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 2009 Sun Microsystems, Inc. All rights reserved. 24 * Use is subject to license terms. 25 */ 26 27 #ifndef _SYS_NGE_CHIP_H 28 #define _SYS_NGE_CHIP_H 29 30 #ifdef __cplusplus 31 extern "C" { 32 #endif 33 34 #include "nge.h" 35 36 #define VENDOR_ID_NVIDIA 0x10de 37 38 #define DEVICE_ID_MCP04_37 0x37 39 #define DEVICE_ID_MCP04_38 0x38 40 #define DEVICE_ID_CK804_56 0x56 41 #define DEVICE_ID_CK804_57 0x57 42 #define DEVICE_ID_MCP51_269 0x269 43 #define DEVICE_ID_MCP51_268 0x268 44 #define DEVICE_ID_MCP55_373 0x373 45 #define DEVICE_ID_MCP55_372 0x372 46 #define DEVICE_ID_MCP61_3EE 0x3ee 47 #define DEVICE_ID_MCP61_3EF 0x3ef 48 #define DEVICE_ID_MCP77_760 0x760 49 #define DEVICE_ID_MCP79_AB0 0xab0 50 #define DEVICE_ID_NF3_E6 0xe6 51 #define DEVICE_ID_NF3_DF 0xdf 52 53 /* Private PCI configuration register for bus config of ck804/mcp55 */ 54 #define PCI_CONF_HT_INTERNAL 0x4c 55 56 typedef union _nge_interbus_conf { 57 uint32_t conf_val; 58 struct { 59 uint32_t unit_id:5; 60 uint32_t resv5_23:19; 61 uint32_t aux_val:3; 62 uint32_t resv27:1; 63 uint32_t msi_off:1; 64 uint32_t msix_off:1; /* mcp55 only */ 65 uint32_t resv30_31:2; 66 } conf_bits; 67 } nge_interbus_conf; 68 69 /* Private PCI configuration register for MSI mask of mcp55 */ 70 #define PCI_CONF_HT_MSI_MASK 0x60 71 72 typedef union _nge_msi_mask_conf { 73 uint32_t msi_mask_conf_val; 74 struct { 75 uint32_t vec0_off:1; 76 uint32_t vec1_off:1; 77 uint32_t vec2_off:1; 78 uint32_t vec3_off:1; 79 uint32_t vec4_off:1; 80 uint32_t vec5_off:1; 81 uint32_t vec6_off:1; 82 uint32_t vec7_off:1; 83 uint32_t resv8_31:24; 84 } msi_mask_bits; 85 } nge_msi_mask_conf; 86 87 /* Private PCI configuration register for MSI map capability of mcp55 */ 88 #define PCI_CONF_HT_MSI_MAP_CAP 0x6c 89 90 typedef union _nge_msi_map_cap_conf { 91 uint32_t msi_map_cap_conf_val; 92 struct { 93 uint32_t cap_id:8; 94 uint32_t next_ptr:8; 95 uint32_t map_en:1; 96 uint32_t map_fixed:1; 97 uint32_t resv18_26:9; 98 uint32_t cap_type:5; 99 } map_cap_conf_bits; 100 } nge_msi_map_cap_conf; 101 102 /* 103 * Master interrupt 104 */ 105 #define NGE_INTR_SRC 0x000 106 #define INTR_SRC_ALL 0x00007fff 107 typedef union _nge_intr_src { 108 uint32_t intr_val; 109 struct { 110 uint32_t reint:1; 111 uint32_t rcint:1; 112 uint32_t miss:1; 113 uint32_t teint:1; 114 uint32_t tcint:1; 115 uint32_t stint:1; 116 uint32_t mint:1; 117 uint32_t rfint:1; 118 uint32_t tfint:1; 119 uint32_t feint:1; 120 uint32_t resv10:1; 121 uint32_t resv11:1; 122 uint32_t resv12:1; 123 uint32_t resv13:1; 124 uint32_t phyint:1; 125 uint32_t resv15_31:17; 126 } int_bits; 127 } nge_intr_src; 128 129 /* 130 * Master interrupt Mask 131 */ 132 #define NGE_INTR_MASK 0x004 133 #define NGE_INTR_ALL_EN 0x00007fff 134 typedef union _nge_intr_mask { 135 uint32_t mask_val; 136 struct { 137 uint32_t reint:1; 138 uint32_t rcint:1; 139 uint32_t miss:1; 140 uint32_t teint:1; 141 uint32_t tcint:1; 142 uint32_t stint:1; 143 uint32_t mint:1; 144 uint32_t rfint:1; 145 uint32_t tfint:1; 146 uint32_t feint:1; 147 uint32_t resv10:1; 148 uint32_t resv11:1; 149 uint32_t resv12:1; 150 uint32_t resv13:1; 151 uint32_t phyint:1; 152 uint32_t resv15_31:17; 153 } mask_bits; 154 } nge_intr_mask; 155 156 /* 157 * Software timer control register 158 */ 159 #define NGE_SWTR_CNTL 0x008 160 typedef union _nge_swtr_cntl { 161 uint8_t ctrl_val; 162 struct { 163 uint8_t stren:1; 164 uint8_t sten:1; 165 uint8_t resv2_7:6; 166 } cntl_bits; 167 } nge_swtr_cntl; 168 169 /* 170 * Software Timer Interval 171 */ 172 #define NGE_SWTR_ITC 0x00c 173 174 /* Default timer interval, 97 would mean 1 ms */ 175 #define SWTR_ITC 0x8 176 typedef union _nge_itc { 177 uint32_t itc_val; 178 struct { 179 uint32_t sw_intv:16; 180 uint32_t sw_cur_val:16; 181 } itc_bits; 182 } nge_itc; 183 184 /* 185 * Fatal error register 186 */ 187 #define NGE_REG010 0x010 188 typedef union _nge_reg010 { 189 uint32_t reg010_val; 190 struct { 191 uint32_t resv0:1; 192 uint32_t resv1:1; 193 uint32_t resv2:1; 194 uint32_t resv3:1; 195 uint32_t resv4:1; 196 uint32_t resv5:1; 197 uint32_t resv6:1; 198 uint32_t resv7:1; 199 uint32_t resv8:1; 200 uint32_t resv9:1; 201 uint32_t resv10:1; 202 uint32_t resv11_31:21; 203 } reg010_bits; 204 } nge_reg010; 205 206 /* 207 * MSI vector map register 0 208 */ 209 #define NGE_MSI_MAP0 0x020 210 typedef union _nge_msi_map0_vec { 211 uint32_t msi_map0_val; 212 struct { 213 uint32_t reint_vec:4; 214 uint32_t rcint_vec:4; 215 uint32_t miss_vec:4; 216 uint32_t teint_vec:4; 217 uint32_t tcint_vec:4; 218 uint32_t stint_vec:4; 219 uint32_t mint_vec:4; 220 uint32_t rfint_vec:4; 221 } vecs_bits; 222 } nge_msi_map0_vec; 223 224 /* 225 * MSI