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 (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved. 24 */ 25 26 #ifndef _NV_SATA_H 27 #define _NV_SATA_H 28 29 30 #ifdef __cplusplus 31 extern "C" { 32 #endif 33 34 35 /* 36 * SGPIO Support 37 * Enable SGPIO support only on x86/x64, because it is implemented using 38 * functions that are only available on x86/x64. 39 */ 40 41 #define NV_MAX_PORTS(nvc) nvc->nvc_sata_hba_tran.sata_tran_hba_num_cports 42 43 typedef struct nv_port nv_port_t; 44 45 #ifdef SGPIO_SUPPORT 46 typedef struct nv_sgp_cmn nv_sgp_cmn_t; 47 #endif 48 49 /* 50 * sizes of strings to allocate 51 */ 52 #define NV_STR_LEN 10 53 #define NV_LOGBUF_LEN 512 54 #define NV_REASON_LEN 30 55 56 57 typedef struct nv_ctl { 58 /* 59 * Each of these are specific to the chipset in use. 60 */ 61 uint_t (*nvc_interrupt)(caddr_t arg1, caddr_t arg2); 62 void (*nvc_reg_init)(struct nv_ctl *nvc, 63 ddi_acc_handle_t pci_conf_handle); 64 65 dev_info_t *nvc_dip; /* devinfo pointer of controller */ 66 67 struct nv_port *nvc_port; /* array of pointers to port struct */ 68 69 /* 70 * handle and base address to register space. 71 * 72 * 0: port 0 task file 73 * 1: port 0 status 74 * 2: port 1 task file 75 * 3: port 1 status 76 * 4: bus master for both ports 77 * 5: extended registers for SATA features 78 */ 79 ddi_acc_handle_t nvc_bar_hdl[6]; 80 uchar_t *nvc_bar_addr[6]; 81 82 /* 83 * sata registers in bar 5 which are shared on all devices 84 * on the channel. 85 */ 86 uint32_t *nvc_mcp5x_ctl; 87 uint32_t *nvc_mcp5x_ncq; /* NCQ status control bits */ 88 89 kmutex_t nvc_mutex; /* ctrl level lock */ 90 91 ddi_intr_handle_t *nvc_htable; /* For array of interrupts */ 92 int nvc_intr_type; /* What type of interrupt */ 93 int nvc_intr_cnt; /* # of intrs count returned */ 94 size_t nvc_intr_size; /* Size of intr array to */ 95 uint_t nvc_intr_pri; /* Interrupt priority */ 96 int nvc_intr_cap; /* Interrupt capabilities */ 97 uint8_t *nvc_ck804_int_status; /* interrupt status ck804 */ 98 99 sata_hba_tran_t nvc_sata_hba_tran; /* sata_hba_tran for ctrl */ 100 101 /* 102 * enable/disable interrupts, controller specific 103 */ 104 void (*nvc_set_intr)(nv_port_t *nvp, int flag); 105 int nvc_state; /* state flags of ctrl see below */ 106 uint16_t nvc_devid; /* PCI devid of device */ 107 uint8_t nvc_revid; /* PCI revid of device */ 108 boolean_t dma_40bit; /* 40bit DMA support */ 109 boolean_t nvc_mcp5x_flag; /* is the controller MCP51/MCP55 */ 110 111 #ifdef SGPIO_SUPPORT 112 uint8_t nvc_ctlr_num; /* controller number within the part */ 113 uint32_t nvc_sgp_csr; /* SGPIO CSR i/o address */ 114 volatile nv_sgp_cb_t *nvc_sgp_cbp; /* SGPIO Control Block */ 115 nv_sgp_cmn_t *nvc_sgp_cmn; /* SGPIO shared data */ 116 #endif 117 } nv_ctl_t; 118 119 120 struct nv_port { 121 122 struct nv_ctl *nvp_ctlp; /* back pointer to controller */ 123 124 uint8_t nvp_port_num; /* port number, ie 0 or 1 */ 125 126 uint8_t nvp_type; /* SATA_DTYPE_{NONE,ATADISK,UNKNOWN} */ 127 uint32_t nvp_signature; /* sig acquired from task file regs */ 128 uchar_t *nvp_cmd_addr; /* base addr for cmd regs for