kern_ndis.c revision 151967
1/*- 2 * Copyright (c) 2003 3 * Bill Paul <wpaul@windriver.com>. All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions 7 * are met: 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 3. All advertising materials mentioning features or use of this software 14 * must display the following acknowledgement: 15 * This product includes software developed by Bill Paul. 16 * 4. Neither the name of the author nor the names of any co-contributors 17 * may be used to endorse or promote products derived from this software 18 * without specific prior written permission. 19 * 20 * THIS SOFTWARE IS PROVIDED BY Bill Paul AND CONTRIBUTORS ``AS IS'' AND 21 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 22 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 23 * ARE DISCLAIMED. IN NO EVENT SHALL Bill Paul OR THE VOICES IN HIS HEAD 24 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 25 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 26 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 27 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 28 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 29 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF 30 * THE POSSIBILITY OF SUCH DAMAGE. 31 */ 32 33#include <sys/cdefs.h> 34__FBSDID("$FreeBSD: head/sys/compat/ndis/kern_ndis.c 151967 2005-11-02 13:46:32Z andre $"); 35 36#include <sys/param.h> 37#include <sys/systm.h> 38#include <sys/unistd.h> 39#include <sys/types.h> 40#include <sys/errno.h> 41#include <sys/callout.h> 42#include <sys/socket.h> 43#include <sys/queue.h> 44#include <sys/sysctl.h> 45#include <sys/proc.h> 46#include <sys/malloc.h> 47#include <sys/lock.h> 48#include <sys/mutex.h> 49#include <sys/conf.h> 50 51#include <sys/kernel.h> 52#include <sys/module.h> 53#include <sys/kthread.h> 54#include <machine/bus.h> 55#include <machine/resource.h> 56#include <sys/bus.h> 57#include <sys/rman.h> 58 59#include <net/if.h> 60#include <net/if_arp.h> 61#include <net/ethernet.h> 62#include <net/if_dl.h> 63#include <net/if_media.h> 64 65#include <net80211/ieee80211_var.h> 66#include <net80211/ieee80211_ioctl.h> 67 68#include <compat/ndis/pe_var.h> 69#include <compat/ndis/cfg_var.h> 70#include <compat/ndis/resource_var.h> 71#include <compat/ndis/ntoskrnl_var.h> 72#include <compat/ndis/ndis_var.h> 73#include <compat/ndis/hal_var.h> 74#include <compat/ndis/usbd_var.h> 75#include <dev/if_ndis/if_ndisvar.h> 76 77#define NDIS_DUMMY_PATH "\\\\some\\bogus\\path" 78 79static void ndis_status_func(ndis_handle, ndis_status, void *, uint32_t); 80static void ndis_statusdone_func(ndis_handle); 81static void ndis_setdone_func(ndis_handle, ndis_status); 82static void ndis_getdone_func(ndis_handle, ndis_status); 83static void ndis_resetdone_func(ndis_handle, ndis_status, uint8_t); 84static void ndis_sendrsrcavail_func(ndis_handle); 85static void ndis_intrsetup(kdpc *, device_object *, 86 irp *, struct ndis_softc *); 87static void ndis_return(device_object *, void *); 88 89static image_patch_table kernndis_functbl[] = { 90 IMPORT_SFUNC(ndis_status_func, 4), 91 IMPORT_SFUNC(ndis_statusdone_func, 1), 92 IMPORT_SFUNC(ndis_setdone_func, 2), 93 IMPORT_SFUNC(ndis_getdone_func, 2), 94 IMPORT_SFUNC(ndis_resetdone_func, 3), 95 IMPORT_SFUNC(ndis_sendrsrcavail_func, 1), 96 IMPORT_SFUNC(ndis_intrsetup, 4), 97 IMPORT_SFUNC(ndis_return, 1), 98 99 { NULL, NULL, NULL } 100}; 101 102static struct nd_head ndis_devhead; 103 104/* 105 * This allows us to export our symbols to other modules. 106 * Note that we call ourselves 'ndisapi' to avoid a namespace 107 * collision with if_ndis.ko, which internally calls itself 108 * 'ndis.' 109 * 110 * Note: some of the subsystems depend on each other, so the 111 * order in which they're started is important. The order of 112 * importance is: 113 * 114 * HAL - spinlocks and IRQL manipulation 115 * ntoskrnl - DPC and workitem threads, object waiting 116 * windrv - driver/device registration 117 * 118 * The HAL should also be the last thing shut down, since 119 * the ntoskrnl subsystem will use spinlocks right up until 120 * the DPC and workitem threads are terminated. 121 */ 122 123static int 124ndis_modevent(module_t mod, int cmd, void *arg) 125{ 126 int error = 0; 127 image_patch_table *patch; 128 129 switch (cmd) { 130 case MOD_LOAD: 131 /* Initialize subsystems */ 132 hal_libinit(); 133 ntoskrnl_libinit(); 134 windrv_libinit(); 135 ndis_libinit(); 136 usbd_libinit(); 137 138 patch = kernndis_functbl; 139 while (patch->ipt_func != NULL) { 140 windrv_wrap((funcptr)patch->ipt_func, 141 (funcptr *)&patch->ipt_wrap, 142 patch->ipt_argcnt, patch->ipt_ftype); 143 patch++; 144 } 145 146 TAILQ_INIT(&ndis_devhead); 147 148 break; 149 case MOD_SHUTDOWN: 150 if (TAILQ_FIRST(&ndis_devhead) == NULL) { 151 /* Shut down subsystems */ 152 ndis_libfini(); 153 usbd_libfini(); 154 windrv_libfini(); 155 ntoskrnl_libfini(); 156 hal_libfini(); 157 158 patch = kernndis_functbl; 159 while (patch->ipt_func != NULL) { 160 windrv_unwrap(patch->ipt_wrap); 