1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License (the "License"). 6 * You may not use this file except in compliance with the License. 7 * 8 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 * or http://www.opensolaris.org/os/licensing. 10 * See the License for the specific language governing permissions 11 * and limitations under the License. 12 * 13 * When distributing Covered Code, include this CDDL HEADER in each 14 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 * If applicable, add the following below this CDDL HEADER, with the 16 * fields enclosed by brackets "[]" replaced with your own identifying 17 * information: Portions Copyright [yyyy] [name of copyright owner] 18 * 19 * CDDL HEADER END 20 */ 21 22 /* 23 * Copyright 2008 Sun Microsystems, Inc. All rights reserved. 24 * Use is subject to license terms. 25 */ 26 27 #include "nge.h" 28 29 #define TXD_OWN 0x80000000 30 #define TXD_ERR 0x40000000 31 #define TXD_END 0x20000000 32 #define TXD_BCNT_MSK 0x00003FFF 33 34 35 #undef NGE_DBG 36 #define NGE_DBG NGE_DBG_SEND 37 38 #define NGE_TXSWD_RECYCLE(sd) {\ 39 (sd)->mp = NULL; \ 40 (sd)->frags = 0; \ 41 (sd)->mp_hndl.head = NULL; \ 42 (sd)->mp_hndl.tail = NULL; \ 43 (sd)->flags = HOST_OWN; \ 44 } 45 46 47 static size_t nge_tx_dmah_pop(nge_dmah_list_t *, nge_dmah_list_t *, size_t); 48 static void nge_tx_dmah_push(nge_dmah_list_t *, nge_dmah_list_t *); 49 50 51 void nge_tx_recycle_all(nge_t *ngep); 52 #pragma no_inline(nge_tx_recycle_all) 53 54 void 55 nge_tx_recycle_all(nge_t *ngep) 56 { 57 send_ring_t *srp; 58 sw_tx_sbd_t *ssbdp; 59 nge_dmah_node_t *dmah; 60 uint32_t slot; 61 uint32_t nslots; 62 63 srp = ngep->send; 64 nslots = srp->desc.nslots; 65 66 for (slot = 0; slot < nslots; ++slot) { 67 68 ssbdp = srp->sw_sbds + slot; 69 70 DMA_ZERO(ssbdp->desc); 71 72 if (ssbdp->mp != NULL) { 73 74 for (dmah = ssbdp->mp_hndl.head; dmah != NULL; 75 dmah = dmah->next) 76 (void) ddi_dma_unbind_handle(dmah->hndl); 77 78 freemsg(ssbdp->mp); 79 } 80 81 NGE_TXSWD_RECYCLE(ssbdp); 82 } 83 } 84 85 static size_t 86 nge_tx_dmah_pop(nge_dmah_list_t *src, nge_dmah_list_t *dst, size_t num) 87 { 88 nge_dmah_node_t *node; 89 90 for (node = src->head; node != NULL && --num != 0; node = node->next) 91 ; 92 93 if (num == 0) { 94 95 dst->head = src->head; 96 dst->tail = node; 97 98 if ((src->head = node->next) == NULL) 99 src->tail = NULL; 100 101 node->next = NULL; 102 } 103 104 return (num); 105 } 106 107 static void 108 nge_tx_dmah_push(nge_dmah_list_t *src, nge_dmah_list_t *dst) 109 { 110 if (dst->tail != NULL) 111 dst->tail->next = src->head; 112 else 113 dst->head = src->head; 114 115 dst->tail = src->tail; 116 } 117 118 static void 119 nge_tx_desc_sync(nge_t *ngep, uint32_t start_index, uint32_t bds, uint_t type) 120 { 121 send_ring_t *srp = ngep->send; 122 const size_t txd_size = ngep->desc_attr.txd_size; 123 const uint64_t end = srp->desc.nslots * txd_size; 124 uint64_t start; 125 uint64_t num; 126 127 start = start_index * txd_size; 128 num = bds * txd_size; 129 130 if (start + num <= end) 131 (void) ddi_dma_sync(srp->desc.dma_hdl, start, num, type); 132 else { 133 134 (void) ddi_dma_sync(srp->desc.dma_hdl, start, 0, type); 135 (void) ddi_dma_sync(srp->desc.dma_hdl, 0, start + num - end, 136 