port */ 129 uchar_t *nvp_bm_addr; /* base addr for bus master for port */ 130 uchar_t *nvp_ctl_addr; /* base addr for ctrl regs for port */ 131 132 ddi_acc_handle_t nvp_cmd_hdl; 133 uchar_t *nvp_data; /* data register */ 134 uchar_t *nvp_error; /* error register (read) */ 135 uchar_t *nvp_feature; /* features (write) */ 136 uchar_t *nvp_count; /* sector count */ 137 uchar_t *nvp_sect; /* sector number */ 138 uchar_t *nvp_lcyl; /* cylinder low byte */ 139 uchar_t *nvp_hcyl; /* cylinder high byte */ 140 uchar_t *nvp_drvhd; /* drive/head register */ 141 uchar_t *nvp_status; /* status/command register */ 142 uchar_t *nvp_cmd; /* status/command register */ 143 144 ddi_acc_handle_t nvp_ctl_hdl; 145 uchar_t *nvp_altstatus; /* alternate status (read) */ 146 uchar_t *nvp_devctl; /* device control (write) */ 147 148 ddi_acc_handle_t nvp_bm_hdl; 149 uchar_t *nvp_bmisx; 150 uint32_t *nvp_bmidtpx; 151 uchar_t *nvp_bmicx; 152 153 ddi_dma_handle_t *nvp_sg_dma_hdl; /* dma handle to prd table */ 154 caddr_t *nvp_sg_addr; /* virtual addr of prd table */ 155 uint32_t *nvp_sg_paddr; /* physical address of prd table */ 156 ddi_acc_handle_t *nvp_sg_acc_hdl; /* mem acc handle to the prd table */ 157 158 uint32_t *nvp_sstatus; 159 uint32_t *nvp_serror; 160 uint32_t *nvp_sctrl; 161 uint32_t *nvp_sactive; 162 163 kmutex_t nvp_mutex; /* main per port mutex */ 164 kcondvar_t nvp_sync_cv; /* handshake btwn ISR and start thrd */ 165 kcondvar_t nvp_reset_cv; /* when reset is synchronous */ 166 167 /* 168 * nvp_slot is a pointer to an array of nv_slot 169 */ 170 struct nv_slot *nvp_slot; 171 uint32_t nvp_sactive_cache; /* cache of SACTIVE */ 172 uint8_t nvp_queue_depth; 173 174 /* 175 * NCQ flow control. During NCQ operation, no other commands 176 * allowed. The following are used to enforce this. 177 */ 178 int nvp_ncq_run; 179 int nvp_non_ncq_run; 180 int nvp_seq; 181 182 timeout_id_t nvp_timeout_id; 183 184 clock_t nvp_reset_time; /* time of last reset */ 185 clock_t nvp_link_event_time; /* time of last plug event */ 186 int nvp_reset_retry_count; 187 clock_t nvp_wait_sig; /* wait before rechecking sig */ 188 189 int nvp_state; /* state of port. flags defined below */ 190 191 uint16_t *nvp_mcp5x_int_status; 192 uint16_t *nvp_mcp5x_int_ctl; 193 194 #ifdef SGPIO_SUPPORT 195 uint8_t nvp_sgp_ioctl_mod; /* LEDs modified by ioctl */ 196 #endif 197 clock_t nvp_timeout_duration; 198 199 200 /* 201 * debug and statistical information 202 */ 203 clock_t nvp_rem_time; 204 clock_t nvp_add_time; 205 clock_t nvp_trans_link_time; 206 int nvp_trans_link_count; 207 208 uint8_t nvp_last_cmd; 209 uint8_t nvp_previous_cmd; 210 int nvp_reset_count; 211 char nvp_first_reset_reason[NV_REASON_LEN]; 212 char nvp_reset_reason[NV_REASON_LEN]; 213 clock_t intr_duration; /* max length of port intr (ticks) */ 214 clock_t intr_start_time; 215 int intr_loop_cnt; 216 }; 217 218 219 typedef struct nv_device_table { 220 ushort_t vendor_id; /* vendor id */ 221 ushort_t device_id; /* device id */ 222 ushort_t type; /* chipset type, ck804 or mcp51/mcp55 */ 223 } nv_device_table_t; 224 225 226 typedef struct nv_slot { 227 