161 patch++; 162 } 163 } 164 break; 165 case MOD_UNLOAD: 166 /* Shut down subsystems */ 167 ndis_libfini(); 168 usbd_libfini(); 169 windrv_libfini(); 170 ntoskrnl_libfini(); 171 hal_libfini(); 172 173 patch = kernndis_functbl; 174 while (patch->ipt_func != NULL) { 175 windrv_unwrap(patch->ipt_wrap); 176 patch++; 177 } 178 179 break; 180 default: 181 error = EINVAL; 182 break; 183 } 184 185 return(error); 186} 187DEV_MODULE(ndisapi, ndis_modevent, NULL); 188MODULE_VERSION(ndisapi, 1); 189 190static void 191ndis_sendrsrcavail_func(adapter) 192 ndis_handle adapter; 193{ 194 return; 195} 196 197static void 198ndis_status_func(adapter, status, sbuf, slen) 199 ndis_handle adapter; 200 ndis_status status; 201 void *sbuf; 202 uint32_t slen; 203{ 204 ndis_miniport_block *block; 205 struct ndis_softc *sc; 206 struct ifnet *ifp; 207 208 block = adapter; 209 sc = device_get_softc(block->nmb_physdeviceobj->do_devext); 210 ifp = sc->ifp; 211 if (ifp->if_flags & IFF_DEBUG) 212 device_printf (sc->ndis_dev, "status: %x\n", status); 213 return; 214} 215 216static void 217ndis_statusdone_func(adapter) 218 ndis_handle adapter; 219{ 220 ndis_miniport_block *block; 221 struct ndis_softc *sc; 222 struct ifnet *ifp; 223 224 block = adapter; 225 sc = device_get_softc(block->nmb_physdeviceobj->do_devext); 226 ifp = sc->ifp; 227 if (ifp->if_flags & IFF_DEBUG) 228 device_printf (sc->ndis_dev, "status complete\n"); 229 return; 230} 231 232static void 233ndis_setdone_func(adapter, status) 234 ndis_handle adapter; 235 ndis_status status; 236{ 237 ndis_miniport_block *block; 238 block = adapter; 239 240 block->nmb_setstat = status; 241 KeSetEvent(&block->nmb_setevent, IO_NO_INCREMENT, FALSE); 242 return; 243} 244 245static void 246ndis_getdone_func(adapter, status) 247 ndis_handle adapter; 248 ndis_status status; 249{ 250 ndis_miniport_block *block; 251 block = adapter; 252 253 block->nmb_getstat = status; 254 KeSetEvent(&block->nmb_getevent, IO_NO_INCREMENT, FALSE); 255 return; 256} 257 258static void 259ndis_resetdone_func(adapter, status, addressingreset) 260 ndis_handle adapter; 261 ndis_status status; 262 uint8_t addressingreset; 263{ 264 ndis_miniport_block *block; 265 struct ndis_softc *sc; 266 struct ifnet *ifp; 267 268 block = adapter; 269 sc = device_get_softc(block->nmb_physdeviceobj->do_devext); 270 ifp = sc->ifp; 271 272 if (ifp->if_flags & IFF_DEBUG) 273 device_printf (sc->ndis_dev, "reset done...\n"); 274 KeSetEvent(&block->nmb_resetevent, IO_NO_INCREMENT, FALSE); 275 276 return; 277} 278 279int 280ndis_create_sysctls(arg) 281 void *arg; 282{ 283 struct ndis_softc *sc; 284 ndis_cfg *vals; 285 char buf[256]; 286 struct sysctl_oid *oidp; 287 struct sysctl_ctx_entry *e; 288 289 if (arg == NULL) 290 return(EINVAL); 291 292 sc = arg; 293 vals = sc->ndis_regvals; 294 295 TAILQ_INIT(&sc->ndis_cfglist_head); 296 297#if __FreeBSD_version < 502113 298 /* Create the sysctl tree. */ 299 300 sc->ndis_tree = SYSCTL_ADD_NODE(&sc->ndis_ctx, 301 SYSCTL_STATIC_CHILDREN(_hw), OID_AUTO, 302 device_get_nameunit(sc->ndis_dev), CTLFLAG_RD, 0, 303 device_get_desc(sc->ndis_dev)); 304 305#endif 306 /* Add the driver-specific registry keys. */ 307 308 while(1) { 309 if (vals->nc_cfgkey == NULL) 310 break; 311 312 if (vals->nc_idx != sc->ndis_devidx) { 313 vals++; 314 continue; 315 } 316 317 /* See if we already have a sysctl with this name */ 318 319 oidp = NULL; 320#if __FreeBSD_version < 502113 321 TAILQ_FOREACH(e, &sc->ndis_ctx, link) { 322#else 323 TAILQ_FOREACH(e, device_get_sysctl_ctx(sc->ndis_dev), link) { 324#endif 325 oidp = e->entry; 326 if (ndis_strcasecmp(oidp->oid_name, 327 vals->nc_cfgkey) == 0) 328 break; 329 oidp = NULL; 330 } 331 332 if (oidp != NULL) { 333 vals++; 334 continue; 335 } 336 337 ndis_add_sysctl(sc, vals->nc_cfgkey, vals->nc_cfgdesc, 338 vals->nc_val, CTLFLAG_RW); 339 vals++; 340 } 341 342 /* Now add a couple of builtin keys. */ 343 344 /* 345 * Environment can be either Windows (0) or WindowsNT (1). 346 * We qualify as the latter. 347 */ 348 ndis_add_sysctl(sc, "Environment", 349 "Windows environment", "1", CTLFLAG_RD); 350 351 /* NDIS version should be 5.1. */ 352 ndis_add_sysctl(sc, "NdisVersion", 353 "NDIS API Version", "0x00050001", CTLFLAG_RD); 354 355 /* Bus type (PCI, PCMCIA, etc...) */ 356 sprintf(buf, "%d", (int)sc->ndis_iftype); 357 ndis_add_sysctl(sc, "BusType", "Bus Type", buf, CTLFLAG_RD); 358 359 if (sc->ndis_res_io != NULL) { 360 sprintf(buf, "0x%lx", rman_get_start(sc->ndis_res_io)); 361 ndis_add_sysctl(sc, "IOBaseAddress", 362 "Base I/O Address", buf, CTLFLAG_RD); 363 } 364 365 if (sc->ndis_irq != NULL) { 366 sprintf(buf, "%lu", rman_get_start(sc->ndis_irq)); 367 ndis_add_sysctl(sc, "InterruptNumber", 368 "Interrupt Number", buf, CTLFLAG_RD); 369 } 370 371 return(0); 372} 373 374int 375ndis_add_sysctl(arg, key, desc, val, flag) 376 void *arg; 377 char *key; 378 char *desc; 379 char *val; 380 int flag; 381{ 382 struct ndis_softc *sc; 383 struct ndis_cfglist *cfg; 384 char descstr[256]; 385 386 