type); 137 } 138 } 139 140 /* 141 * Reclaim the resource after tx's completion 142 */ 143 void 144 nge_tx_recycle(nge_t *ngep, boolean_t is_intr) 145 { 146 int resched; 147 uint32_t stflg; 148 size_t len; 149 uint32_t free; 150 uint32_t slot; 151 uint32_t used; 152 uint32_t next; 153 uint32_t nslots; 154 mblk_t *mp; 155 sw_tx_sbd_t *ssbdp; 156 void *hw_sbd_p; 157 send_ring_t *srp; 158 nge_dmah_node_t *dme; 159 nge_dmah_list_t dmah; 160 161 srp = ngep->send; 162 163 if (is_intr) { 164 if (mutex_tryenter(srp->tc_lock) == 0) 165 return; 166 } else 167 mutex_enter(srp->tc_lock); 168 mutex_enter(srp->tx_lock); 169 170 next = srp->tx_next; 171 used = srp->tx_flow; 172 free = srp->tx_free; 173 174 mutex_exit(srp->tx_lock); 175 176 slot = srp->tc_next; 177 nslots = srp->desc.nslots; 178 179 used = nslots - free - used; 180 181 ASSERT(slot == NEXT_INDEX(next, free, nslots)); 182 183 if (used > srp->tx_hwmark) 184 used = srp->tx_hwmark; 185 186 nge_tx_desc_sync(ngep, slot, used, DDI_DMA_SYNC_FORKERNEL); 187 188 /* 189 * Look through the send ring by bd's status part 190 * to find all the bds which has been transmitted sucessfully 191 * then reclaim all resouces associated with these bds 192 */ 193 194 mp = NULL; 195 dmah.head = NULL; 196 dmah.tail = NULL; 197 198 for (free = 0; used-- != 0; slot = NEXT(slot, nslots), ++free) { 199 200 ssbdp = &srp->sw_sbds[slot]; 201 hw_sbd_p = DMA_VPTR(ssbdp->desc); 202 203 if (ssbdp->flags == HOST_OWN) 204 break; 205 stflg = ngep->desc_attr.txd_check(hw_sbd_p, &len); 206 if ((stflg & TXD_OWN) != 0) 207 break; 208 if (ssbdp->mp != NULL) { 209 ssbdp->mp->b_next = mp; 210 mp = ssbdp->mp; 211 212 if (ssbdp->mp_hndl.head != NULL) 213 nge_tx_dmah_push(&ssbdp->mp_hndl, &dmah); 214 } 215 216 NGE_TXSWD_RECYCLE(ssbdp); 217 } 218 219 /* 220 * We're about to release one or more places :-) 221 * These ASSERTions check that our invariants still hold: 222 * there must always be at least one free place 223 * at this point, there must be at least one place NOT free 224 * we're not about to free more places than were claimed! 225 */ 226 227 mutex_enter(srp->tx_lock); 228 229 srp->tx_free += free; 230 ngep->watchdog = (srp->desc.nslots - srp->tx_free != 0); 231 232 srp->tc_next = slot; 233 234 ASSERT(srp->tx_free <= nslots); 235 ASSERT(srp->tc_next == NEXT_INDEX(srp->tx_next, srp->tx_free, nslots)); 236 237 resched = (ngep->resched_needed != 0 && srp->tx_hwmark <= srp->tx_free); 238 239 mutex_exit(srp->tx_lock); 240 mutex_exit(srp->tc_lock); 241 242 /* unbind/free mblks */ 243 244 for (dme = dmah.head; dme != NULL; dme = dme->next) 245 (void) ddi_dma_unbind_handle(dme->hndl); 246 247 mutex_enter(&srp->dmah_lock); 248 nge_tx_dmah_push(&dmah, &srp->dmah_free); 249 mutex_exit(&srp->dmah_lock); 250 251 freemsgchain(mp); 252 253 /* 254 * up to this place, we maybe have reclaim some resouce 255 * if there is a requirement to report to gld, report this. 256 */ 257 258 if (resched) 259 (void) ddi_intr_trigger_softint(ngep->resched_hdl, NULL); 260 } 261 262 static uint32_t 263 nge_tx_alloc(nge_t *ngep, uint32_t num) 264 { 265 uint32_t start; 266 send_ring_t *srp; 267 268 start = (uint32_t)-1; 269 srp = ngep->send; 270 271 mutex_enter(srp->tx_lock); 272 273 if (srp->tx_free < srp->tx_lwmark) { 274 275 