caddr_t nvslot_v_addr; /* I/O buffer address */ 228 size_t nvslot_byte_count; /* # bytes left to read/write */ 229 sata_pkt_t *nvslot_spkt; 230 uint8_t nvslot_rqsense_buff[SATA_ATAPI_RQSENSE_LEN]; 231 clock_t nvslot_stime; 232 int (*nvslot_start)(nv_port_t *nvp, int queue); 233 void (*nvslot_intr)(nv_port_t *nvp, 234 struct nv_slot *nv_slotp); 235 uint32_t nvslot_flags; 236 } nv_slot_t; 237 238 239 #ifdef SGPIO_SUPPORT 240 struct nv_sgp_cmn { 241 uint8_t nvs_in_use; /* bit-field of active ctlrs */ 242 uint8_t nvs_connected; /* port connected bit-field flag */ 243 uint8_t nvs_activity; /* port usage bit-field flag */ 244 int nvs_cbp; /* SGPIO Control Block Pointer */ 245 int nvs_taskq_delay; /* rest time for activity LED taskq */ 246 kmutex_t nvs_slock; /* lock for shared data */ 247 kmutex_t nvs_tlock; /* lock for taskq */ 248 kcondvar_t nvs_cv; /* condition variable for taskq wait */ 249 ddi_taskq_t *nvs_taskq; /* activity LED taskq */ 250 }; 251 252 struct nv_sgp_cbp2cmn { 253 uint32_t c2cm_cbp; /* ctlr block ptr from pci cfg space */ 254 nv_sgp_cmn_t *c2cm_cmn; /* point to common space */ 255 }; 256 #endif 257 258 259 /* 260 * nvslot_flags 261 */ 262 #define NVSLOT_COMPLETE 0x01 263 #define NVSLOT_NCQ 0x02 /* NCQ is active */ 264 #define NVSLOT_RQSENSE 0x04 /* processing request sense */ 265 266 /* 267 * state values for nv_attach 268 */ 269 #define ATTACH_PROGRESS_NONE (1 << 0) 270 #define ATTACH_PROGRESS_STATEP_ALLOC (1 << 1) 271 #define ATTACH_PROGRESS_PCI_HANDLE (1 << 2) 272 #define ATTACH_PROGRESS_BARS (1 << 3) 273 #define ATTACH_PROGRESS_INTR_ADDED (1 << 4) 274 #define ATTACH_PROGRESS_MUTEX_INIT (1 << 5) 275 #define ATTACH_PROGRESS_CTL_SETUP (1 << 6) 276 #define ATTACH_PROGRESS_TRAN_SETUP (1 << 7) 277 #define ATTACH_PROGRESS_COUNT (1 << 8) 278 #define ATTACH_PROGRESS_CONF_HANDLE (1 << 9) 279 #define ATTACH_PROGRESS_SATA_MODULE (1 << 10) 280 281 #ifdef DEBUG 282 283 #define NV_DEBUG 1 284 285 #endif /* DEBUG */ 286 287 288 /* 289 * nv_debug_flags 290 */ 291 #define NVDBG_ALWAYS 0x00001 292 #define NVDBG_INIT 0x00002 293 #define NVDBG_ENTRY 0x00004 294 #define NVDBG_DELIVER 0x00008 295 #define NVDBG_EVENT 0x00010 296 #define NVDBG_SYNC 0x00020 297 #define NVDBG_PKTCOMP 0x00040 298 #define NVDBG_TIMEOUT 0x00080 299 #define NVDBG_INFO 0x00100 300 #define NVDBG_VERBOSE 0x00200 301 #define NVDBG_INTR 0x00400 302 #define NVDBG_ERRS 0x00800 303 #define NVDBG_COOKIES 0x01000 304 #define NVDBG_HOT 0x02000 305 #define NVDBG_RESET 0x04000 306 #define NVDBG_ATAPI 0x08000 307 308 #define NVLOG(flag, nvc, nvp, fmt, args ...) \ 309 if (nv_debug_flags & (flag)) { \ 310 nv_log(nvc, nvp, fmt, ## args); \ 311 } 312 313 314 #define NV_SUCCESS 0 315 #define NV_FAILURE -1 316 317 /* 318 * indicates whether nv_wait functions can sleep or not. 319 */ 320 #define NV_SLEEP 1 321 #define NV_NOSLEEP 2 322 323 324 /* 325 * port offsets from base address ioaddr1 326 */ 327 #define NV_DATA 0x00 /* data register */ 328 #define NV_ERROR 0x01 /* error register (read) */ 329 #define NV_FEATURE 0x01 /* features (write) */ 330 #define NV_COUNT 0x02 /* sector count */ 331 #define