vector map register 1 226 */ 227 #define NGE_MSI_MAP1 0x024 228 typedef union _nge_msi_map1_vec { 229 uint32_t msi_map1_val; 230 struct { 231 uint32_t tfint_vec:4; 232 uint32_t feint_vec:4; 233 uint32_t resv8_11:4; 234 uint32_t resv12_15:4; 235 uint32_t resv16_19:4; 236 uint32_t resv20_23:4; 237 uint32_t resv24_31:8; 238 } vecs_bits; 239 } nge_msi_map1_vec; 240 241 242 /* 243 * MSI vector map register 2 244 */ 245 #define NGE_MSI_MAP2 0x028 246 247 /* 248 * MSI vector map register 2 249 */ 250 #define NGE_MSI_MAP3 0x02c 251 252 /* 253 * MSI mask register for mcp55 254 */ 255 #define NGE_MSI_MASK 0x30 256 typedef union _nge_msi_mask { 257 uint32_t msi_mask_val; 258 struct { 259 uint32_t vec0:1; 260 uint32_t vec1:1; 261 uint32_t vec2:1; 262 uint32_t vec3:1; 263 uint32_t vec4:1; 264 uint32_t vec5:1; 265 uint32_t vec6:1; 266 uint32_t vec7:1; 267 uint32_t resv8_31:24; 268 }msi_msk_bits; 269 }nge_msi_mask; 270 271 /* 272 * Software misc register for mcp51 273 */ 274 #define NGE_SOFT_MISC 0x034 275 typedef union _nge_soft_misc { 276 uint32_t misc_val; 277 struct { 278 uint32_t rx_clk_vx_rst:1; 279 uint32_t tx_clk_vx_rst:1; 280 uint32_t clk12m_vx_rst:1; 281 uint32_t fpci_clk_vx_rst:1; 282 uint32_t rx_clk_vc_rst:1; 283 uint32_t tx_clk_vc_rst:1; 284 uint32_t fs_clk_vc_rst:1; 285 uint32_t rst_ex_m2pintf:1; 286 uint32_t resv8_31:24; 287 } misc_bits; 288 } nge_soft_misc; 289 290 /* 291 * DMA configuration 292 */ 293 #define NGE_DMA_CFG 0x040 294 typedef union _nge_dma_cfg { 295 uint32_t cfg_val; 296 struct { 297 uint32_t tx_start_pri:3; 298 uint32_t tx_start_pri_flag:1; 299 uint32_t tx_prd_rpri:3; 300 uint32_t tx_prd_rpri_flag:1; 301 uint32_t tx_prd_wpri:3; 302 uint32_t tx_prd_wpri_flag:1; 303 uint32_t rx_start_pri:3; 304 uint32_t rx_start_pri_flag:1; 305 uint32_t rx_prd_rpri:3; 306 uint32_t rx_prd_rpri_flag:1; 307 uint32_t rx_prd_wpri:3; 308 uint32_t rx_prd_wpri_flag:1; 309 uint32_t dma_max_pri:3; 310 uint32_t dma_wrr_disable:1; 311 uint32_t dma_pri_disable:1; 312 } cfg_bits; 313 } nge_dma_cfg; 314 315 /* 316 * Request DMA configuration 317 */ 318 #define NGE_DMA_RCFG 0x044 319 typedef union _nge_dma_rcfg { 320 uint32_t dma_rcfg_val; 321 struct { 322 uint32_t tx_prd_coh_state:2; 323 uint32_t tx_data_coh_state:2; 324 uint32_t rx_prd_coh_state:2; 325 uint32_t rx_data_coh_state:2; 326 uint32_t max_roffset:5; 327 uint32_t resv13_31:19; 328 } rcfg_bis; 329 } nge_dma_rcfg; 330 331 /* 332 * Hot DMA configuration 333 */ 334 #define NGE_DMA_HOT_CFG 0x048 335 typedef union _nge_dma_hcfg { 336 uint32_t dma_hcfg_val; 337 struct { 338 uint32_t resv0_3:4; 339 uint32_t noti_wstart_pri:3; 340 uint32_t noti_wstart_pri_flag:1; 341 uint32_t cmd_rstart_pri:3; 342 uint32_t cmd_rstart_pri_flag:1; 343 uint32_t cmd_wstart_pri:3; 344 uint32_t cmd_wstart_pri_flag:1; 345 uint32_t resv16_31:16; 346 } hcfg_bits; 347 } nge_dma_hcfg; 348 349 /* 350 * PMU control register 0 for mcp51 351 */ 352 #define NGE_PMU_CNTL0 0x060 353 #define NGE_PMU_CORE_SPD10_BUSY 0x8 354 #define NGE_PMU_CORE_SPD10_IDLE 0xB 355 #define NGE_PMU_CORE_SPD100_BUSY 0x4 356 #define NGE_PMU_CORE_SPD100_IDLE 0x7 357 #define NGE_PMU_CORE_SPD1000_BUSY 0x0 358 #define NGE_PMU_CORE_SPD1000_IDLE 0x3 359 360 typedef union _nge_pmu_cntl0 { 361 uint32_t cntl0_val; 362 struct { 363 uint32_t core_spd10_fp:4; 364 uint32_t core_spd10_idle:4; 365 uint32_t core_spd100_fp:4; 366 uint32_t core_spd100_idle:4; 367 uint32_t core_spd1000_fp:4; 368 uint32_t core_spd1000_idle:4; 369 uint32_t core_sts_cur:8; 370 } cntl0_bits; 371 } nge_pmu_cntl0; 372 373 /* 374 * PMU control register 1 for mcp51 375 */ 376 #define NGE_PMU_CNTL1 0x064 377 typedef union _nge_pmu_cntl1 { 378 uint32_t cntl1_val; 379 struct { 380 uint32_t dev_fp:4; 381 uint32_t dev_idle:4; 382 uint32_t resv8_27:20; 383 uint32_t dev_sts_cur:4; 384 } cntl1_bits; 385 } nge_pmu_cntl1; 386 387 /* 388 * PMU control register 2 for mcp51 389 */ 390 #define NGE_PMU_CNTL2 0x068 391 typedef union _nge_pmu_cntl2 { 392 uint32_t cntl2_val; 393 struct { 394 uint32_t core_override:4; 395 uint32_t resv4_7:4; 396 uint32_t dev_override:4; 397 uint32_t resv12_15:4; 398 uint32_t core_override_en:1; 399 uint32_t dev_override_en:1; 400 uint32_t core_enable:1; 401 uint32_t dev_enable:1; 402 uint32_t rx_wake_dis:1; 403 uint32_t cidle_timer:1; 404 uint32_t didle_timer:1; 405 uint32_t resv23_31:9; 406 } cntl2_bits; 407 } nge_pmu_cntl2; 408 409 /* 410 * PMU core idle limit register for mcp51 411 */ 412 #define NGE_PMU_CIDLE_LIMIT 0x06c 413 #define NGE_PMU_CIDLE_LIMIT_DEF 0xffff 414 415 /* 416 * PMU device idle limit register for mcp51 417 */ 418 #define NGE_PMU_DIDLE_LIMIT 0x070 419 #define NGE_PMU_DIDLE_LIMIT_DEF 0xffff 420 421 /* 422 * PMU core idle count value register