sc = arg; 387 388 cfg = malloc(sizeof(struct ndis_cfglist), M_DEVBUF, M_NOWAIT|M_ZERO); 389 390 if (cfg == NULL) { 391 printf("failed for %s\n", key); 392 return(ENOMEM); 393 } 394 395 cfg->ndis_cfg.nc_cfgkey = strdup(key, M_DEVBUF); 396 if (desc == NULL) { 397 snprintf(descstr, sizeof(descstr), "%s (dynamic)", key); 398 cfg->ndis_cfg.nc_cfgdesc = strdup(descstr, M_DEVBUF); 399 } else 400 cfg->ndis_cfg.nc_cfgdesc = strdup(desc, M_DEVBUF); 401 strcpy(cfg->ndis_cfg.nc_val, val); 402 403 TAILQ_INSERT_TAIL(&sc->ndis_cfglist_head, cfg, link); 404 405 cfg->ndis_oid = 406#if __FreeBSD_version < 502113 407 SYSCTL_ADD_STRING(&sc->ndis_ctx, SYSCTL_CHILDREN(sc->ndis_tree), 408#else 409 SYSCTL_ADD_STRING(device_get_sysctl_ctx(sc->ndis_dev), 410 SYSCTL_CHILDREN(device_get_sysctl_tree(sc->ndis_dev)), 411#endif 412 OID_AUTO, cfg->ndis_cfg.nc_cfgkey, flag, 413 cfg->ndis_cfg.nc_val, sizeof(cfg->ndis_cfg.nc_val), 414 cfg->ndis_cfg.nc_cfgdesc); 415 416 return(0); 417} 418 419/* 420 * Somewhere, somebody decided "hey, let's automatically create 421 * a sysctl tree for each device instance as it's created -- it'll 422 * make life so much easier!" Lies. Why must they turn the kernel 423 * into a house of lies? 424 */ 425 426int 427ndis_flush_sysctls(arg) 428 void *arg; 429{ 430 struct ndis_softc *sc; 431 struct ndis_cfglist *cfg; 432 struct sysctl_ctx_list *clist; 433 434 sc = arg; 435 436#if __FreeBSD_version < 502113 437 clist = &sc->ndis_ctx; 438#else 439 clist = device_get_sysctl_ctx(sc->ndis_dev); 440#endif 441 442 while (!TAILQ_EMPTY(&sc->ndis_cfglist_head)) { 443 cfg = TAILQ_FIRST(&sc->ndis_cfglist_head); 444 TAILQ_REMOVE(&sc->ndis_cfglist_head, cfg, link); 445 sysctl_ctx_entry_del(clist, cfg->ndis_oid); 446 sysctl_remove_oid(cfg->ndis_oid, 1, 0); 447 free(cfg->ndis_cfg.nc_cfgkey, M_DEVBUF); 448 free(cfg->ndis_cfg.nc_cfgdesc, M_DEVBUF); 449 free(cfg, M_DEVBUF); 450 } 451 452 return(0); 453} 454 455static void 456ndis_return(dobj, arg) 457 device_object *dobj; 458 void *arg; 459{ 460 ndis_miniport_block *block; 461 ndis_miniport_characteristics *ch; 462 ndis_return_handler returnfunc; 463 ndis_handle adapter; 464 ndis_packet *p; 465 uint8_t irql; 466 list_entry *l; 467 468 block = arg; 469 ch = IoGetDriverObjectExtension(dobj->do_drvobj, (void *)1); 470 471 p = arg; 472 adapter = block->nmb_miniportadapterctx; 473 474 if (adapter == NULL) 475 return; 476 477 returnfunc = ch->nmc_return_packet_func; 478 479 KeAcquireSpinLock(&block->nmb_returnlock, &irql); 480 while (!IsListEmpty(&block->nmb_returnlist)) { 481 l = RemoveHeadList((&block->nmb_returnlist)); 482 p = CONTAINING_RECORD(l, ndis_packet, np_list); 483 InitializeListHead((&p->np_list)); 484 KeReleaseSpinLock(&block->nmb_returnlock, irql); 485 MSCALL2(returnfunc, adapter, p); 486 KeAcquireSpinLock(&block->nmb_returnlock, &irql); 487 } 488 KeReleaseSpinLock(&block->nmb_returnlock, irql); 489 490 return; 491} 492 493void 494ndis_return_packet(buf, arg) 495 void *buf; /* not used */ 496 void *arg; 497{ 498 ndis_packet *p; 499 ndis_miniport_block *block; 500 501 if (arg == NULL) 502 return; 503 504 p = arg; 505 506 /* Decrement refcount. */ 507 p->np_refcnt--; 508 509 /* Release packet when refcount hits zero, otherwise return. */ 510 if (p->np_refcnt) 511 return; 512 513 block = ((struct ndis_softc *)p->np_softc)->ndis_block; 514 515 KeAcquireSpinLockAtDpcLevel(&block->nmb_returnlock); 516 InitializeListHead((&p->np_list)); 517 InsertHeadList((&block->nmb_returnlist), (&p->np_list)); 518 KeReleaseSpinLockFromDpcLevel(&block->nmb_returnlock); 519 520 IoQueueWorkItem(block->nmb_returnitem, 521 (io_workitem_func)kernndis_functbl[7].ipt_wrap, 522 WORKQUEUE_CRITICAL, block); 523 524 return; 525} 526 527void 528ndis_free_bufs(b0) 529 ndis_buffer *b0; 530{ 531 ndis_buffer *next; 532 533 if (b0 == NULL) 534 return; 535 536 while(b0 != NULL) { 537 next = b0->mdl_next; 538 IoFreeMdl(b0); 539 b0 = next; 540 } 541 542 return; 543} 544int in_reset = 0; 545void 546ndis_free_packet(p) 547 ndis_packet *p; 548{ 549 if (p == NULL) 550 return; 551 552 ndis_free_bufs(p->np_private.npp_head); 553 NdisFreePacket(p); 554 return; 555} 556 557int 558ndis_convert_res(arg) 559 void *arg; 560{ 561 struct ndis_softc *sc; 562 ndis_resource_list *rl = NULL; 563 cm_partial_resource_desc *prd = NULL; 564 ndis_miniport_block *block; 565 device_t dev; 566 struct resource_list *brl; 567 struct resource_list_entry *brle; 568#if __FreeBSD_version < 600022 569 struct resource_list brl_rev; 570 struct resource_list_entry *n; 571#endif 572 int error = 0; 573 574 sc = arg; 575 block = sc->ndis_block; 576 dev = sc->ndis_dev; 577 578#if __FreeBSD_version < 600022 579 SLIST_INIT(&brl_rev); 580#endif 581 582 rl = malloc(sizeof(ndis_resource_list) + 583 (sizeof(cm_partial_resource_desc) * (sc->ndis_rescnt - 1)), 584 M_DEVBUF, M_NOWAIT|M_ZERO); 585 586 if (rl == NULL) 587 return(ENOMEM); 588 589 rl->cprl_version = 5; 590 rl->cprl_version = 1; 591 rl->cprl_count = sc->ndis_rescnt; 592 prd = rl->cprl_partial_descs; 593 594 brl = BUS_GET_RESOURCE_LIST(dev, dev); 595 596 if (brl != NULL) { 597 598#if __FreeBSD_version < 600022 599 /* 600 * We have a small problem. Some PCI devices have 601 * multiple I/O ranges. Windows orders them starting 602 * from lowest numbered BAR to highest. We discover 603 * them in that order too, but insert them into a singly 604 * linked list head first, which means when time comes 605 * to traverse the list, we enumerate them in reverse 606 * order. This screws up some drivers which expect the 607 * BARs to be in ascending order so that they can choose 608 * the "first" one as their register space. Unfortunately, 609 * in order to fix this, we have to create our own 610 * temporary list with the entries in reverse order. 