a previous pointer 1367 */ 1368 static void 1369 in_removedrv(struct devnames *dnp, in_drv_t *mp) 1370 { 1371 in_drv_t *dp; 1372 in_drv_t *prevp; 1373 1374 if (dnp->dn_inlist == mp) { /* head of list */ 1375 dnp->dn_inlist = mp->ind_next; 1376 dnp->dn_instance = IN_SEARCHME; 1377 in_dq_drv(mp); 1378 in_dealloc_drv(mp); 1379 return; 1380 } 1381 prevp = dnp->dn_inlist; 1382 for (dp = prevp->ind_next; dp; dp = dp->ind_next) { 1383 if (dp == mp) { /* found it */ 1384 break; 1385 } 1386 prevp = dp; 1387 } 1388 1389 ASSERT(dp == mp); 1390 dnp->dn_instance = IN_SEARCHME; 1391 prevp->ind_next = mp->ind_next; 1392 in_dq_drv(mp); 1393 in_dealloc_drv(mp); 1394 } 1395 1396 static void 1397 in_dq_drv(in_drv_t *mp) 1398 { 1399 struct in_node *node = mp->ind_node; 1400 in_drv_t *ptr, *prev; 1401 1402 if (mp == node->in_drivers) { 1403 node->in_drivers = mp->ind_next_drv; 1404 return; 1405 } 1406 prev = node->in_drivers; 1407 for (ptr = prev->ind_next_drv; ptr != (struct in_drv *)NULL; 1408 ptr = ptr->ind_next_drv) { 1409 if (ptr == mp) { 1410 prev->ind_next_drv = ptr->ind_next_drv; 1411 return; 1412 } 1413 prev = ptr; 1414 } 1415 panic("in_dq_drv: in_drv not found on node driver list"); 1416 } 1417 1418 1419 in_drv_t * 1420 in_drvwalk(in_node_t *np, char *binding_name) 1421 { 1422 char *name; 1423 in_drv_t *dp = np->in_drivers; 1424 while (dp) { 1425 if ((name = i_binding_to_drv_name(dp->ind_driver_name)) 1426 == NULL) { 1427 name = dp->ind_driver_name; 1428 } 1429 if (strcmp(binding_name, name) == 0) { 1430 break; 1431 } 1432 dp = dp->ind_next_drv; 1433 } 1434 return (dp); 1435 } 1436 1437 1438 1439 static void 1440 i_log_devfs_instance_mod(void) 1441 { 1442 sysevent_t *ev; 1443 sysevent_id_t eid; 1444 static int sent_one = 0; 1445 1446 /* 1447 * Prevent unnecessary event generation. Do not generate more than 1448 * one event during boot. 1449 */ 1450 if (sent_one && !i_ddi_io_initialized()) 1451 return; 1452 1453 ev = sysevent_alloc(EC_DEVFS, ESC_DEVFS_INSTANCE_MOD, EP_DDI, 1454 SE_NOSLEEP); 1455 if (ev == NULL) { 1456 return; 1457 } 1458 if (log_sysevent(ev, SE_NOSLEEP, &eid) != 0) { 1459 cmn_err(CE_WARN, "i_log_devfs_instance_mod: failed to post " 1460 "event"); 1461 } else { 1462 sent_one = 1; 1463 } 1464 sysevent_free(ev); 1465 } 1466 1467 void 1468 e_ddi_enter_instance(void) 1469 { 1470 mutex_enter(&e_ddi_inst_state.ins_serial); 1471 if (e_ddi_inst_state.ins_thread == curthread) 1472 e_ddi_inst_state.ins_busy++; 1473 else { 1474 while (e_ddi_inst_state.ins_busy) 1475 cv_wait(&e_ddi_inst_state.ins_serial_cv, 1476 &e_ddi_inst_state.ins_serial); 1477 e_ddi_inst_state.ins_thread = curthread; 1478 e_ddi_inst_state.ins_busy = 1; 1479 } 1480 mutex_exit(&e_ddi_inst_state.ins_serial); 1481 } 1482 1483 void 1484 e_ddi_exit_instance(void) 1485 { 1486 mutex_enter(&e_ddi_inst_state.ins_serial); 1487 e_ddi_inst_state.ins_busy--; 1488 if (e_ddi_inst_state.ins_busy == 0) { 1489 cv_broadcast(&e_ddi_inst_state.ins_serial_cv); 1490 e_ddi_inst_state.ins_thread = NULL; 1491 } 1492 mutex_exit(&e_ddi_inst_state.ins_serial); 1493 } 1494 1495 int 1496 e_ddi_instance_is_clean(void) 1497 { 1498 return (e_ddi_inst_state.ins_dirty == B_FALSE); 1499 } 1500 1501 void 1502 e_ddi_instance_set_clean(void) 1503 { 1504 e_ddi_inst_state.ins_dirty = B_FALSE; 1505 } 1506 1507 in_node_t * 1508 e_ddi_instance_root(void) 1509 { 1510 return (e_ddi_inst_state.ins_root); 1511 } 1512 1513 /* 1514 * Visit a node in the instance tree 1515 */ 1516 static int 1517 in_walk_instances(in_node_t *np, char *path, char *this, 1518 int (*f)(const char *, in_node_t *, in_drv_t *, void *), void *arg) 1519 { 1520 in_drv_t *dp; 1521 int rval = INST_WALK_CONTINUE; 1522 char *next; 1523 1524 while (np != NULL) { 1525 1526 if (np->in_unit_addr[0] == 0) 1527 (void) sprintf(this, "/%s", np->in_node_name); 1528 