for mcp51 423 */ 424 #define NGE_PMU_CIDLE_COUNT 0x074 425 #define NGE_PMU_CIDEL_COUNT_DEF 0xffff 426 427 /* 428 * PMU device idle count value register for mcp51 429 */ 430 #define NGE_PMU_DIDLE_COUNT 0x078 431 #define NGE_PMU_DIDEL_COUNT_DEF 0xffff 432 433 /* 434 * Transmit control 435 */ 436 #define NGE_TX_CNTL 0x080 437 typedef union _nge_tx_cntl { 438 uint32_t cntl_val; 439 struct { 440 uint32_t paen:1; /* only for mcp55, otherwise reserve */ 441 uint32_t resv1:1; 442 uint32_t retry_en:1; 443 uint32_t pad_en:1; 444 uint32_t fappend_en:1; 445 uint32_t two_def_en:1; 446 uint32_t resv6_7:2; 447 uint32_t max_retry:4; 448 uint32_t burst_en:1; 449 uint32_t resv13_15:3; 450 uint32_t retry_emask:1; 451 uint32_t exdef_mask:1; 452 uint32_t def_mask:1; 453 uint32_t lcar_mask:1; 454 uint32_t tlcol_mask:1; 455 uint32_t uflo_err_mask:1; 456 uint32_t resv22_23:2; 457 uint32_t jam_seq_en:1; 458 uint32_t resv25_31:7; 459 } cntl_bits; 460 } nge_tx_cntl; 461 462 /* 463 * Transmit enable 464 * Note: for ck804 or mcp51, this is 8-bit register; 465 * for mcp55, it is a 32-bit register. 466 */ 467 #define NGE_TX_EN 0x084 468 #define NGE_SMU_FREE 0x0 469 #define NGE_SMU_GET 0xf 470 typedef union _nge_tx_en { 471 uint32_t val; 472 struct { 473 uint32_t tx_en:1; 474 uint32_t resv1_7:7; 475 uint32_t smu2mac:4; 476 uint32_t mac2smu:4; 477 uint32_t resv16_31:16; 478 } bits; 479 } nge_tx_en; 480 481 /* 482 * Transmit status 483 */ 484 #define NGE_TX_STA 0x088 485 typedef union _nge_tx_sta { 486 uint32_t sta_val; 487 struct { 488 uint32_t tx_chan_sta:1; 489 uint32_t resv1_15:15; 490 uint32_t retry_err:1; 491 uint32_t exdef:1; 492 uint32_t def:1; 493 uint32_t lcar:1; 494 uint32_t tlcol:1; 495 uint32_t uflo:1; 496 uint32_t resv22_31:10; 497 } sta_bits; 498 } nge_tx_sta; 499 500 /* 501 * Receive control 502 */ 503 #define NGE_RX_CNTL0 0x08c 504 typedef union _nge_rx_cntrl0 { 505 uint32_t cntl_val; 506 struct { 507 uint32_t resv0:1; 508 uint32_t padsen:1; 509 uint32_t fcsren:1; 510 uint32_t paen:1; 511 uint32_t lben:1; 512 uint32_t afen:1; 513 uint32_t runten:1; 514 uint32_t brdis:1; 515 uint32_t rdfen:1; 516 uint32_t slfb:1; 517 uint32_t resv10_15:6; 518 uint32_t runtm:1; 519 uint32_t rlcolm:1; 520 uint32_t maxerm:1; 521 uint32_t lferm:1; 522 uint32_t crcm:1; 523 uint32_t ofolm:1; 524 uint32_t framerm:1; 525 uint32_t resv23_31:9; 526 } cntl_bits; 527 } nge_rx_cntrl0; 528 529 /* 530 * Maximum receive Frame size 531 */ 532 #define NGE_RX_CNTL1 0x090 533 typedef union _nge_rx_cntl1 { 534 uint32_t cntl_val; 535 struct { 536 uint32_t length:14; 537 uint32_t resv14_31:18; 538 } cntl_bits; 539 } nge_rx_cntl1; 540 541 /* 542 * Receive enable register 543 * Note: for ck804 and mcp51, this is a 8-bit register; 544 * for mcp55, it is a 32-bit register. 545 */ 546 #define NGE_RX_EN 0x094 547 typedef union _nge_rx_en { 548 uint8_t val; 549 struct { 550 uint8_t rx_en:1; 551 uint8_t resv1_7:7; 552 } bits; 553 } nge_rx_en; 554 555 /* 556 * Receive status register 557 */ 558 #define NGE_RX_STA 0x098 559 typedef union _nge_rx_sta { 560 uint32_t sta_val; 561 struct { 562 uint32_t rx_chan_sta:1; 563 uint32_t resv1_15:15; 564 uint32_t runt_sta:1; 565 uint32_t rlcol_sta:1; 566 uint32_t mlen_err:1; 567 uint32_t lf_err:1; 568 uint32_t crc_err:1; 569 uint32_t ofol_err:1; 570 uint32_t fram_err:1; 571 uint32_t resv23_31:9; 572 } sta_bits; 573 } nge_rx_sta; 574 575 /* 576 * Backoff Control 577 */ 578 #define NGE_BKOFF_CNTL 0x09c 579 #define BKOFF_RSEED 0x8 580 #define BKOFF_SLIM_GMII 0x3ff 581 #define BKOFF_SLIM_MII 0x7f 582 typedef union _nge_bkoff_cntl { 583 uint32_t cntl_val; 584 struct { 585 uint32_t rseed:8; 586 uint32_t sltm:10; 587 uint32_t resv18_30:13; 588 uint32_t leg_bk_en:1; 589 } bkoff_bits; 590 } nge_bkoff_cntl; 591 592 /* 593 * Transmit defferral timing 594 */ 595 #define NGE_TX_DEF 0x0a0 596 #define TX_TIFG_MII 0x15 597 #define TX_IFG_RGMII_1000_FD 0x14 598 #define TX_IFG_RGMII_OTHER 0x16 599 #define TX_IFG2_MII 0x5 600 #define TX_IFG2_RGMII_10_100 0x7 601 #define TX_IFG2_RGMII_1000 0x5 602 #define TX_IFG2_DEFAULT 0X0 603 #define TX_IFG1_DEFAULT 0xf 604 typedef union _nge_tx_def { 605 uint32_t def_val; 606 struct { 607 uint32_t ifg1_def:8; 608 uint32_t ifg2_def:8; 609 uint32_t if_def:8; 610 uint32_t resv24_31:8; 611 } def_bits; 612 } nge_tx_def; 613 614 /* 615 * Receive defferral timing 616 */ 617 #define NGE_RX_DEf 0x0a4 618 #define RX_DEF_DEFAULT 0x16 619 typedef union _nge_rx_def { 620 uint8_t def_val; 621 struct { 622 uint8_t rifg; 623 } def_bits; 624 } nge_rx_def; 625 626 /* 627 * Low 32 bit unicast address 628 */ 629 #define NGE_UNI_ADDR0 0x0a8 630 typedef union _nge_uni_addr0 { 631 uint32_t addr_val; 632 struct { 633 uint32_t addr; 634 } addr_bits; 