NV_SECT 0x03 /* sector number */ 332 #define NV_LCYL 0x04 /* cylinder low byte */ 333 #define NV_HCYL 0x05 /* cylinder high byte */ 334 #define NV_DRVHD 0x06 /* drive/head register */ 335 #define NV_STATUS 0x07 /* status/command register */ 336 #define NV_CMD 0x07 /* status/command register */ 337 338 /* 339 * port offsets from base address ioaddr2 340 */ 341 #define NV_ALTSTATUS 0x02 /* alternate status (read) */ 342 #define NV_DEVCTL 0x02 /* device control (write) */ 343 344 /* 345 * device control register 346 */ 347 #define ATDC_NIEN 0x02 /* disable interrupts */ 348 #define ATDC_SRST 0x04 /* controller reset */ 349 #define ATDC_D3 0x08 /* mysterious bit */ 350 #define ATDC_HOB 0x80 /* high order byte to read 48-bit values */ 351 352 /* 353 * MCP5x NCQ and INTR control registers 354 */ 355 #define MCP5X_CTL 0x400 /* queuing control */ 356 #define MCP5X_INT_STATUS 0x440 /* status bits for interrupt */ 357 #define MCP5X_INT_CTL 0x444 /* enable bits for interrupt */ 358 #define MCP5X_NCQ 0x448 /* NCQ status and ctrl bits */ 359 360 /* 361 * if either of these bits are set, when using NCQ, if no other commands are 362 * active while a new command is started, DMA engine can be programmed ahead 363 * of time to save extra interrupt. Presumably pre-programming is discarded 364 * if a subsequent command ends up finishing first. 365 */ 366 #define MCP_SATA_AE_NCQ_PDEV_FIRST_CMD (1 << 7) 367 #define MCP_SATA_AE_NCQ_SDEV_FIRST_CMD (1 << 23) 368 369 /* 370 * bit definitions to indicate which NCQ command requires 371 * DMA setup. 372 */ 373 #define MCP_SATA_AE_NCQ_PDEV_DMA_SETUP_TAG_SHIFT 2 374 #define MCP_SATA_AE_NCQ_SDEV_DMA_SETUP_TAG_SHIFT 18 375 #define MCP_SATA_AE_NCQ_DMA_SETUP_TAG_MASK 0x1f 376 377 378 /* 379 * Bits for NV_MCP5X_INT_CTL and NV_MCP5X_INT_STATUS 380 */ 381 #define MCP5X_INT_SNOTIFY 0x200 /* snotification set */ 382 #define MCP5X_INT_SERROR 0x100 /* serror set */ 383 #define MCP5X_INT_DMA_SETUP 0x80 /* DMA to be programmed */ 384 #define MCP5X_INT_DH_REGFIS 0x40 /* REGFIS received */ 385 #define MCP5X_INT_SDB_FIS 0x20 /* SDB FIS */ 386 #define MCP5X_INT_TX_BACKOUT 0x10 /* TX backout */ 387 #define MCP5X_INT_REM 0x08 /* device removed */ 388 #define MCP5X_INT_ADD 0x04 /* device added */ 389 #define MCP5X_INT_PM 0x02 /* power changed */ 390 #define MCP5X_INT_COMPLETE 0x01 /* device interrupt */ 391 392 /* 393 * Bits above that are not used for now. 394 */ 395 #define MCP5X_INT_IGNORE (MCP5X_INT_DMA_SETUP|MCP5X_INT_DH_REGFIS|\ 396 MCP5X_INT_SDB_FIS|MCP5X_INT_TX_BACKOUT|MCP5X_INT_PM|\ 397 MCP5X_INT_SNOTIFY|MCP5X_INT_SERROR) 398 399 /* 400 * Bits for MCP_SATA_AE_CTL 401 */ 402 #define MCP_SATA_AE_CTL_PRI_SWNCQ (1 << 1) /* software NCQ chan 0 */ 403 #define MCP_SATA_AE_CTL_SEC_SWNCQ (1 << 2) /* software NCQ chan 1 */ 404 405 #define NV_DELAY_NSEC(wait_ns) \ 406 { \ 407 hrtime_t start, end; \ 408 start = end = gethrtime(); \ 409 while ((end - start) < wait_ns) \ 410 end = gethrtime(); \ 411 } 412 413 /* 414 * signature in task file registers after device reset 415 */ 416 #define NV_DISK_SIG 0x00000101 417 #define NV_ATAPI_SIG 0xeb140101 418 #define