611 */ 612 613 SLIST_FOREACH(brle, brl, link) { 614 n = malloc(sizeof(struct resource_list_entry), 615 M_TEMP, M_NOWAIT); 616 if (n == NULL) { 617 error = ENOMEM; 618 goto bad; 619 } 620 bcopy((char *)brle, (char *)n, 621 sizeof(struct resource_list_entry)); 622 SLIST_INSERT_HEAD(&brl_rev, n, link); 623 } 624 625 SLIST_FOREACH(brle, &brl_rev, link) { 626#else 627 STAILQ_FOREACH(brle, brl, link) { 628#endif 629 switch (brle->type) { 630 case SYS_RES_IOPORT: 631 prd->cprd_type = CmResourceTypePort; 632 prd->cprd_flags = CM_RESOURCE_PORT_IO; 633 prd->cprd_sharedisp = 634 CmResourceShareDeviceExclusive; 635 prd->u.cprd_port.cprd_start.np_quad = 636 brle->start; 637 prd->u.cprd_port.cprd_len = brle->count; 638 break; 639 case SYS_RES_MEMORY: 640 prd->cprd_type = CmResourceTypeMemory; 641 prd->cprd_flags = 642 CM_RESOURCE_MEMORY_READ_WRITE; 643 prd->cprd_sharedisp = 644 CmResourceShareDeviceExclusive; 645 prd->u.cprd_port.cprd_start.np_quad = 646 brle->start; 647 prd->u.cprd_port.cprd_len = brle->count; 648 break; 649 case SYS_RES_IRQ: 650 prd->cprd_type = CmResourceTypeInterrupt; 651 prd->cprd_flags = 0; 652 /* 653 * Always mark interrupt resources as 654 * shared, since in our implementation, 655 * they will be. 656 */ 657 prd->cprd_sharedisp = 658 CmResourceShareShared; 659 prd->u.cprd_intr.cprd_level = brle->start; 660 prd->u.cprd_intr.cprd_vector = brle->start; 661 prd->u.cprd_intr.cprd_affinity = 0; 662 break; 663 default: 664 break; 665 } 666 prd++; 667 } 668 } 669 670 block->nmb_rlist = rl; 671 672#if __FreeBSD_version < 600022 673bad: 674 675 while (!SLIST_EMPTY(&brl_rev)) { 676 n = SLIST_FIRST(&brl_rev); 677 SLIST_REMOVE_HEAD(&brl_rev, link); 678 free (n, M_TEMP); 679 } 680#endif 681 682 return(error); 683} 684 685/* 686 * Map an NDIS packet to an mbuf list. When an NDIS driver receives a 687 * packet, it will hand it to us in the form of an ndis_packet, 688 * which we need to convert to an mbuf that is then handed off 689 * to the stack. Note: we configure the mbuf list so that it uses 690 * the memory regions specified by the ndis_buffer structures in 691 * the ndis_packet as external storage. In most cases, this will 692 * point to a memory region allocated by the driver (either by 693 * ndis_malloc_withtag() or ndis_alloc_sharedmem()). We expect 694 * the driver to handle free()ing this region for is, so we set up 695 * a dummy no-op free handler for it. 696 */ 697 698int 699ndis_ptom(m0, p) 700 struct mbuf **m0; 701 ndis_packet *p; 702{ 703 struct mbuf *m = NULL, *prev = NULL; 704 ndis_buffer *buf; 705 ndis_packet_private *priv; 706 uint32_t totlen = 0; 707 struct ifnet *ifp; 708 struct ether_header *eh; 709 int diff; 710 711 if (p == NULL || m0 == NULL) 712 return(EINVAL); 713 714 priv = &p->np_private; 715 buf = priv->npp_head; 716 p->np_refcnt = 0; 717 718 for (buf = priv->npp_head; buf != NULL; buf = buf->mdl_next) { 719 if (buf == priv->npp_head) 720 MGETHDR(m, M_DONTWAIT, MT_DATA); 721 else 722 MGET(m, M_DONTWAIT, MT_DATA); 723 if (m == NULL) { 724 m_freem(*m0); 725 *m0 = NULL; 726 return(ENOBUFS); 727 } 728 m->m_len = MmGetMdlByteCount(buf); 729 m->m_data = MmGetMdlVirtualAddress(buf); 730 MEXTADD(m, m->m_data, m->m_len, ndis_return_packet, 731 p, 0, EXT_NDIS); 732 p->np_refcnt++; 733 734 totlen += m->m_len; 735 if (m->m_flags & M_PKTHDR) 736 *m0 = m; 737 else 738 prev->m_next = m; 739 prev = m; 740 } 741 742 /* 743 * This is a hack to deal with the Marvell 8335 driver 744 * which, when associated with an AP in WPA-PSK mode, 745 * seems to overpad its frames by 8 bytes. I don't know 746 * that the extra 8 bytes are for, and they're not there 747 * in open mode, so for now clamp the frame size at 1514 748 * until I can figure out how to deal with this properly, 749 * otherwise if_ethersubr() will spank us by discarding 750 * the 'oversize' frames. 751 */ 752 753 eh = mtod((*m0), struct ether_header *); 754 ifp = ((struct ndis_softc *)p->np_softc)->ifp; 755 if (totlen > ETHER_MAX_FRAME(ifp, eh->ether_type, FALSE)) { 756 diff = totlen - ETHER_MAX_FRAME(ifp, eh->ether_type, FALSE); 757 totlen -= diff; 758 m->m_len -= diff; 759 } 760 (*m0)->m_pkthdr.len = totlen; 761 762 return(0); 763} 764 765/* 766 * Create an NDIS packet from an mbuf chain. 