635 } nge_uni_addr0; 636 637 /* 638 * High 32 bit unicast address 639 */ 640 #define NGE_UNI_ADDR1 0x0ac 641 typedef union _nge_uni_addr1 { 642 uint32_t addr_val; 643 struct { 644 uint32_t addr:16; 645 uint32_t resv16_31:16; 646 } addr_bits; 647 } nge_uni_addr1; 648 649 #define LOW_24BITS_MASK 0xffffffULL 650 #define REVERSE_MAC_ELITE 0x211900ULL 651 #define REVERSE_MAC_GIGABYTE 0xe61600ULL 652 #define REVERSE_MAC_ASUS 0x601d00ULL 653 654 /* 655 * Low 32 bit multicast address 656 */ 657 #define NGE_MUL_ADDR0 0x0b0 658 typedef union _nge_mul_addr0 { 659 uint32_t addr_val; 660 struct { 661 uint32_t addr; 662 }addr_bits; 663 } nge_mul_addr0; 664 665 /* 666 * High 32 bit multicast address 667 */ 668 #define NGE_MUL_ADDR1 0x0b4 669 typedef union _nge_mul_addr1 { 670 uint32_t addr_val; 671 struct { 672 uint32_t addr:16; 673 uint32_t resv16_31:16; 674 }addr_bits; 675 } nge_mul_addr1; 676 677 /* 678 * Low 32 bit multicast mask 679 */ 680 #define NGE_MUL_MASK 0x0b8 681 typedef union _nge_mul_mask0 { 682 uint32_t mask_val; 683 struct { 684 uint32_t mask; 685 } mask_bits; 686 } nge_mul_mask0; 687 688 /* 689 * High 32 bit multicast mask 690 */ 691 #define NGE_MUL_MASK1 0x0bc 692 typedef union _nge_mul_mask1 { 693 uint32_t mask_val; 694 struct { 695 uint32_t mask:16; 696 uint32_t resv16_31:16; 697 } mask_bits; 698 } nge_mul_mask1; 699 700 /* 701 * Mac-to Phy Interface 702 */ 703 #define NGE_MAC2PHY 0x0c0 704 #define low_speed 0x0 705 #define fast_speed 0x1 706 #define giga_speed 0x2 707 #define err_speed 0x4 708 #define MII_IN 0x0 709 #define RGMII_IN 0x1 710 #define ERR_IN1 0x3 711 #define ERR_IN2 0x4 712 typedef union _nge_mac2phy { 713 uint32_t m2p_val; 714 struct { 715 uint32_t speed:2; 716 uint32_t resv2_7:6; 717 uint32_t hdup_en:1; 718 uint32_t resv9:1; 719 uint32_t phyintr:1; /* for mcp55 only */ 720 uint32_t phyintrlvl:1; /* for mcp55 only */ 721 uint32_t resv12_27:16; 722 uint32_t in_type:2; 723 uint32_t resv30_31:2; 724 } m2p_bits; 725 } nge_mac2phy; 726 727 /* 728 * Transmit Descriptor Ring address 729 */ 730 #define NGE_TX_DADR 0x100 731 typedef union _nge_tx_addr { 732 uint32_t addr_val; 733 struct { 734 uint32_t resv0_2:3; 735 uint32_t addr:29; 736 } addr_bits; 737 } nge_tx_addr; 738 739 /* 740 * Receive Descriptor Ring address 741 */ 742 #define NGE_RX_DADR 0x104 743 typedef union _nge_rx_addr { 744 uint32_t addr_val; 745 struct { 746 uint32_t resv0_2:3; 747 uint32_t addr:29; 748 } addr_bits; 749 } nge_rx_addr; 750 751 /* 752 * Rx/tx descriptor ring leng 753 * Note: for mcp55, tdlen/rdlen are 14 bit. 754 */ 755 #define NGE_RXTX_DLEN 0x108 756 typedef union _nge_rxtx_dlen { 757 uint32_t dlen_val; 758 struct { 759 uint32_t tdlen:14; 760 uint32_t resv14_15:2; 761 uint32_t rdlen:14; 762 uint32_t resv30_31:2; 763 } dlen_bits; 764 } nge_rxtx_dlen; 765 766 /* 767 * Transmit polling register 768 */ 769 #define NGE_TX_POLL 0x10c 770 #define TX_POLL_INTV_1G 10 771 #define TX_POLL_INTV_100M 100 772 #define TX_POLL_INTV_10M 1000 773 774 typedef union _nge_tx_poll { 775 uint32_t poll_val; 776 struct { 777 uint32_t tpi:16; 778 uint32_t tpen:1; 779 uint32_t resv17_31:15; 780 } poll_bits; 781 } nge_tx_poll; 782 783 /* 784 * Receive polling register 785 */ 786 #define NGE_RX_POLL 0x110 787 #define RX_POLL_INTV_1G 10 788 #define RX_POLL_INTV_100M 100 789 #define RX_POLL_INTV_10M 1000 790 typedef union _nge_rx_poll { 791 uint32_t poll_val; 792 struct { 793 uint32_t rpi:16; 794 uint32_t rpen:1; 795 uint32_t resv17_31:15; 796 } poll_bits; 797 } nge_rx_poll; 798 799 /* 800 * Transmit polling count 801 */ 802 #define NGE_TX_PCNT 0x114 803 typedef union _nge_tx_pcnt { 804 uint32_t cnt_val; 805 struct { 806 uint32_t pcnt:32; 807 } cnt_bits; 808 } nge_tx_pcnt; 809 810 /* 811 * Receive polling count 812 */ 813 #define NGE_RX_PCNT 0x118 814 typedef union _nge_rx_pcnt { 815 uint32_t cnt_val; 816 struct { 817 uint32_t pcnt:32; 818 } cnt_bits; 819 } nge_rx_pcnt; 820 821 822 /* 823 * Current tx's descriptor address 824 */ 825 #define NGE_TX_CUR_DADR 0x11c 826 typedef union _nge_tx_cur_addr { 827 uint32_t addr_val; 828 struct { 829 uint32_t resv0_2:3; 830 uint32_t addr:29; 831 } addr_bits; 832 } nge_tx_cur_addr; 833 834 /* 835 * Current rx's descriptor address 836 */ 837 #define NGE_RX_CUR_DADR 0x120 838 typedef union _nge_rx_cur_addr { 839 uint32_t addr_val; 840 struct { 841 uint32_t resv0_2:3; 842 uint32_t addr:29; 843 } addr_bits; 844 } nge_rx_cur_addr; 845 846 /* 847 * Current tx's data buffer address 848 */ 849 #define NGE_TX_CUR_PRD0 0x124 850 typedef union _nge_tx_cur_prd0 { 851 uint32_t prd0_val; 852 struct { 853 uint32_t prd0:32; 854 } prd0_bits; 855 } nge_tx_cur_prd0; 856 857 /* 858 * Current tx's data buffer status 859 */ 