NV_PM_SIG 0x96690101 419 #define NV_NO_SIG 0x00000000 420 421 /* 422 * These bar5 offsets are common to mcp51/mcp55/ck804 and thus 423 * prefixed with NV. 424 */ 425 #define NV_SSTATUS 0x00 426 #define NV_SERROR 0x04 427 #define NV_SCTRL 0x08 428 #define NV_SACTIVE 0x0c 429 #define NV_SNOTIFICATION 0x10 430 431 #define CH0_SREG_OFFSET 0x0 432 #define CH1_SREG_OFFSET 0x40 433 434 435 /* 436 * The following config space offsets are needed to enable 437 * bar 5 register access in ck804/mcp51/mcp55 438 */ 439 #define NV_SATA_CFG_20 0x50 440 #define NV_BAR5_SPACE_EN 0x04 441 #define NV_40BIT_PRD 0x20 442 443 #define NV_SATA_CFG_23 0x60 444 445 /* 446 * ck804 interrupt status register 447 */ 448 449 /* 450 * offsets to bar 5 registers 451 */ 452 #define CK804_SATA_INT_STATUS 0x440 453 #define CK804_SATA_INT_EN 0x441 454 455 456 /* 457 * bit fields for int status and int enable 458 * registers 459 */ 460 #define CK804_INT_PDEV_INT 0x01 /* completion interrupt */ 461 #define CK804_INT_PDEV_PM 0x02 /* power change */ 462 #define CK804_INT_PDEV_ADD 0x04 /* hot plug */ 463 #define CK804_INT_PDEV_REM 0x08 /* hot remove */ 464 #define CK804_INT_PDEV_HOT CK804_INT_PDEV_ADD|CK804_INT_PDEV_REM 465 466 #define CK804_INT_SDEV_INT 0x10 /* completion interrupt */ 467 #define CK804_INT_SDEV_PM 0x20 /* power change */ 468 #define CK804_INT_SDEV_ADD 0x40 /* hot plug */ 469 #define CK804_INT_SDEV_REM 0x80 /* hot remove */ 470 #define CK804_INT_SDEV_HOT CK804_INT_SDEV_ADD|CK804_INT_SDEV_REM 471 472 #define CK804_INT_PDEV_ALL CK804_INT_PDEV_INT|CK804_INT_PDEV_HOT|\ 473 CK804_INT_PDEV_PM 474 #define CK804_INT_SDEV_ALL CK804_INT_SDEV_INT|CK804_INT_SDEV_HOT|\ 475 CK804_INT_SDEV_PM 476 477 /* 478 * config space offset 42 479 */ 480 #define NV_SATA_CFG_42 0xac 481 482 /* 483 * bit in CFG_42 which delays hotplug interrupt until 484 * PHY ready 485 */ 486 #define CK804_CFG_DELAY_HOTPLUG_INTR (0x1 << 12) 487 488 489 /* 490 * bar 5 offsets for SATA registers in ck804 491 */ 492 #define CK804_CH1_SSTATUS 0x00 493 #define CK804_CH1_SERROR 0x04 494 #define CK804_CH1_SCTRL 0x08 495 #define CK804_CH1_SACTIVE 0x0c 496 #define CK804_CH1_SNOTIFICATION 0x10 497 498 #define CK804_CH2_SSTATUS 0x40 499 #define CK804_CH2_SERROR 0x44 500 #define CK804_CH2_SCTRL 0x48 501 #define CK804_CH2_SACTIVE 0x4c 502 #define CK804_CH2_SNOTIFICATION 0x50 503 504 505 /* 506 * bar 5 offsets for ADMACTL settings for both ck804/mcp51/mcp/55 507 */ 508 #define NV_ADMACTL_X 0x4C0 509 #define NV_ADMACTL_Y 0x5C0 510 511 /* 512 * Bits for NV_ADMACTL_X and NV_ADMACTL_Y 513 */ 514 #define NV_HIRQ_EN 0x01 /* hot plug/unplug interrupt enable */ 515 #define NV_CH_RST 0x04 /* reset channel */ 516 517 518 /* 519 * bar 5 offset for ADMASTAT regs for ck804 520 */ 521 #define CK804_ADMASTAT_X 0x4C4 522 #define CK804_ADMASTAT_Y 0x5C4 523 524 /* 525 * Bits for CK804_ADMASTAT_X and CK804_ADMASTAT_Y 526 */ 527 #define CK804_HPIRQ 0x4 528 #define MCP05_HUIRQ 0x2 529 530 531 /* 532 * bar 4 offset to bus master command registers 533 */ 534 #define BMICX_REG 0 535 536 /* 537 * bit definitions for BMICX_REG 538 */ 539 #define BMICX_SSBM 0x01 /* Start/Stop Bus Master */ 540 /* 1=Start (Enable) */ 541 /* 0=Start (Disable) */ 542 543 /* 544 * NOTE: "read" and "write" are the actions of the DMA engine 545 * on the PCI bus, not the SATA bus. Therefore for a ATA READ 546 * command, program the DMA engine to "write to memory" mode 547 * (and vice versa). 