767 * This is used mainly when transmitting packets, where we need 768 * to turn an mbuf off an interface's send queue and transform it 769 * into an NDIS packet which will be fed into the NDIS driver's 770 * send routine. 771 * 772 * NDIS packets consist of two parts: an ndis_packet structure, 773 * which is vaguely analagous to the pkthdr portion of an mbuf, 774 * and one or more ndis_buffer structures, which define the 775 * actual memory segments in which the packet data resides. 776 * We need to allocate one ndis_buffer for each mbuf in a chain, 777 * plus one ndis_packet as the header. 778 */ 779 780int 781ndis_mtop(m0, p) 782 struct mbuf *m0; 783 ndis_packet **p; 784{ 785 struct mbuf *m; 786 ndis_buffer *buf = NULL, *prev = NULL; 787 ndis_packet_private *priv; 788 789 if (p == NULL || *p == NULL || m0 == NULL) 790 return(EINVAL); 791 792 priv = &(*p)->np_private; 793 priv->npp_totlen = m0->m_pkthdr.len; 794 795 for (m = m0; m != NULL; m = m->m_next) { 796 if (m->m_len == 0) 797 continue; 798 buf = IoAllocateMdl(m->m_data, m->m_len, FALSE, FALSE, NULL); 799 if (buf == NULL) { 800 ndis_free_packet(*p); 801 *p = NULL; 802 return(ENOMEM); 803 } 804 MmBuildMdlForNonPagedPool(buf); 805 806 if (priv->npp_head == NULL) 807 priv->npp_head = buf; 808 else 809 prev->mdl_next = buf; 810 prev = buf; 811 } 812 813 priv->npp_tail = buf; 814 815 return(0); 816} 817 818int 819ndis_get_supported_oids(arg, oids, oidcnt) 820 void *arg; 821 ndis_oid **oids; 822 int *oidcnt; 823{ 824 int len, rval; 825 ndis_oid *o; 826 827 if (arg == NULL || oids == NULL || oidcnt == NULL) 828 return(EINVAL); 829 len = 0; 830 ndis_get_info(arg, OID_GEN_SUPPORTED_LIST, NULL, &len); 831 832 o = malloc(len, M_DEVBUF, M_NOWAIT); 833 if (o == NULL) 834 return(ENOMEM); 835 836 rval = ndis_get_info(arg, OID_GEN_SUPPORTED_LIST, o, &len); 837 838 if (rval) { 839 free(o, M_DEVBUF); 840 return(rval); 841 } 842 843 *oids = o; 844 *oidcnt = len / 4; 845 846 return(0); 847} 848 849int 850ndis_set_info(arg, oid, buf, buflen) 851 void *arg; 852 ndis_oid oid; 853 void *buf; 854 int *buflen; 855{ 856 struct ndis_softc *sc; 857 ndis_status rval; 858 ndis_handle adapter; 859 ndis_setinfo_handler setfunc; 860 uint32_t byteswritten = 0, bytesneeded = 0; 861 uint8_t irql; 862 uint64_t duetime; 863 864 /* 865 * According to the NDIS spec, MiniportQueryInformation() 866 * and MiniportSetInformation() requests are handled serially: 867 * once one request has been issued, we must wait for it to 868 * finish before allowing another request to proceed. 869 */ 870 871 sc = arg; 872 873 KeAcquireSpinLock(&sc->ndis_block->nmb_lock, &irql); 874 875 if (sc->ndis_block->nmb_pendingreq != NULL) { 876 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 877 panic("ndis_set_info() called while other request pending"); 878 } else 879 sc->ndis_block->nmb_pendingreq = (ndis_request *)sc; 880 881 setfunc = sc->ndis_chars->nmc_setinfo_func; 882 adapter = sc->ndis_block->nmb_miniportadapterctx; 883 884 if (adapter == NULL || setfunc == NULL || 885 sc->ndis_block->nmb_devicectx == NULL) { 886 sc->ndis_block->nmb_pendingreq = NULL; 887 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 888 return(ENXIO); 889 } 890 891 rval = MSCALL6(setfunc, adapter, oid, buf, *buflen, 892 &byteswritten, &bytesneeded); 893 894 sc->ndis_block->nmb_pendingreq = NULL; 895 896 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 897 898 if (rval == NDIS_STATUS_PENDING) { 899 /* Wait up to 5 seconds. */ 900 duetime = (5 * 1000000) * -10; 901 KeResetEvent(&sc->ndis_block->nmb_setevent); 902 KeWaitForSingleObject(&sc->ndis_block->nmb_setevent, 903 0, 0, FALSE, &duetime); 904 rval = sc->ndis_block->nmb_setstat; 905 } 906 907 if (byteswritten) 908 *buflen = byteswritten; 909 if (bytesneeded) 910 *buflen = bytesneeded; 911 912 if (rval == NDIS_STATUS_INVALID_LENGTH) 913 return(ENOSPC); 914 915 if (rval == NDIS_STATUS_INVALID_OID) 916 return(EINVAL); 917 918 if (rval == NDIS_STATUS_NOT_SUPPORTED || 919 rval == NDIS_STATUS_NOT_ACCEPTED) 920 return(ENOTSUP); 921 922 if (rval != NDIS_STATUS_SUCCESS) 923 return(ENODEV); 924 925 return(0); 926} 927 928typedef void (*ndis_senddone_func)(ndis_handle, ndis_packet *, ndis_status); 929 930int 931ndis_send_packets(arg, packets, cnt) 932 void *arg; 933 ndis_packet **packets; 934 int cnt; 935{ 936 struct ndis_softc *sc; 937 ndis_handle adapter; 938 ndis_sendmulti_handler sendfunc; 939 ndis_senddone_func senddonefunc; 940 int i; 941 ndis_packet *p; 942 uint8_t irql; 943 944 sc = arg; 945 adapter = sc->ndis_block->nmb_miniportadapterctx; 946 if (adapter == NULL) 947 return(ENXIO); 948 sendfunc = sc->ndis_chars->nmc_sendmulti_func; 949 senddonefunc = sc->ndis_block->nmb_senddone_func; 950 951 if (NDIS_SERIALIZED(sc->ndis_block)) 952 KeAcquireSpinLock(&sc->ndis_block->nmb_lock, &irql); 953 954 MSCALL3(sendfunc, adapter, packets, cnt); 955 956 for (i = 0; i < cnt; i++) { 957 p = packets[i]; 958 /* 959 * Either the driver already handed the packet to 960 * ndis_txeof() due to a failure, or it wants to