mutex_exit(srp->tx_lock); 276 nge_tx_recycle(ngep, B_FALSE); 277 mutex_enter(srp->tx_lock); 278 } 279 280 if (srp->tx_free >= num) { 281 282 start = srp->tx_next; 283 284 srp->tx_next = NEXT_INDEX(start, num, srp->desc.nslots); 285 srp->tx_free -= num; 286 srp->tx_flow += num; 287 } 288 289 mutex_exit(srp->tx_lock); 290 return (start); 291 } 292 293 static void 294 nge_tx_start(nge_t *ngep, uint32_t slotnum) 295 { 296 nge_mode_cntl mode_cntl; 297 send_ring_t *srp; 298 299 srp = ngep->send; 300 301 /* 302 * Because there can be multiple concurrent threads in 303 * transit through this code, we only want to notify the 304 * hardware once the last one is departing ... 305 */ 306 307 mutex_enter(srp->tx_lock); 308 309 srp->tx_flow -= slotnum; 310 if (srp->tx_flow == 0) { 311 312 /* 313 * Bump the watchdog counter, thus guaranteeing that it's 314 * nonzero (watchdog activated). Note that non-synchonised 315 * access here means we may race with the reclaim() code 316 * above, but the outcome will be harmless. At worst, the 317 * counter may not get reset on a partial reclaim; but the 318 * large trigger threshold makes false positives unlikely 319 */ 320 ngep->watchdog ++; 321 322 mode_cntl.mode_val = nge_reg_get32(ngep, NGE_MODE_CNTL); 323 mode_cntl.mode_bits.txdm = NGE_SET; 324 mode_cntl.mode_bits.tx_rcom_en = NGE_SET; 325 nge_reg_put32(ngep, NGE_MODE_CNTL, mode_cntl.mode_val); 326 } 327 mutex_exit(srp->tx_lock); 328 } 329 330 static enum send_status 331 nge_send_copy(nge_t *ngep, mblk_t *mp, send_ring_t *srp); 332 #pragma inline(nge_send_copy) 333 334 static enum send_status 335 nge_send_copy(nge_t *ngep, mblk_t *mp, send_ring_t *srp) 336 { 337 size_t totlen; 338 size_t mblen; 339 uint32_t flags; 340 uint32_t bds; 341 uint32_t start_index; 342 char *txb; 343 mblk_t *bp; 344 void *hw_sbd_p; 345 sw_tx_sbd_t *ssbdp; 346 347 hcksum_retrieve(mp, NULL, NULL, NULL, NULL, 348 NULL, NULL, &flags); 349 bds = 0x1; 350 351 if ((uint32_t)-1 == (start_index = nge_tx_alloc(ngep, bds))) 352 return (SEND_COPY_FAIL); 353 354 ASSERT(start_index < srp->desc.nslots); 355 356 /* 357 * up to this point, there's nothing that can fail, 358 * so we can go straight to claiming our 359 * already-reserved place son the train. 360 * 361 * This is the point of no return! 362 */ 363 364 bp = mp; 365 totlen = 0; 366 ssbdp = &srp->sw_sbds[start_index]; 367 ASSERT(ssbdp->flags == HOST_OWN); 368 369 txb = DMA_VPTR(ssbdp->pbuf); 370 totlen = 0; 371 for (; bp != NULL; bp = bp->b_cont) { 372 if ((mblen = MBLKL(bp)) == 0) 373 continue; 374 if ((totlen += mblen) <= ngep->max_sdu) { 375 bcopy(bp->b_rptr, txb, mblen); 376 txb += mblen; 377 } 378 } 379 380 DMA_SYNC(ssbdp->pbuf, DDI_DMA_SYNC_FORDEV); 381 382 /* Fill & sync hw desc */ 383 384 hw_sbd_p = DMA_VPTR(ssbdp->desc); 385 386 ngep->desc_attr.txd_fill(hw_sbd_p, &ssbdp->pbuf.cookie, totlen, 387 flags, B_TRUE); 388 nge_tx_desc_sync(ngep, start_index, bds, DDI_DMA_SYNC_FORDEV); 389 390 ssbdp->flags = CONTROLER_OWN; 391 392 nge_tx_start(ngep, bds); 393 394 /* 395 * The return status indicates that the message can be freed 396 * right away, as we've already copied the contents ... 