548 */ 549 #define BMICX_RWCON 0x08 /* Read/Write Control */ 550 #define BMICX_RWCON_WRITE_TO_MEMORY 0x08 /* 1=Write (dev to host) */ 551 #define BMICX_RWCON_READ_FROM_MEMORY 0x00 /* 0=Read (host to dev) */ 552 553 /* 554 * BMICX bits to preserve during updates 555 */ 556 #define BMICX_MASK (~(BMICX_SSBM | BMICX_RWCON)) 557 558 /* 559 * bar 4 offset to bus master status register 560 */ 561 #define BMISX_REG 2 562 563 /* 564 * bit fields for bus master status register 565 */ 566 #define BMISX_BMIDEA 0x01 /* Bus Master IDE Active */ 567 #define BMISX_IDERR 0x02 /* IDE DMA Error */ 568 #define BMISX_IDEINTS 0x04 /* IDE Interrupt Status */ 569 570 /* 571 * bus master status register bits to preserve 572 */ 573 #define BMISX_MASK 0xf8 574 575 /* 576 * bar4 offset to bus master PRD descriptor table 577 */ 578 #define BMIDTPX_REG 4 579 580 581 /* 582 * structure for a single entry in the PRD table 583 * (physical region descriptor table) 584 */ 585 typedef struct prde { 586 uint32_t p_address; /* physical address */ 587 uint32_t p_count; /* byte count, EOT in high order bit */ 588 } prde_t; 589 590 591 #define PRDE_EOT ((uint_t)0x80000000) 592 593 #define NV_DMA_NSEGS 257 /* at least 1MB (4KB/pg * 256) + 1 if misaligned */ 594 595 /* 596 * ck804 and mcp55 both have 2 ports per controller 597 */ 598 #define NV_NUM_PORTS 2 599 600 /* 601 * Number of slots to allocate in data nv_sata structures to handle 602 * multiple commands at once. This does not reflect the capability of 603 * the drive or the hardware, and in many cases will not match. 604 * 1 or 32 slots are allocated, so in cases where the driver has NCQ 605 * enabled but the drive doesn't support it, or supports fewer than 606 * 32 slots, here may be an over allocation of memory. 607 */ 608 #ifdef NCQ 609 #define NV_QUEUE_SLOTS 32 610 #else 611 #define NV_QUEUE_SLOTS 1 612 #endif 613 614 #define NV_BM_64K_BOUNDARY 0x10000ull 615 616 #define NV_MAX_INTR_PER_DEV 20 /* Empirical value */ 617 618 /* 619 * 1 second (in microseconds) 620 */ 621 #define NV_ONE_SEC 1000000 622 623 /* 624 * 1 millisecond (in microseconds) 625 */ 626 #define NV_ONE_MSEC 1000 627 628 /* 629 * initial wait before checking for signature, in microseconds 630 */ 631 #define NV_WAIT_SIG 2500 632 633 634 /* 635 * Length of port reset (microseconds) - SControl bit 0 set to 1 636 */ 637 #define NV_RESET_LENGTH 1000 638 639 /* 640 * the maximum number of comresets to issue while 641 * performing link reset in nv_reset() 642 */ 643 #define NV_COMRESET_ATTEMPTS 3 644 645 /* 646 * amount of time to wait for a signature in reset, in ms, before 647 * issuing another reset 648 */ 649 #define NV_RETRY_RESET_SIG 5000 650 651 /* 652 * the maximum number of resets to issue to gather signature 653 * before giving up 654 */ 655 #define NV_MAX_RESET_RETRY 8 656 657 /* 658 * amount of time (us) to wait after receiving a link event 659 * before acting on it. This is because of flakey hardware 660 * sometimes issues the wrong, multiple, or out of order link 661 * events. 