else 1529 (void) sprintf(this, "/%s@%s", np->in_node_name, 1530 np->in_unit_addr); 1531 next = this + strlen(this); 1532 1533 for (dp = np->in_drivers; dp; dp = dp->ind_next_drv) { 1534 if (dp->ind_state == IN_PERMANENT) { 1535 rval = (*f)(path, np, dp, arg); 1536 if (rval == INST_WALK_TERMINATE) 1537 break; 1538 } 1539 } 1540 1541 if (np->in_child) { 1542 rval = in_walk_instances(np->in_child, 1543 path, next, f, arg); 1544 if (rval == INST_WALK_TERMINATE) 1545 break; 1546 } 1547 1548 np = np->in_sibling; 1549 } 1550 1551 return (rval); 1552 } 1553 1554 /* 1555 * A general interface for walking the instance tree, 1556 * calling a user-supplied callback for each node. 1557 */ 1558 int 1559 e_ddi_walk_instances(int (*f)(const char *, 1560 in_node_t *, in_drv_t *, void *), void *arg) 1561 { 1562 in_node_t *root; 1563 int rval; 1564 char *path; 1565 1566 path = kmem_zalloc(MAXPATHLEN, KM_SLEEP); 1567 1568 e_ddi_enter_instance(); 1569 root = e_ddi_instance_root(); 1570 rval = in_walk_instances(root->in_child, path, path, f, arg); 1571 1572 e_ddi_exit_instance(); 1573 1574 kmem_free(path, MAXPATHLEN); 1575 return (rval); 1576 } 1577 1578 in_node_t * 1579 e_ddi_path_to_instance(char *path) 1580 { 1581 in_node_t *np; 1582 1583 np = in_make_path(path); 1584 if (np && np->in_drivers && np->in_drivers->ind_state == IN_PERMANENT) { 1585 return (np); 1586 } 1587 return (NULL); 1588 } 1589 1590 void 1591 e_ddi_borrow_instance(dev_info_t *cdip, in_node_t *cnp) 1592 { 1593 char *alias; 1594 in_node_t *anp; 1595 char *curr = kmem_alloc(MAXPATHLEN, KM_NOSLEEP); 1596 1597 if (curr == NULL) { 1598 ddi_err(DER_PANIC, cdip, "curr alloc failed"); 1599 /*NOTREACHED*/ 1600 } 1601 1602 (void) ddi_pathname(cdip, curr); 1603 1604 if (cnp->in_drivers) { 1605 /* there can be multiple drivers bound */ 1606 ddi_err(DER_LOG, cdip, "%s has previous binding: %s", curr, 1607 cnp->in_drivers->ind_driver_name); 1608 } 1609 1610 alias = ddi_curr_redirect(curr); 1611 1612 /* bail here if the alias matches any other current path or itself */ 1613 if (alias && ((strcmp(curr, alias) == 0) || 1614 (ddi_curr_redirect(alias) != 0))) { 1615 DDI_MP_DBG((CE_NOTE, "not borrowing current: %s alias: %s", 1616 curr, alias)); 1617 goto out; 1618 } 1619 1620 if (alias && (anp = e_ddi_path_to_instance(alias)) != NULL) { 1621 /* 1622 * Since pcieb nodes can split and merge, it is dangerous 1623 * to borrow and instance for them. However since they do 1624 * not expose their instance numbers it is safe to never 1625 * borrow one. 1626 */ 1627 if (anp->in_drivers->ind_driver_name && 1628 (strcmp(anp->in_drivers->ind_driver_name, "pcieb") == 0)) { 1629 DDI_MP_DBG((CE_NOTE, "not borrowing pcieb: " 1630 "%s alias: %s", curr, alias)); 1631 goto out; 1632 } 1633 DDI_MP_DBG((CE_NOTE, "borrowing current: %s alias: %s", 1634 curr, alias)); 1635 cnp->in_drivers = anp->in_drivers; 1636 anp->in_drivers = NULL; 1637 } 1638 out: 1639 kmem_free(curr, MAXPATHLEN); 1640 } 1641 1642 void 1643 e_ddi_return_instance(dev_info_t *cdip, char *addr, in_node_t *cnp) 1644 { 1645 in_node_t *anp; 1646 char *alias; 1647 char *curr = kmem_alloc(MAXPATHLEN, KM_NOSLEEP); 1648 1649 if (curr == NULL) { 1650 ddi_err(DER_PANIC, cdip, "alloc of curr failed"); 1651 /*NOTREACHED*/ 1652 } 1653 1654 (void) ddi_pathname(cdip, curr); 1655 if (addr) { 1656 (void) strlcat(curr, "@", MAXPATHLEN); 1657 (void) strlcat(curr, addr, MAXPATHLEN); 1658 1659 } 1660 if (cnp->in_drivers == NULL) { 1661 ddi_err(DER_PANIC, cdip, "cnp has no inst: %p", cnp); 1662 /*NOTREACHED*/ 1663 } 1664 1665 alias = ddi_curr_redirect(curr); 1666 kmem_free(curr, MAXPATHLEN); 1667 1668 if (alias && (anp = e_ddi_path_to_instance(alias)) != NULL) { 1669 ASSERT(anp->in_drivers == NULL); 1670 anp->in_drivers = cnp->in_drivers; 1671 cnp->in_drivers = NULL; 1672 } 1673 } 1674