860 #define NGE_TX_CUR_PRD1 0x128 861 typedef union _nge_tx_cur_prd1 { 862 uint32_t prd1_val; 863 struct { 864 uint32_t rebytes:16; 865 uint32_t status:16; 866 } prd1_bits; 867 } nge_tx_cur_prd1; 868 869 /* 870 * Current rx's data buffer address 871 */ 872 #define NGE_RX_CUR_PRD0 0x12c 873 typedef union _nge_rx_cur_prd0 { 874 uint32_t prd0_val; 875 struct { 876 uint32_t prd0:32; 877 }prd0_bits; 878 } nge_rx_cur_prd0; 879 880 /* 881 * Current rx's data buffer status 882 */ 883 #define NGE_RX_CUR_PRD1 0x130 884 885 /* 886 * Next tx's descriptor address 887 */ 888 #define NGE_TX_NXT_DADR 0x134 889 typedef union _nge_tx_nxt_dadr { 890 uint32_t dadr_val; 891 struct { 892 uint32_t addr:32; 893 }addr_bits; 894 } nge_tx_nxt_dadr; 895 896 /* 897 * Next rx's descriptor address 898 */ 899 #define NGE_RX_NXT_DADR 0x138 900 typedef union _nge_rx_nxt_dadr { 901 uint32_t dadr_val; 902 struct { 903 uint32_t addr:32; 904 } addr_bits; 905 } nge_rx_nxt_dadr; 906 907 /* 908 * Transmit fifo watermark 909 */ 910 #define NGE_TX_FIFO_WM 0x13c 911 #define TX_FIFO_TBFW 0 912 #define TX_FIFO_NOB_WM_MII 1 913 #define TX_FIFO_NOB_WM_GMII 8 914 #define TX_FIFO_DATA_LWM 0x20 915 #define TX_FIFO_PRD_LWM 0x8 916 #define TX_FIFO_PRD_HWM 0x38 917 typedef union _nge_tx_fifo_wm { 918 uint32_t wm_val; 919 struct { 920 uint32_t data_lwm:9; 921 uint32_t resv8_11:3; 922 uint32_t prd_lwm:6; 923 uint32_t uprd_hwm:6; 924 uint32_t nbfb_wm:4; 925 uint32_t fb_wm:4; 926 } wm_bits; 927 } nge_tx_fifo_wm; 928 929 /* 930 * Receive fifo watermark 931 */ 932 #define NGE_RX_FIFO_WM 0x140 933 typedef union _nge_rx_fifo_wm { 934 uint32_t wm_val; 935 struct { 936 uint32_t data_hwm:9; 937 uint32_t resv9_11:3; 938 uint32_t prd_lwm:4; 939 uint32_t resv16_17:2; 940 uint32_t prd_hwm:4; 941 uint32_t resv22_31:10; 942 } wm_bits; 943 } nge_rx_fifo_wm; 944 945 /* 946 * Chip mode control 947 */ 948 #define NGE_MODE_CNTL 0x144 949 #define DESC_MCP1 0x0 950 #define DESC_OFFLOAD 0x1 951 #define DESC_HOT 0x2 952 #define DESC_RESV 0x3 953 #define MACHINE_BUSY 0x0 954 #define MACHINE_IDLE 0x1 955 typedef union _nge_mode_cntl { 956 uint32_t mode_val; 957 struct { 958 uint32_t txdm:1; 959 uint32_t rxdm:1; 960 uint32_t dma_dis:1; 961 uint32_t dma_status:1; 962 uint32_t bm_reset:1; 963 uint32_t resv5:1; 964 uint32_t vlan_strip:1; /* mcp55 chip only */ 965 uint32_t vlan_ins:1; /* mcp55 chip only */ 966 uint32_t desc_type:2; 967 uint32_t rx_sum_en:1; 968 uint32_t tx_prd_cu_en:1; 969 uint32_t w64_dis:1; 970 uint32_t tx_rcom_en:1; 971 uint32_t rx_filter_en:1; 972 uint32_t resv15:1; 973 uint32_t resv16:1; /* ck804 and mcp51 only */ 974 uint32_t resv17:1; /* ck804 and mcp51 only */ 975 uint32_t resv18:1; /* ck804 and mcp51 only */ 976 uint32_t resv19_21:3; 977 uint32_t tx_fetch_prd:1; /* mcp51/mcp55 only */ 978 uint32_t rx_fetch_prd:1; /* mcp51/mcp55 only */ 979 uint32_t resv24_29:6; 980 uint32_t rx_status:1; 981 uint32_t tx_status:1; 982 } mode_bits; 983 } nge_mode_cntl; 984 985 #define NGE_TX_DADR_HI 0x148 986 #define NGE_RX_DADR_HI 0x14c 987 988 /* 989 * Mii interrupt register 990 * Note: for mcp55, this is a 32-bit register. 991 */ 992 #define NGE_MINTR_SRC 0x180 993 typedef union _nge_mintr_src { 994 uint8_t src_val; 995 struct { 996 uint8_t mrei:1; 997 uint8_t mcc2:1; 998 uint8_t mcc1:1; 999 uint8_t mapi:1; 1000 uint8_t mpdi:1; 1001 uint8_t resv5_7:3; 1002 } src_bits; 1003 } nge_mintr_src; 1004 1005 /* 1006 * Mii interrupt mask 1007 * Note: for mcp55, this is a 32-bit register. 1008 */ 1009 #define NGE_MINTR_MASK 0x184 1010 typedef union _nge_mintr_mask { 1011 uint8_t mask_val; 1012 struct { 1013 uint8_t mrei:1; 1014 uint8_t mcc2:1; 1015 uint8_t mcc1:1; 1016 uint8_t mapi:1; 1017 uint8_t mpdi:1; 1018 uint8_t resv5_7:3; 1019 } mask_bits; 1020 } nge_mintr_mask; 1021 1022 /* 1023 * Mii control and status 1024 */ 1025 #define NGE_MII_CS 0x188 1026 #define MII_POLL_INTV 0x4 1027 typedef union _nge_mii_cs { 1028 uint32_t cs_val; 1029 struct { 1030 uint32_t excap:1; 1031 uint32_t jab_dec:1; 1032 uint32_t lk_up:1; 1033 uint32_t ana_cap:1; 1034 uint32_t rfault:1; 1035 uint32_t auto_neg:1; 1036 uint32_t mfps:1; 1037 uint32_t resv7:1; 1038 uint32_t exst:1; 1039 uint32_t hdup_100m_t2:1; 1040 uint32_t fdup_100m_t2:1; 1041 uint32_t hdup_10m:1; 1042 uint32_t fdup_10m:1; 1043 uint32_t hdup_100m_x:1; 1044 uint32_t fdup_100m_x:1; 1045 uint32_t cap_100m_t4:1; 1046 uint32_t ap_intv:4; 1047 uint32_t ap_en:1; 1048 uint32_t resv21_23:3; 1049 uint32_t ap_paddr:5; 1050 uint32_t resv29_31:3; 1051 } cs_bits; 1052 } nge_mii_cs; 1053 1054 /* 1055 * Mii Clock timer register 1056 */ 1057 #define NGE_MII_TM 0x18c 1058 typedef union _nge_mii_tm { 1059 uint16_t tm_val; 1060 struct { 1061 uint16_t timer_interv:8; 1062 