keep 961 * it and release it asynchronously later. Skip to the 962 * next one. 963 */ 964 if (p == NULL || p->np_oob.npo_status == NDIS_STATUS_PENDING) 965 continue; 966 MSCALL3(senddonefunc, sc->ndis_block, p, p->np_oob.npo_status); 967 } 968 969 if (NDIS_SERIALIZED(sc->ndis_block)) 970 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 971 972 return(0); 973} 974 975int 976ndis_send_packet(arg, packet) 977 void *arg; 978 ndis_packet *packet; 979{ 980 struct ndis_softc *sc; 981 ndis_handle adapter; 982 ndis_status status; 983 ndis_sendsingle_handler sendfunc; 984 ndis_senddone_func senddonefunc; 985 uint8_t irql; 986 987 sc = arg; 988 adapter = sc->ndis_block->nmb_miniportadapterctx; 989 if (adapter == NULL) 990 return(ENXIO); 991 sendfunc = sc->ndis_chars->nmc_sendsingle_func; 992 senddonefunc = sc->ndis_block->nmb_senddone_func; 993 994 if (NDIS_SERIALIZED(sc->ndis_block)) 995 KeAcquireSpinLock(&sc->ndis_block->nmb_lock, &irql); 996 status = MSCALL3(sendfunc, adapter, packet, 997 packet->np_private.npp_flags); 998 999 if (status == NDIS_STATUS_PENDING) { 1000 if (NDIS_SERIALIZED(sc->ndis_block)) 1001 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 1002 return(0); 1003 } 1004 1005 MSCALL3(senddonefunc, sc->ndis_block, packet, status); 1006 1007 if (NDIS_SERIALIZED(sc->ndis_block)) 1008 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 1009 1010 return(0); 1011} 1012 1013int 1014ndis_init_dma(arg) 1015 void *arg; 1016{ 1017 struct ndis_softc *sc; 1018 int i, error; 1019 1020 sc = arg; 1021 1022 sc->ndis_tmaps = malloc(sizeof(bus_dmamap_t) * sc->ndis_maxpkts, 1023 M_DEVBUF, M_NOWAIT|M_ZERO); 1024 1025 if (sc->ndis_tmaps == NULL) 1026 return(ENOMEM); 1027 1028 for (i = 0; i < sc->ndis_maxpkts; i++) { 1029 error = bus_dmamap_create(sc->ndis_ttag, 0, 1030 &sc->ndis_tmaps[i]); 1031 if (error) { 1032 free(sc->ndis_tmaps, M_DEVBUF); 1033 return(ENODEV); 1034 } 1035 } 1036 1037 return(0); 1038} 1039 1040int 1041ndis_destroy_dma(arg) 1042 void *arg; 1043{ 1044 struct ndis_softc *sc; 1045 struct mbuf *m; 1046 ndis_packet *p = NULL; 1047 int i; 1048 1049 sc = arg; 1050 1051 for (i = 0; i < sc->ndis_maxpkts; i++) { 1052 if (sc->ndis_txarray[i] != NULL) { 1053 p = sc->ndis_txarray[i]; 1054 m = (struct mbuf *)p->np_rsvd[1]; 1055 if (m != NULL) 1056 m_freem(m); 1057 ndis_free_packet(sc->ndis_txarray[i]); 1058 } 1059 bus_dmamap_destroy(sc->ndis_ttag, sc->ndis_tmaps[i]); 1060 } 1061 1062 free(sc->ndis_tmaps, M_DEVBUF); 1063 1064 bus_dma_tag_destroy(sc->ndis_ttag); 1065 1066 return(0); 1067} 1068 1069int 1070ndis_reset_nic(arg) 1071 void *arg; 1072{ 1073 struct ndis_softc *sc; 1074 ndis_handle adapter; 1075 ndis_reset_handler resetfunc; 1076 uint8_t addressing_reset; 1077 int rval; 1078 uint8_t irql; 1079 1080 sc = arg; 1081 1082 NDIS_LOCK(sc); 1083 adapter = sc->ndis_block->nmb_miniportadapterctx; 1084 resetfunc = sc->ndis_chars->nmc_reset_func; 1085 1086 if (adapter == NULL || resetfunc == NULL || 1087 sc->ndis_block->nmb_devicectx == NULL) { 1088 NDIS_UNLOCK(sc); 1089 return(EIO); 1090 } 1091 1092 NDIS_UNLOCK(sc); 1093 1094 if (NDIS_SERIALIZED(sc->ndis_block)) 1095 KeAcquireSpinLock(&sc->ndis_block->nmb_lock, &irql); 1096 1097 rval = MSCALL2(resetfunc, &addressing_reset, adapter); 1098 1099 if (NDIS_SERIALIZED(sc->ndis_block)) 1100 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 1101 1102 if (rval == NDIS_STATUS_PENDING) { 1103 KeResetEvent(&sc->ndis_block->nmb_resetevent); 1104 KeWaitForSingleObject(&sc->ndis_block->nmb_resetevent, 1105 0, 0, FALSE, NULL); 1106 } 1107 1108 return(0); 1109} 1110 1111int 1112ndis_halt_nic(arg) 1113 void *arg; 1114{ 1115 struct ndis_softc *sc; 1116 ndis_handle adapter; 1117 ndis_halt_handler haltfunc; 1118 ndis_miniport_block *block; 1119 int empty = 0; 1120 uint8_t irql; 1121 1122 sc = arg; 1123 block = sc->ndis_block; 1124 1125 if (!cold) 1126 KeFlushQueuedDpcs(); 1127 1128 /* 1129 * Wait for all packets to be returned. 1130 */ 1131 1132 while (1) { 1133 KeAcquireSpinLock(&block->nmb_returnlock, &irql); 1134 empty = IsListEmpty(&block->nmb_returnlist); 1135 KeReleaseSpinLock(&block->nmb_returnlock, irql); 1136 if (empty) 1137 break; 1138 NdisMSleep(1000); 1139 } 1140 1141 NDIS_LOCK(sc); 1142 adapter = sc->ndis_block->nmb_miniportadapterctx; 1143 if (adapter == NULL) { 1144 NDIS_UNLOCK(sc); 1145 return(EIO); 1146 } 1147 1148 sc->ndis_block->nmb_devicectx = NULL; 1149 1150 /* 1151 * The adapter context is only valid after the init 1152 * handler has been called, and is invalid once the 1153 * halt handler has been called. 