397 */ 398 399 freemsg(mp); 400 return (SEND_COPY_SUCESS); 401 } 402 403 /* 404 * static enum send_status 405 * nge_send_mapped(nge_t *ngep, mblk_t *mp, size_t fragno); 406 * #pragma inline(nge_send_mapped) 407 */ 408 409 static enum send_status 410 nge_send_mapped(nge_t *ngep, mblk_t *mp, size_t fragno) 411 { 412 int err; 413 boolean_t end; 414 uint32_t i; 415 uint32_t j; 416 uint32_t ncookies; 417 uint32_t slot; 418 uint32_t nslots; 419 uint32_t mblen; 420 uint32_t flags; 421 uint32_t start_index; 422 uint32_t end_index; 423 mblk_t *bp; 424 void *hw_sbd_p; 425 send_ring_t *srp; 426 nge_dmah_node_t *dmah; 427 nge_dmah_node_t *dmer; 428 nge_dmah_list_t dmah_list; 429 ddi_dma_cookie_t cookie[NGE_MAX_COOKIES * NGE_MAP_FRAGS]; 430 431 srp = ngep->send; 432 nslots = srp->desc.nslots; 433 434 mutex_enter(&srp->dmah_lock); 435 err = nge_tx_dmah_pop(&srp->dmah_free, &dmah_list, fragno); 436 mutex_exit(&srp->dmah_lock); 437 438 if (err != 0) { 439 440 return (SEND_MAP_FAIL); 441 } 442 443 /* 444 * Pre-scan the message chain, noting the total number of bytes, 445 * the number of fragments by pre-doing dma addr bind 446 * if the fragment is larger than NGE_COPY_SIZE. 447 * This way has the following advantages: 448 * 1. Acquire the detailed information of resouce 449 * need to send the message 450 * 451 * 2. If can not pre-apply enough resouce, fails at once 452 * and the driver will chose copy way to send out the 453 * message 454 */ 455 456 slot = 0; 457 dmah = dmah_list.head; 458 459 hcksum_retrieve(mp, NULL, NULL, NULL, NULL, NULL, NULL, &flags); 460 461 for (bp = mp; bp != NULL; bp = bp->b_cont) { 462 463 mblen = MBLKL(bp); 464 if (mblen == 0) 465 continue; 466 467 err = ddi_dma_addr_bind_handle(dmah->hndl, 468 NULL, (caddr_t)bp->b_rptr, mblen, 469 DDI_DMA_STREAMING | DDI_DMA_WRITE, 470 DDI_DMA_DONTWAIT, NULL, cookie + slot, &ncookies); 471 472 /* 473 * If there can not map successfully, it is uncessary 474 * sending the message by map way. Sending the message 475 * by copy way. 476 * 477 * By referring to intel's suggestion, it is better 478 * the number of cookies should be less than 4. 479 */ 480 if (err != DDI_DMA_MAPPED || ncookies > NGE_MAX_COOKIES) { 481 NGE_DEBUG(("err(%x) map tx bulk fails" 482 " cookie(%x), ncookies(%x)", 483 err, cookie[slot].dmac_laddress, ncookies)); 484 goto map_fail; 485 } 486 487 /* 488 * Check How many bds a cookie will consume 489 */ 490 for (end_index = slot + ncookies; 491 ++slot != end_index; 492 ddi_dma_nextcookie(dmah->hndl, cookie + slot)) 493 ; 494 495 dmah = dmah->next; 496 } 497 498 /* 499 * Now allocate tx descriptors and fill them 500 * IMPORTANT: 501 * Up to the point where it claims a place, It is impossibel 502 * to fail. 503 * 504 * In this version, there's no setup to be done here, and there's 505 * nothing that can fail, so we can go straight to claiming our 506 * already-reserved places on the train. 507 * 508 * This is the point of no return! 