uint16_t timer_en:1; 1063 uint16_t resv9_14:6; 1064 uint16_t timer_status:1; 1065 } tm_bits; 1066 } nge_mii_tm; 1067 1068 /* 1069 * Mdio address 1070 */ 1071 #define NGE_MDIO_ADR 0x190 1072 typedef union _nge_mdio_adr { 1073 uint16_t adr_val; 1074 struct { 1075 uint16_t phy_reg:5; 1076 uint16_t phy_adr:5; 1077 uint16_t mdio_rw:1; 1078 uint16_t resv11_14:4; 1079 uint16_t mdio_clc:1; 1080 } adr_bits; 1081 } nge_mdio_adr; 1082 1083 /* 1084 * Mdio data 1085 */ 1086 #define NGE_MDIO_DATA 0x194 1087 1088 /* 1089 * Power Management and Control 1090 */ 1091 #define NGE_PM_CNTL 0x200 1092 typedef union _nge_pm_cntl { 1093 uint32_t cntl_val; 1094 struct { 1095 /* 1096 * mp_en: Magic Packet Enable 1097 * pm_en: Pattern Match Enable 1098 * lc_en: Link Change Enable 1099 */ 1100 uint32_t mp_en_d0:1; 1101 uint32_t pm_en_d0:1; 1102 uint32_t lc_en_d0:1; 1103 uint32_t resv3:1; 1104 uint32_t mp_en_d1:1; 1105 uint32_t pm_en_d1:1; 1106 uint32_t lc_en_d1:1; 1107 uint32_t resv7:1; 1108 uint32_t mp_en_d2:1; 1109 uint32_t pm_en_d2:1; 1110 uint32_t lc_en_d2:1; 1111 uint32_t resv11:1; 1112 uint32_t mp_en_d3:1; 1113 uint32_t pm_en_d3:1; 1114 uint32_t lc_en_d3:1; 1115 uint32_t resv15:1; 1116 uint32_t pat_match_en:5; 1117 uint32_t resv21_23:3; 1118 uint32_t pat_match_stat:5; 1119 uint32_t magic_status:1; 1120 uint32_t netman_status:1; 1121 uint32_t resv31:1; 1122 } cntl_bits; 1123 } nge_pm_cntl; 1124 1125 #define NGE_MPT_CRC0 0x204 1126 #define NGE_PMC_MK00 0x208 1127 #define NGE_PMC_MK01 0x20C 1128 #define NGE_PMC_MK02 0x210 1129 #define NGE_PMC_MK03 0x214 1130 #define NGE_MPT_CRC1 0x218 1131 #define NGE_PMC_MK10 0x21c 1132 #define NGE_PMC_MK11 0x220 1133 #define NGE_PMC_MK12 0x224 1134 #define NGE_PMC_MK13 0x228 1135 #define NGE_MPT_CRC2 0x22c 1136 #define NGE_PMC_MK20 0x230 1137 #define NGE_PMC_MK21 0x234 1138 #define NGE_PMC_MK22 0x238 1139 #define NGE_PMC_MK23 0x23c 1140 #define NGE_MPT_CRC3 0x240 1141 #define NGE_PMC_MK30 0x244 1142 #define NGE_PMC_MK31 0x248 1143 #define NGE_PMC_MK32 0x24c 1144 #define NGE_PMC_MK33 0x250 1145 #define NGE_MPT_CRC4 0x254 1146 #define NGE_PMC_MK40 0x258 1147 #define NGE_PMC_MK41 0x25c 1148 #define NGE_PMC_MK42 0x260 1149 #define NGE_PMC_MK43 0x264 1150 #define NGE_PMC_ALIAS 0x268 1151 #define NGE_PMCSR_ALIAS 0x26c 1152 1153 /* 1154 * Seeprom control 1155 */ 1156 #define NGE_EP_CNTL 0x500 1157 #define EEPROM_CLKDIV 249 1158 #define EEPROM_WAITCLK 0x7 1159 typedef union _nge_cp_cntl { 1160 uint32_t cntl_val; 1161 struct { 1162 uint32_t clkdiv:8; 1163 uint32_t rom_size:3; 1164 uint32_t resv11:1; 1165 uint32_t word_wid:1; 1166 uint32_t resv13_15:3; 1167 uint32_t wait_slots:4; 1168 uint32_t resv20_31:12; 1169 } cntl_bits; 1170 } nge_cp_cntl; 1171 1172 /* 1173 * Seeprom cmd control 1174 */ 1175 #define NGE_EP_CMD 0x504 1176 #define SEEPROM_CMD_READ 0x0 1177 #define SEEPROM_CMD_WRITE_ENABLE 0x1 1178 #define SEEPROM_CMD_ERASE 0x2 1179 #define SEEPROM_CMD_WRITE 0x3 1180 #define SEEPROM_CMD_ERALSE_ALL 0x4 1181 #define SEEPROM_CMD_WRITE_ALL 0x5 1182 #define SEEPROM_CMD_WRITE_DIS 0x6 1183 #define SEEPROM_READY 0x1 1184 typedef union _nge_ep_cmd { 1185 uint32_t cmd_val; 1186 struct { 1187 uint32_t addr:16; 1188 uint32_t cmd:3; 1189 uint32_t resv19_30:12; 1190 uint32_t sts:1; 1191 } cmd_bits; 1192 } nge_ep_cmd; 1193 1194 /* 1195 * Seeprom data register 1196 */ 1197 #define NGE_EP_DATA 0x508 1198 typedef union _nge_ep_data { 1199 uint32_t data_val; 1200 struct { 1201 uint32_t data:16; 1202 uint32_t resv16_31:16; 1203 } data_bits; 1204 } nge_ep_data; 1205 1206 /* 1207 * Power management control 2nd register (since MCP51) 1208 */ 1209 #define NGE_PM_CNTL2 0x600 1210 typedef union _nge_pm_cntl2 { 1211 uint32_t cntl_val; 1212 struct { 1213 uint32_t phy_coma_set:1; 1214 uint32_t phy_coma_status:1; 1215 uint32_t resv2_3:2; 1216 uint32_t resv4:1; 1217 uint32_t resv5_7:3; 1218 uint32_t resv8_11:4; 1219 uint32_t resv12_15:4; 1220 uint32_t pmt5_en:1; 1221 uint32_t pmt6_en:1; 1222 uint32_t pmt7_en:1; 1223 uint32_t resv19_23:5; 1224 uint32_t pmt5_status:1; 1225 uint32_t pmt6_status:1; 1226 uint32_t pmt7_status:1; 1227 uint32_t resv27_31:5; 1228 } cntl_bits; 1229 } nge_pm_cntl2; 1230 1231 1232 /* 1233 * ASF RAM 0x800-0xfff 1234 */ 1235 1236 /* 1237 * Hardware-defined Statistics Block Offsets 1238 * 1239 * These are given in the manual as addresses in NIC memory, starting 1240 * from the NIC statistics area base address of 0x2000; 1241 */ 1242 1243 #define KS_BASE 0x0280 1244 #define KS_ADDR(x) (((x)-KS_BASE)/sizeof (uint32_t)) 1245 1246 typedef enum { 1247 KS_ifHOutOctets = KS_ADDR(0x0280), 1248 KS_ifHOutZeroRetranCount, 1249 KS_ifHOutOneRetranCount, 1250 KS_ifHOutMoreRetranCount, 1251 KS_ifHOutColCount, 1252 KS_ifHOutFifoovCount, 1253 KS_ifHOutLOCCount, 1254 KS_ifHOutExDecCount, 1255 KS_ifHOutRetryCount, 1256 1257 KS_ifHInFrameErrCount, 1258 KS_ifHInExtraOctErrCount, 1259 KS_ifHInLColErrCount, 1260 KS_ifHInRuntCount, 1261 KS_ifHInOversizeErrCount, 1262 KS_ifHInFovErrCount, 1263 KS_ifHInFCSErrCount, 1264 KS_ifHInAlignErrCount, 1265 KS_ifHInLenErrCount, 1266 KS_ifHInUniPktsCount, 1267 KS_ifHInBroadPksCount, 1268 KS_ifHInMulPksCount, 1269 KS_STATS_SIZE = KS_ADDR(0x2d0) 1270 1271 } nge_stats_offset_t; 1272 1273 /* 1274 * Hardware-defined Statistics Block 1275 * 1276 * Another view of the statistic block, as a array and a structure ... 