1154 */ 1155 1156 haltfunc = sc->ndis_chars->nmc_halt_func; 1157 NDIS_UNLOCK(sc); 1158 1159 MSCALL1(haltfunc, adapter); 1160 1161 NDIS_LOCK(sc); 1162 sc->ndis_block->nmb_miniportadapterctx = NULL; 1163 NDIS_UNLOCK(sc); 1164 1165 return(0); 1166} 1167 1168int 1169ndis_shutdown_nic(arg) 1170 void *arg; 1171{ 1172 struct ndis_softc *sc; 1173 ndis_handle adapter; 1174 ndis_shutdown_handler shutdownfunc; 1175 1176 sc = arg; 1177 NDIS_LOCK(sc); 1178 adapter = sc->ndis_block->nmb_miniportadapterctx; 1179 shutdownfunc = sc->ndis_chars->nmc_shutdown_handler; 1180 NDIS_UNLOCK(sc); 1181 if (adapter == NULL || shutdownfunc == NULL) 1182 return(EIO); 1183 1184 if (sc->ndis_chars->nmc_rsvd0 == NULL) 1185 MSCALL1(shutdownfunc, adapter); 1186 else 1187 MSCALL1(shutdownfunc, sc->ndis_chars->nmc_rsvd0); 1188 1189 TAILQ_REMOVE(&ndis_devhead, sc->ndis_block, link); 1190 1191 return(0); 1192} 1193 1194int 1195ndis_init_nic(arg) 1196 void *arg; 1197{ 1198 struct ndis_softc *sc; 1199 ndis_miniport_block *block; 1200 ndis_init_handler initfunc; 1201 ndis_status status, openstatus = 0; 1202 ndis_medium mediumarray[NdisMediumMax]; 1203 uint32_t chosenmedium, i; 1204 1205 if (arg == NULL) 1206 return(EINVAL); 1207 1208 sc = arg; 1209 NDIS_LOCK(sc); 1210 block = sc->ndis_block; 1211 initfunc = sc->ndis_chars->nmc_init_func; 1212 NDIS_UNLOCK(sc); 1213 1214 sc->ndis_block->nmb_timerlist = NULL; 1215 1216 for (i = 0; i < NdisMediumMax; i++) 1217 mediumarray[i] = i; 1218 1219 status = MSCALL6(initfunc, &openstatus, &chosenmedium, 1220 mediumarray, NdisMediumMax, block, block); 1221 1222 /* 1223 * If the init fails, blow away the other exported routines 1224 * we obtained from the driver so we can't call them later. 1225 * If the init failed, none of these will work. 1226 */ 1227 if (status != NDIS_STATUS_SUCCESS) { 1228 NDIS_LOCK(sc); 1229 sc->ndis_block->nmb_miniportadapterctx = NULL; 1230 NDIS_UNLOCK(sc); 1231 return(ENXIO); 1232 } 1233 1234 /* 1235 * This may look really goofy, but apparently it is possible 1236 * to halt a miniport too soon after it's been initialized. 1237 * After MiniportInitialize() finishes, pause for 1 second 1238 * to give the chip a chance to handle any short-lived timers 1239 * that were set in motion. If we call MiniportHalt() too soon, 1240 * some of the timers may not be cancelled, because the driver 1241 * expects them to fire before the halt is called. 1242 */ 1243 1244 tsleep(curthread->td_proc, PWAIT, "ndwait", hz); 1245 1246 NDIS_LOCK(sc); 1247 sc->ndis_block->nmb_devicectx = sc; 1248 NDIS_UNLOCK(sc); 1249 1250 return(0); 1251} 1252 1253void 1254ndis_enable_intr(arg) 1255 void *arg; 1256{ 1257 struct ndis_softc *sc; 1258 ndis_handle adapter; 1259 ndis_enable_interrupts_handler intrenbfunc; 1260 1261 sc = arg; 1262 adapter = sc->ndis_block->nmb_miniportadapterctx; 1263 intrenbfunc = sc->ndis_chars->nmc_enable_interrupts_func; 1264 if (adapter == NULL || intrenbfunc == NULL) 1265 return; 1266 MSCALL1(intrenbfunc, adapter); 1267 1268 return; 1269} 1270 1271void 1272ndis_disable_intr(arg) 1273 void *arg; 1274{ 1275 struct ndis_softc *sc; 1276 ndis_handle adapter; 1277 ndis_disable_interrupts_handler intrdisfunc; 1278 1279 sc = arg; 1280 adapter = sc->ndis_block->nmb_miniportadapterctx; 1281 intrdisfunc = sc->ndis_chars->nmc_disable_interrupts_func; 1282 if (adapter == NULL || intrdisfunc == NULL) 1283 return; 1284 1285 MSCALL1(intrdisfunc, adapter); 1286 1287 return; 1288} 1289 1290int 1291ndis_isr(arg, ourintr, callhandler) 1292 void *arg; 1293 int *ourintr; 1294 int *callhandler; 1295{ 1296 struct ndis_softc *sc; 1297 ndis_handle adapter; 1298 ndis_isr_handler isrfunc; 1299 uint8_t accepted, queue; 1300 1301 if (arg == NULL || ourintr == NULL || callhandler == NULL) 1302 return(EINVAL); 1303 1304 sc = arg; 1305 adapter = sc->ndis_block->nmb_miniportadapterctx; 1306 isrfunc = sc->ndis_chars->nmc_isr_func; 1307 1308 if (adapter == NULL || isrfunc == NULL) 1309 return(ENXIO); 1310 1311 MSCALL3(isrfunc, &accepted, &queue, adapter); 1312 1313 *ourintr = accepted; 1314 *callhandler = queue; 1315 1316 return(0); 1317} 1318 1319static void 1320ndis_intrsetup(dpc, dobj, ip, sc) 1321 kdpc *dpc; 1322 device_object *dobj; 1323 irp *ip; 1324 struct ndis_softc *sc; 1325{ 1326 ndis_miniport_interrupt *intr; 1327 1328 intr = sc->ndis_block->nmb_interrupt; 1329 1330 /* Sanity check. */ 1331 1332 if (intr == NULL) 1333 return; 1334 1335 KeAcquireSpinLockAtDpcLevel(&intr->ni_dpccountlock); 1336 KeResetEvent(&intr->ni_dpcevt); 1337 if (KeInsertQueueDpc(&intr->ni_dpc, NULL, NULL) == TRUE) 1338 intr->ni_dpccnt++; 1339 KeReleaseSpinLockFromDpcLevel(&intr->ni_dpccountlock); 1340 1341 return; 1342} 1343 1344int 1345ndis_get_info(arg, oid, buf, buflen) 1346 void *arg; 1347 ndis_oid oid; 1348 void *buf; 1349 int *buflen; 1350{ 1351 struct ndis_softc *sc; 1352 ndis_status rval; 1353 ndis_handle adapter; 1354 ndis_queryinfo_handler queryfunc; 1355 uint32_t byteswritten = 0, bytesneeded = 0; 1356 uint8_t irql; 1357 uint64_t duetime; 1358 1359 sc = arg; 1360 1361 KeAcquireSpinLock(&sc->ndis_block->nmb_lock, &irql); 1362 1363 if (sc->ndis_block->nmb_pendingreq != NULL) { 1364 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 1365 panic("ndis_get_info() called while other request pending"); 1366 } else 1367 sc->ndis_block->nmb_pendingreq = (ndis_request *)sc; 1368 1369 queryfunc = sc->ndis_chars->nmc_queryinfo_func; 1370 adapter = sc->ndis_block->nmb_miniportadapterctx; 1371 1372 if (adapter == NULL || queryfunc == NULL || 1373 sc->ndis_block->nmb_devicectx == NULL) { 1374 sc->ndis_block->nmb_pendingreq = NULL; 1375 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 1376 return(ENXIO); 1377 } 1378 1379 rval = MSCALL6(queryfunc, adapter, oid, buf, *buflen, 1380 &byteswritten, &bytesneeded); 1381 1382 sc->ndis_block->nmb_pendingreq = NULL; 1383 1384 KeReleaseSpinLock(&sc->ndis_block->nmb_lock, irql); 1385 1386 /* Wait for requests that block. */ 1387 1388 if (rval == NDIS_STATUS_PENDING) { 1389 /* Wait up to 5 seconds. */ 1390 duetime = (5 * 1000000) * -10; 1391 KeResetEvent(&sc->ndis_block->nmb_getevent); 1392 KeWaitForSingleObject(&sc->ndis_block->nmb_getevent, 1393 0, 0, FALSE, &duetime); 1394 rval = sc->ndis_block->nmb_getstat; 1395 } 1396 1397 if (byteswritten) 1398 *buflen = byteswritten; 1399 if (bytesneeded) 1400 *buflen = bytesneeded; 1401 1402 if (rval == NDIS_STATUS_INVALID_LENGTH || 1403 rval == NDIS_STATUS_BUFFER_TOO_SHORT) 1404 return(ENOSPC); 1405 1406 if (rval == NDIS_STATUS_INVALID_OID) 1407 return(EINVAL); 1408 1409 if (rval == NDIS_STATUS_NOT_SUPPORTED || 1410 rval == NDIS_STATUS_NOT_ACCEPTED) 1411 return(ENOTSUP); 1412 1413 if (rval != NDIS_STATUS_SUCCESS) 1414 return(ENODEV); 1415 1416 return(0); 1417} 1418 1419uint32_t 1420NdisAddDevice(drv, pdo) 1421 driver_object *drv; 1422 device_object *pdo; 1423{ 1424 device_object *fdo; 1425 ndis_miniport_block *block; 1426 struct ndis_softc *sc; 1427 uint32_t status; 1428 int error; 1429 1430 sc = device_get_softc(pdo->do_devext); 1431 1432 if (sc->ndis_iftype == PCMCIABus || sc->ndis_iftype == PCIBus) { 1433 error = bus_setup_intr(sc->ndis_dev, sc->ndis_irq, 1434 INTR_TYPE_NET | INTR_MPSAFE, 1435 ntoskrnl_intr, NULL, &sc->ndis_intrhand); 1436 if (error) 1437 return(NDIS_STATUS_FAILURE); 1438 } 1439 1440 status = IoCreateDevice(drv, sizeof(ndis_miniport_block), NULL, 1441 FILE_DEVICE_UNKNOWN, 0, FALSE, &fdo); 1442 1443 if (status != STATUS_SUCCESS) 1444 return(status); 1445 1446 block = fdo->do_devext; 1447 1448 block->nmb_filterdbs.nf_ethdb = block; 1449 block->nmb_deviceobj = fdo; 1450 block->nmb_physdeviceobj = pdo; 1451 block->nmb_nextdeviceobj = IoAttachDeviceToDeviceStack(fdo, pdo); 1452 KeInitializeSpinLock(&block->nmb_lock); 1453 KeInitializeSpinLock(&block->nmb_returnlock); 1454 KeInitializeEvent(&block->nmb_getevent, EVENT_TYPE_NOTIFY, TRUE); 1455 KeInitializeEvent(&block->nmb_setevent, EVENT_TYPE_NOTIFY, TRUE); 1456 KeInitializeEvent(&block->nmb_resetevent, EVENT_TYPE_NOTIFY, TRUE); 1457 InitializeListHead(&block->nmb_parmlist); 1458 InitializeListHead(&block->nmb_returnlist); 1459 block->nmb_returnitem = IoAllocateWorkItem(fdo); 1460 1461 /* 1462 * Stash pointers to the miniport block and miniport 1463 * characteristics info in the if_ndis softc so the 1464 * UNIX wrapper driver can get to them later. 1465 */ 1466 sc->ndis_block = block; 1467 sc->ndis_chars = IoGetDriverObjectExtension(drv, (void *)1); 1468 1469 /* 1470 * If the driver has a MiniportTransferData() function, 1471 * we should allocate a private RX packet pool. 1472 */ 1473 1474 if (sc->ndis_chars->nmc_transferdata_func != NULL) { 1475 NdisAllocatePacketPool(&status, &block->nmb_rxpool, 1476 32, PROTOCOL_RESERVED_SIZE_IN_PACKET); 1477 if (status != NDIS_STATUS_SUCCESS) { 1478 IoDetachDevice(block->nmb_nextdeviceobj); 1479 IoDeleteDevice(fdo); 1480 return(status); 1481 } 1482 InitializeListHead((&block->nmb_packetlist)); 1483 } 1484 1485 /* Give interrupt handling priority over timers. */ 1486 IoInitializeDpcRequest(fdo, kernndis_functbl[6].ipt_wrap); 1487 KeSetImportanceDpc(&fdo->do_dpc, KDPC_IMPORTANCE_HIGH); 1488 1489 /* Finish up BSD-specific setup. */ 1490 1491 block->nmb_signature = (void *)0xcafebabe; 1492 block->nmb_status_func = kernndis_functbl[0].ipt_wrap; 1493 block->nmb_statusdone_func = kernndis_functbl[1].ipt_wrap; 1494 block->nmb_setdone_func = kernndis_functbl[2].ipt_wrap; 1495 block->nmb_querydone_func = kernndis_functbl[3].ipt_wrap; 1496 block->nmb_resetdone_func = kernndis_functbl[4].ipt_wrap; 1497 block->nmb_sendrsrc_func = kernndis_functbl[5].ipt_wrap; 1498 block->nmb_pendingreq = NULL; 1499 1500 TAILQ_INSERT_TAIL(&ndis_devhead, block, link); 1501 1502 return (STATUS_SUCCESS); 1503} 1504 1505int 1506ndis_unload_driver(arg) 1507 void *arg; 1508{ 1509 struct ndis_softc *sc; 1510 device_object *fdo; 1511 1512 sc = arg; 1513 1514 if (sc->ndis_intrhand) 1515 bus_teardown_intr(sc->ndis_dev, 1516 sc->ndis_irq, sc->ndis_intrhand); 1517 1518 if (sc->ndis_block->nmb_rlist != NULL) 1519 free(sc->ndis_block->nmb_rlist, M_DEVBUF); 1520 1521 ndis_flush_sysctls(sc); 1522 1523 TAILQ_REMOVE(&ndis_devhead, sc->ndis_block, link); 1524 1525 if (sc->ndis_chars->nmc_transferdata_func != NULL) 1526 NdisFreePacketPool(sc->ndis_block->nmb_rxpool); 1527 fdo = sc->ndis_block->nmb_deviceobj; 1528 IoFreeWorkItem(sc->ndis_block->nmb_returnitem); 1529 IoDetachDevice(sc->ndis_block->nmb_nextdeviceobj); 1530 IoDeleteDevice(fdo); 1531 1532 return(0); 1533} 1534