509 */ 510 511 512 if ((uint32_t)-1 == (start_index = nge_tx_alloc(ngep, slot))) 513 goto map_fail; 514 515 ASSERT(start_index < nslots); 516 517 /* fill&sync hw desc, going in reverse order */ 518 519 end = B_TRUE; 520 end_index = NEXT_INDEX(start_index, slot - 1, nslots); 521 522 for (i = slot - 1, j = end_index; start_index - j != 0; 523 j = PREV(j, nslots), --i) { 524 525 hw_sbd_p = DMA_VPTR(srp->sw_sbds[j].desc); 526 ngep->desc_attr.txd_fill(hw_sbd_p, cookie + i, 527 cookie[i].dmac_size, 0, end); 528 529 end = B_FALSE; 530 } 531 532 hw_sbd_p = DMA_VPTR(srp->sw_sbds[j].desc); 533 ngep->desc_attr.txd_fill(hw_sbd_p, cookie + i, cookie[i].dmac_size, 534 flags, end); 535 536 nge_tx_desc_sync(ngep, start_index, slot, DDI_DMA_SYNC_FORDEV); 537 538 /* fill sw desc */ 539 540 for (j = start_index; end_index - j != 0; j = NEXT(j, nslots)) { 541 542 srp->sw_sbds[j].flags = CONTROLER_OWN; 543 } 544 545 srp->sw_sbds[j].mp = mp; 546 srp->sw_sbds[j].mp_hndl = dmah_list; 547 srp->sw_sbds[j].frags = (uint32_t)fragno; 548 srp->sw_sbds[j].flags = CONTROLER_OWN; 549 550 nge_tx_start(ngep, slot); 551 552 /* 553 * The return status indicates that the message can not be freed 554 * right away, until we can make assure the message has been sent 555 * out sucessfully. 556 */ 557 return (SEND_MAP_SUCCESS); 558 559 map_fail: 560 for (dmer = dmah_list.head; dmah - dmer != 0; dmer = dmer->next) 561 (void) ddi_dma_unbind_handle(dmer->hndl); 562 563 mutex_enter(&srp->dmah_lock); 564 nge_tx_dmah_push(&dmah_list, &srp->dmah_free); 565 mutex_exit(&srp->dmah_lock); 566 567 return (SEND_MAP_FAIL); 568 } 569 570 static boolean_t 571 nge_send(nge_t *ngep, mblk_t *mp) 572 { 573 mblk_t *bp; 574 send_ring_t *srp; 575 enum send_status status; 576 uint32_t mblen = 0; 577 uint32_t frags = 0; 578 nge_statistics_t *nstp = &ngep->statistics; 579 nge_sw_statistics_t *sw_stp = &nstp->sw_statistics; 580 581 ASSERT(mp != NULL); 582 ASSERT(ngep->nge_mac_state == NGE_MAC_STARTED); 583 584 srp = ngep->send; 585 /* 586 * 1.Check the number of the fragments of the messages 587 * If the total number is larger than 3, 588 * Chose copy way 589 * 590 * 2. Check the length of the message whether is larger than 591 * NGE_TX_COPY_SIZE, if so, choose the map way. 592 */ 593 for (frags = 0, bp = mp; bp != NULL; bp = bp->b_cont) { 594 if (MBLKL(bp) == 0) 595 continue; 596 frags++; 597 mblen += MBLKL(bp); 598 } 599 if (mblen > (ngep->max_sdu) || mblen == 0) { 600 freemsg(mp); 601 return (B_TRUE); 602 } 603 604 if ((mblen > ngep->param_txbcopy_threshold) && 605 (srp->tx_free > frags * NGE_MAX_COOKIES)) { 606 status = nge_send_mapped(ngep, mp, frags); 607 if (status == SEND_MAP_FAIL) 608 status = nge_send_copy(ngep, mp, srp); 609 } else { 610 status = nge_send_copy(ngep, mp, srp); 611 } 612 if (status == SEND_COPY_FAIL) { 613 nge_tx_recycle(ngep, B_FALSE); 614 status = nge_send_copy(ngep, mp, srp); 615 if (status == SEND_COPY_FAIL) { 616 ngep->resched_needed = 1; 617 NGE_DEBUG(("nge_send: send fail!")); 618 return (B_FALSE); 619 } 620 } 621 /* Update the software statistics */ 622 sw_stp->obytes += mblen + ETHERFCSL; 623 sw_stp->xmit_count ++; 624 625 return (B_TRUE); 626 } 627 628 /* 629 * nge_m_tx : Send a chain of packets. 