1277 */ 1278 1279 typedef union { 1280 uint64_t a[KS_STATS_SIZE]; 1281 struct { 1282 uint64_t OutOctets; 1283 uint64_t OutZeroRetranCount; 1284 uint64_t OutOneRetranCount; 1285 uint64_t OutMoreRetranCount; 1286 uint64_t OutColCount; 1287 uint64_t OutFifoovCount; 1288 uint64_t OutLOCCount; 1289 uint64_t OutExDecCount; 1290 uint64_t OutRetryCount; 1291 1292 uint64_t InFrameErrCount; 1293 uint64_t InExtraOctErrCount; 1294 uint64_t InLColErrCount; 1295 uint64_t InRuntCount; 1296 uint64_t InOversizeErrCount; 1297 uint64_t InFovErrCount; 1298 uint64_t InFCSErrCount; 1299 uint64_t InAlignErrCount; 1300 uint64_t InLenErrCount; 1301 uint64_t InUniPktsCount; 1302 uint64_t InBroadPksCount; 1303 uint64_t InMulPksCount; 1304 } s; 1305 } nge_hw_statistics_t; 1306 1307 /* 1308 * MII (PHY) registers, beyond those already defined in <sys/miiregs.h> 1309 */ 1310 1311 #define NGE_PHY_NUMBER 32 1312 #define MII_LP_ASYM_PAUSE 0x0800 1313 #define MII_LP_PAUSE 0x0400 1314 1315 #define MII_100BASE_T4 0x0200 1316 #define MII_100BASET_FD 0x0100 1317 #define MII_100BASET_HD 0x0080 1318 #define MII_10BASET_FD 0x0040 1319 #define MII_10BASET_HD 0x0020 1320 1321 #define MII_ID_MARVELL 0x5043 1322 #define MII_ID_CICADA 0x03f1 1323 #define MII_IDL_MASK 0xfc00 1324 #define MII_AN_LPNXTPG 8 1325 1326 1327 #define MII_IEEE_EXT_STATUS 15 1328 1329 /* 1330 * New bits in the MII_CONTROL register 1331 */ 1332 #define MII_CONTROL_1000MB 0x0040 1333 1334 /* 1335 * Bits in the MII_1000BASE_T_CONTROL register 1336 * 1337 * The MASTER_CFG bit enables manual configuration of Master/Slave mode 1338 * (otherwise, roles are automatically negotiated). When this bit is set, 1339 * the MASTER_SEL bit forces Master mode, otherwise Slave mode is forced. 1340 */ 1341 #define MII_1000BASE_T_CONTROL 9 1342 #define MII_1000BT_CTL_MASTER_CFG 0x1000 /* enable role select */ 1343 #define MII_1000BT_CTL_MASTER_SEL 0x0800 /* role select bit */ 1344 #define MII_1000BT_CTL_ADV_FDX 0x0200 1345 #define MII_1000BT_CTL_ADV_HDX 0x0100 1346 1347 /* 1348 * Bits in the MII_1000BASE_T_STATUS register 1349 */ 1350 #define MII_1000BASE_T_STATUS 10 1351 #define MII_1000BT_STAT_MASTER_FAULT 0x8000 1352 #define MII_1000BT_STAT_MASTER_MODE 0x4000 1353 #define MII_1000BT_STAT_LCL_RCV_OK 0x2000 1354 #define MII_1000BT_STAT_RMT_RCV_OK 0x1000 1355 #define MII_1000BT_STAT_LP_FDX_CAP 0x0800 1356 #define MII_1000BT_STAT_LP_HDX_CAP 0x0400 1357 1358 #define MII_CICADA_BYPASS_CONTROL MII_VENDOR(2) 1359 #define CICADA_125MHZ_CLOCK_ENABLE 0x0001 1360 1361 #define MII_CICADA_10BASET_CONTROL MII_VENDOR(6) 1362 #define MII_CICADA_DISABLE_ECHO_MODE 0x2000 1363 1364 #define MII_CICADA_EXT_CONTROL MII_VENDOR(7) 1365 #define MII_CICADA_MODE_SELECT_BITS 0xf000 1366 #define MII_CICADA_MODE_SELECT_RGMII 0x1000 1367 #define MII_CICADA_POWER_SUPPLY_BITS 0x0e00 1368 #define MII_CICADA_POWER_SUPPLY_3_3V 0x0000 1369 #define MII_CICADA_POWER_SUPPLY_2_5V 0x0200 1370 1371 #define MII_CICADA_AUXCTRL_STATUS MII_VENDOR(12) 1372 #define MII_CICADA_PIN_PRORITY_SETTING 0x0004 1373 #define MII_CICADA_PIN_PRORITY_DEFAULT 0x0000 1374 1375 1376 #define NGE_REG_SIZE 0xfff 1377 #define NGE_MII_SIZE 0x20 1378 #define NGE_SEEROM_SIZE 0x800 1379 /* 1380 * Legacy rx's bd which does not support 1381 * any hardware offload 1382 */ 1383 typedef struct _legacy_rx_bd { 1384 uint32_t host_buf_addr; 1385 union { 1386 uint32_t cntl_val; 1387 struct { 1388 uint32_t bcnt:16; 1389 uint32_t end:1; 1390 uint32_t miss:1; 1391 uint32_t extra:1; 1392 uint32_t inten:1; 1393 uint32_t bam:1; 1394 uint32_t mam:1; 1395 uint32_t pam:1; 1396 uint32_t runt:1; 1397 uint32_t lcol:1; 1398 uint32_t max:1; 1399 uint32_t lfer:1; 1400 uint32_t crc:1; 1401 uint32_t ofol:1; 1402 uint32_t fram:1; 1403 uint32_t err:1; 1404 uint32_t own:1; 1405 } cntl_bits; 1406 } cntl_status; 1407 } legacy_rx_bd, *plegacy_rx_bd; 1408 1409 /* 1410 * Stand offload rx's bd which supports hareware checksum 1411 * for tcp/ip 1412 */ 1413 #define CK8G_NO_HSUM 0x0 1414 #define CK8G_TCP_SUM_ERR 0x1 1415 #define CK8G_UDP_SUM_ERR 0x2 1416 #define CK8G_IP_HSUM_ERR 0x3 1417 #define CK8G_IP_HSUM 