662 */ 663 #define NV_LINK_EVENT_SETTLE 500000 664 665 /* 666 * The amount of time (ms) a link can be missing 667 * before declaring it removed. 668 */ 669 #define NV_LINK_EVENT_DOWN 200 670 671 /* 672 * nvp_state flags 673 */ 674 #define NV_DEACTIVATED 0x001 675 #define NV_ABORTING 0x002 676 #define NV_FAILED 0x004 677 #define NV_RESET 0x008 678 #define NV_RESTORE 0x010 679 #define NV_LINK_EVENT 0x020 680 #define NV_ATTACH 0x040 681 #define NV_HOTPLUG 0x080 682 683 684 /* 685 * flags for nv_report_link_event() 686 */ 687 #define NV_ADD_DEV 0 688 #define NV_REM_DEV 1 689 690 /* 691 * nvc_state flags 692 */ 693 #define NV_CTRL_SUSPEND 0x1 694 695 696 /* 697 * flags for ck804_set_intr/mcp5x_set_intr 698 */ 699 #define NV_INTR_DISABLE 0x1 700 #define NV_INTR_ENABLE 0x2 701 #define NV_INTR_CLEAR_ALL 0x4 702 #define NV_INTR_DISABLE_NON_BLOCKING 0x8 703 704 705 #define NV_BYTES_PER_SEC 512 706 707 #define NV_WAIT_REG_CHECK 10 /* 10 microseconds */ 708 #define NV_ATA_NUM_CMDS 256 /* max num ATA cmds possible, 8 bits */ 709 #define NV_PRINT_INTERVAL 40 /* throttle debug msg from flooding */ 710 #define MCP5X_INT_CLEAR 0xffff /* clear all interrupts */ 711 712 /* 713 * definition labels for the BAR registers 714 */ 715 #define NV_BAR_0 0 /* chan 0 task file regs */ 716 #define NV_BAR_1 1 /* chan 0 status reg */ 717 #define NV_BAR_2 2 /* chan 1 task file regs */ 718 #define NV_BAR_3 3 /* chan 1 status reg */ 719 #define NV_BAR_4 4 /* bus master regs */ 720 #define NV_BAR_5 5 /* extra regs mostly SATA related */ 721 722 /* 723 * transform seconds to microseconds 724 */ 725 #define NV_SEC2USEC(x) x * MICROSEC 726 727 728 /* 729 * ck804 maps in task file regs into bar 5. These are 730 * only used to identify ck804, therefore only this reg is 731 * listed here. 732 */ 733 #define NV_BAR5_TRAN_LEN_CH_X 0x518 734 735 /* 736 * if after this many iterations through the interrupt 737 * processing loop, declare the interrupt wedged and 738 * disable. 739 */ 740 #define NV_MAX_INTR_LOOP 10 741 742 /* 743 * flag values for nv_copy_regs_out 744 */ 745 #define NV_COPY_COMPLETE 0x01 /* normal command completion */ 746 #define NV_COPY_ERROR 0x02 /* error, did not complete ok */ 747 #define NV_COPY_SSREGS 0x04 /* SS port registers */ 748 749 #ifdef SGPIO_SUPPORT 750 #define NV_MAX_CBPS 16 /* Maximum # of Control Block */ 751 /* Pointers. Corresponds to */ 752 /* each MCP55 and IO55 */ 753 #define SGPIO_LOOP_WAIT_USECS 62500 /* 1/16 second (in usecs) */ 754 #define SGPIO_TQ_NAME_LEN 32 755 756 /* 757 * The drive number format is ccp (binary). 758 * cc is the controller number (0-based number) 759 * p is the port number (0 or 1) 760 */ 761 #define SGP_DRV_TO_PORT(d) ((d) & 1) 762 #define SGP_DRV_TO_CTLR(d) ((d) >> 1) 763 #define SGP_CTLR_PORT_TO_DRV(c, p) (((c) << 1) | ((p) & 1)) 764 #endif 765 766 #ifdef __cplusplus 767 } 768 #endif 769 770 #endif /* _NV_SATA_H */ 771