630 */ 631 mblk_t * 632 nge_m_tx(void *arg, mblk_t *mp) 633 { 634 nge_t *ngep = arg; 635 mblk_t *next; 636 637 rw_enter(ngep->rwlock, RW_READER); 638 ASSERT(mp != NULL); 639 if (ngep->nge_chip_state != NGE_CHIP_RUNNING) { 640 freemsgchain(mp); 641 mp = NULL; 642 } 643 while (mp != NULL) { 644 next = mp->b_next; 645 mp->b_next = NULL; 646 647 if (!nge_send(ngep, mp)) { 648 mp->b_next = next; 649 break; 650 } 651 652 mp = next; 653 } 654 rw_exit(ngep->rwlock); 655 656 return (mp); 657 } 658 659 /* ARGSUSED */ 660 uint_t 661 nge_reschedule(caddr_t args1, caddr_t args2) 662 { 663 nge_t *ngep; 664 uint_t rslt; 665 666 ngep = (nge_t *)args1; 667 rslt = DDI_INTR_UNCLAIMED; 668 669 /* 670 * when softintr is trigged, checking whether this 671 * is caused by our expected interrupt 672 */ 673 if (ngep->nge_mac_state == NGE_MAC_STARTED && 674 ngep->resched_needed == 1) { 675 ngep->resched_needed = 0; 676 ++ngep->statistics.sw_statistics.tx_resched; 677 mac_tx_update(ngep->mh); 678 rslt = DDI_INTR_CLAIMED; 679 } 680 return (rslt); 681 } 682 683 uint32_t 684 nge_hot_txd_check(const void *hwd, size_t *len) 685 { 686 uint32_t err_flag; 687 const hot_tx_bd * htbdp; 688 689 htbdp = hwd; 690 err_flag = htbdp->control_status.cntl_val & ~TXD_BCNT_MSK; 691 692 *len = htbdp->control_status.status_bits.bcnt; 693 return (err_flag); 694 } 695 696 uint32_t 697 nge_sum_txd_check(const void *hwd, size_t *len) 698 { 699 uint32_t err_flag; 700 const sum_tx_bd * htbdp; 701 702 htbdp = hwd; 703 err_flag = htbdp->control_status.cntl_val & ~TXD_BCNT_MSK; 704 705 *len = htbdp->control_status.status_bits.bcnt; 706 return (err_flag); 707 } 708 709 710 /* 711 * Filling the contents of Tx's data descriptor 712 * before transmitting. 713 */ 714 715 void 716 nge_hot_txd_fill(void *hwdesc, const ddi_dma_cookie_t *cookie, 717 size_t length, uint32_t sum_flag, boolean_t end) 718 { 719 hot_tx_bd * hw_sbd_p = hwdesc; 720 721 hw_sbd_p->host_buf_addr_hi = cookie->dmac_laddress >> 32; 722 hw_sbd_p->host_buf_addr_lo = cookie->dmac_laddress; 723 724 /* 725 * Setting the length of the packet 726 * Note: the length filled in the part should be 727 * the original length subtract 1; 728 */ 729 730 hw_sbd_p->control_status.control_sum_bits.bcnt = length - 1; 731 732 /* setting ip checksum */ 733 if (sum_flag & HCK_IPV4_HDRCKSUM) 734 hw_sbd_p->control_status.control_sum_bits.ip_hsum 735 = NGE_SET; 736 /* setting tcp checksum */ 737 if (sum_flag & HCK_FULLCKSUM) 738 hw_sbd_p->control_status.control_sum_bits.tcp_hsum 739 = NGE_SET; 740 /* 741 * indicating the end of BDs 742 */ 743 if (end) 744 hw_sbd_p->control_status.control_sum_bits.end = NGE_SET; 745 746 membar_producer(); 747 748 /* pass desc to HW */ 749 hw_sbd_p->control_status.control_sum_bits.own = NGE_SET; 750 } 751 752 void 753 nge_sum_txd_fill(void *hwdesc, const ddi_dma_cookie_t *cookie, 754 size_t length, uint32_t sum_flag, boolean_t end) 755 { 756 sum_tx_bd * hw_sbd_p = hwdesc; 757 758 hw_sbd_p->host_buf_addr = cookie->dmac_address; 759 760 /* 761 * Setting the length of the packet 762 * Note: the length filled in the part should be 763 * the original length subtract 1; 764 */ 765 766 hw_sbd_p->control_status.control_sum_bits.bcnt = length - 1; 767 768 /* setting ip checksum */ 769 if (sum_flag & HCK_IPV4_HDRCKSUM) 770 hw_sbd_p->control_status.control_sum_bits.ip_hsum 771 = NGE_SET; 772 /* setting tcp checksum */ 773 if (sum_flag & HCK_FULLCKSUM) 774 hw_sbd_p->control_status.control_sum_bits.tcp_hsum 775 = NGE_SET; 776 /* 777 * indicating the end of BDs 778 */ 779 if (end) 780 hw_sbd_p->control_status.control_sum_bits.end = NGE_SET; 781 782 membar_producer(); 783 784 /* pass desc to HW */ 785 hw_sbd_p->control_status.control_sum_bits.own = NGE_SET; 786 } 787