0x4 1418 #define CK8G_TCP_SUM 0x5 1419 #define CK8G_UDP_SUM 0x6 1420 #define CK8G_RESV 0x7 1421 typedef struct _sum_rx_bd { 1422 uint32_t host_buf_addr; 1423 union { 1424 uint32_t cntl_val; 1425 struct { 1426 uint32_t bcnt:14; 1427 uint32_t resv14_29:16; 1428 uint32_t inten:1; 1429 uint32_t own:1; 1430 } control_bits; 1431 struct { 1432 uint32_t bcnt:14; 1433 uint32_t resv14:1; 1434 uint32_t bam:1; 1435 uint32_t mam:1; 1436 uint32_t pam:1; 1437 uint32_t runt:1; 1438 uint32_t lcol:1; 1439 uint32_t max:1; 1440 uint32_t lfer:1; 1441 uint32_t crc:1; 1442 uint32_t ofol:1; 1443 uint32_t fram:1; 1444 uint32_t extra:1; 1445 uint32_t l3_l4_sum:3; 1446 uint32_t rend:1; 1447 uint32_t err:1; 1448 uint32_t own:1; 1449 } status_bits; 1450 } cntl_status; 1451 } sum_rx_bd, *psum_rx_bd; 1452 /* 1453 * Hot offload rx's bd which support 64bit access and 1454 * full-tcp hardware offload 1455 */ 1456 typedef struct _hot_rx_bd { 1457 uint32_t host_buf_addr_hi; 1458 uint32_t host_buf_addr_lo; 1459 uint32_t sw_tag; 1460 union { 1461 uint32_t cntl_val; 1462 struct { 1463 uint32_t bcnt:14; 1464 uint32_t resv14_29:16; 1465 uint32_t inten:1; 1466 uint32_t own:1; 1467 } control_bits; 1468 1469 struct { 1470 uint32_t bcnt:14; 1471 uint32_t ctmach_rd:1; 1472 uint32_t bam:1; 1473 uint32_t mam:1; 1474 uint32_t pam:1; 1475 uint32_t runt:1; 1476 uint32_t lcol:1; 1477 uint32_t max:1; 1478 uint32_t lfer:1; 1479 uint32_t crc:1; 1480 uint32_t ofol:1; 1481 uint32_t fram:1; 1482 uint32_t extra:1; 1483 uint32_t l3_l4_sum:3; 1484 uint32_t rend:1; 1485 uint32_t err:1; 1486 uint32_t own:1; 1487 } status_bits_legacy; 1488 } cntl_status; 1489 } hot_rx_bd, *phot_rx_bd; 1490 1491 /* 1492 * Legacy tx's bd which does not support 1493 * any hardware offload 1494 */ 1495 typedef struct _legacy_tx_bd { 1496 uint32_t host_buf_addr; 1497 union { 1498 uint32_t cntl_val; 1499 struct { 1500 uint32_t bcnt:16; 1501 uint32_t end:1; 1502 uint32_t resv17_23:7; 1503 uint32_t inten:1; 1504 uint32_t resv25_30:6; 1505 uint32_t own:1; 1506 } control_bits; 1507 1508 struct { 1509 uint32_t bcnt:16; 1510 uint32_t end:1; 1511 uint32_t rtry:1; 1512 uint32_t trc:4; 1513 uint32_t inten:1; 1514 uint32_t exdef:1; 1515 uint32_t def:1; 1516 uint32_t lcar:1; 1517 uint32_t lcol:1; 1518 uint32_t uflo:1; 1519 uint32_t err:1; 1520 uint32_t own:1; 1521 } status_bits; 1522 } cntl_status; 1523 } legacy_tx_bd, *plegacy_tx_bd; 1524 1525 /* 1526 * Stand offload tx's bd which supports hareware checksum 1527 * for tcp/ip 1528 */ 1529 typedef struct _sum_tx_bd { 1530 uint32_t host_buf_addr; 1531 union { 1532 uint32_t cntl_val; 1533 struct { 1534 uint32_t bcnt:14; 1535 uint32_t resv14_25:12; 1536 uint32_t tcp_hsum:1; 1537 uint32_t ip_hsum:1; 1538 uint32_t segen:1; 1539 uint32_t end:1; 1540 uint32_t inten:1; 1541 uint32_t own:1; 1542 } control_sum_bits; 1543 1544 struct { 1545 uint32_t bcnt:14; 1546 uint32_t mss:14; 1547 uint32_t segen:1; 1548 uint32_t end:1; 1549 uint32_t inten:1; 1550 uint32_t own:1; 1551 } control_tso_bits; 1552 1553 struct { 1554 uint32_t bcnt:14; 1555 uint32_t resv14_17:4; 1556 uint32_t rtry:1; 1557 uint32_t trc:4; 1558 uint32_t inten:1; 1559 uint32_t exdef:1; 1560 uint32_t def:1; 1561 uint32_t lcar:1; 1562 uint32_t lcol:1; 1563 uint32_t uflo:1; 1564 uint32_t end:1; 1565 uint32_t err:1; 1566 uint32_t own:1; 1567 } status_bits; 1568 } control_status; 1569 } sum_tx_bd, *psum_tx_bd; 1570 1571 /* 1572 * Hot offload tx's bd which support 64bit access and 1573 * full-tcp hardware offload 1574 */ 1575 1576 typedef struct _hot_tx_bd { 1577 uint32_t host_buf_addr_hi; 1578 uint32_t host_buf_addr_lo; 1579 union { 1580 uint32_t parm_val; 1581 struct { 1582 uint32_t resv0_15:16; 1583 uint32_t resv16:1; 1584 uint32_t resv17:1; 1585 uint32_t resv18_31:14; 1586 } parm_bits; 1587 } hot_parms; 1588 1589 union { 1590 uint32_t cntl_val; 1591 struct { 1592 uint32_t bcnt:14; 1593 uint32_t resv14_25:12; 1594 uint32_t tcp_hsum:1; 1595 uint32_t ip_hsum:1; 1596 uint32_t segen:1; 1597 uint32_t end:1; 1598 uint32_t inten:1; 1599 uint32_t own:1; 1600 } control_sum_bits; 1601 1602 struct { 1603 uint32_t bcnt:14; 1604 uint32_t mss:14; 1605 uint32_t segen:1; 1606 uint32_t end:1; 1607 uint32_t inten:1; 1608 uint32_t own:1; 1609 } control_tso_bits; 1610 1611 struct { 1612 uint32_t bcnt:14; 1613 uint32_t resv14_17:4; 1614 uint32_t rtry:1; 1615 uint32_t trc:4; 1616 uint32_t inten:1; 1617 uint32_t exdef:1; 1618 uint32_t def:1; 1619 uint32_t lcar:1; 1620 uint32_t lcol:1; 1621 uint32_t uflo:1; 1622 uint32_t end:1; 1623 uint32_t err:1; 1624 uint32_t own:1; 1625 } status_bits; 1626 } control_status; 1627 } hot_tx_bd, *phot_tx_bd; 1628 1629 #ifdef __cplusplus 1630 } 1631 #endif 1632 1633 #endif /* _SYS_NGE_CHIP_H */ 1634