1 // SPDX-License-Identifier: GPL-2.0-or-later 2 /* 3 * Device driver for the SYMBIOS/LSILOGIC 53C8XX and 53C1010 family 4 * of PCI-SCSI IO processors. 5 * 6 * Copyright (C) 1999-2001 Gerard Roudier <groudier@free.fr> 7 * 8 * This driver is derived from the Linux sym53c8xx driver. 9 * Copyright (C) 1998-2000 Gerard Roudier 10 * 11 * The sym53c8xx driver is derived from the ncr53c8xx driver that had been 12 * a port of the FreeBSD ncr driver to Linux-1.2.13. 13 * 14 * The original ncr driver has been written for 386bsd and FreeBSD by 15 * Wolfgang Stanglmeier <wolf@cologne.de> 16 * Stefan Esser <se@mi.Uni-Koeln.de> 17 * Copyright (C) 1994 Wolfgang Stanglmeier 18 * 19 * Other major contributions: 20 * 21 * NVRAM detection and reading. 22 * Copyright (C) 1997 Richard Waltham <dormouse@farsrobt.demon.co.uk> 23 * 24 *----------------------------------------------------------------------------- 25 */ 26 27 #include "sym_glue.h" 28 29 /* 30 * Macros used for all firmwares. 31 */ 32 #define SYM_GEN_A(s, label) ((short) offsetof(s, label)), 33 #define SYM_GEN_B(s, label) ((short) offsetof(s, label)), 34 #define SYM_GEN_Z(s, label) ((short) offsetof(s, label)), 35 #define PADDR_A(label) SYM_GEN_PADDR_A(struct SYM_FWA_SCR, label) 36 #define PADDR_B(label) SYM_GEN_PADDR_B(struct SYM_FWB_SCR, label) 37 38 39 #if SYM_CONF_GENERIC_SUPPORT 40 /* 41 * Allocate firmware #1 script area. 42 */ 43 #define SYM_FWA_SCR sym_fw1a_scr 44 #define SYM_FWB_SCR sym_fw1b_scr 45 #define SYM_FWZ_SCR sym_fw1z_scr 46 #include "sym_fw1.h" 47 static struct sym_fwa_ofs sym_fw1a_ofs = { 48 SYM_GEN_FW_A(struct SYM_FWA_SCR) 49 }; 50 static struct sym_fwb_ofs sym_fw1b_ofs = { 51 SYM_GEN_FW_B(struct SYM_FWB_SCR) 52 }; 53 static struct sym_fwz_ofs sym_fw1z_ofs = { 54 SYM_GEN_FW_Z(struct SYM_FWZ_SCR) 55 }; 56 #undef SYM_FWA_SCR 57 #undef SYM_FWB_SCR 58 #undef SYM_FWZ_SCR 59 #endif /* SYM_CONF_GENERIC_SUPPORT */ 60 61 /* 62 * Allocate firmware #2 script area. 63 */ 64 #define SYM_FWA_SCR sym_fw2a_scr 65 #define SYM_FWB_SCR sym_fw2b_scr 66 #define SYM_FWZ_SCR sym_fw2z_scr 67 #include "sym_fw2.h" 68 static struct sym_fwa_ofs sym_fw2a_ofs = { 69 SYM_GEN_FW_A(struct SYM_FWA_SCR) 70 }; 71 static struct sym_fwb_ofs sym_fw2b_ofs = { 72 SYM_GEN_FW_B(struct SYM_FWB_SCR) 73 SYM_GEN_B(struct SYM_FWB_SCR, start64) 74 SYM_GEN_B(struct SYM_FWB_SCR, pm_handle) 75 }; 76 static struct sym_fwz_ofs sym_fw2z_ofs = { 77 SYM_GEN_FW_Z(struct SYM_FWZ_SCR) 78 }; 79 #undef SYM_FWA_SCR 80 #undef SYM_FWB_SCR 81 #undef SYM_FWZ_SCR 82 83 #undef SYM_GEN_A 84 #undef SYM_GEN_B 85 #undef SYM_GEN_Z 86 #undef PADDR_A 87 #undef PADDR_B 88 89 #if SYM_CONF_GENERIC_SUPPORT 90 /* 91 * Patch routine for firmware #1. 92 */ 93 static void 94 sym_fw1_patch(struct Scsi_Host *shost) 95 { 96 struct sym_hcb *np = sym_get_hcb(shost); 97 struct sym_fw1a_scr *scripta0; 98 struct sym_fw1b_scr *scriptb0; 99 100 scripta0 = (struct sym_fw1a_scr *) np->scripta0; 101 scriptb0 = (struct sym_fw1b_scr *) np->scriptb0; 102 103 /* 104 * Remove LED support if not needed. 105 */ 106 if (!(np->features & FE_LED0)) { 107 scripta0->idle[0] = cpu_to_scr(SCR_NO_OP); 108 scripta0->reselected[0] = cpu_to_scr(SCR_NO_OP); 109 scripta0->start[0] = cpu_to_scr(SCR_NO_OP); 110 } 111 112 #ifdef SYM_CONF_IARB_SUPPORT 113 /* 114 * If user does not want to use IMMEDIATE ARBITRATION 115 * when we are reselected while attempting to arbitrate, 116 * patch the SCRIPTS accordingly with a SCRIPT NO_OP. 117 */ 118 if (!SYM_CONF_SET_IARB_ON_ARB_LOST) 119 scripta0->ungetjob[0] = cpu_to_scr(SCR_NO_OP); 120 #endif 121 /* 122 * Patch some data in SCRIPTS. 123 * - start and done queue initial bus address. 124 * - target bus address table bus address. 125 */ 126 scriptb0->startpos[0] = cpu_to_scr(np->squeue_ba); 127 scriptb0->done_pos[0] = cpu_to_scr(np->dqueue_ba); 128 scriptb0->targtbl[0] = cpu_to_scr(np->targtbl_ba); 129 } 130 #endif /* SYM_CONF_GENERIC_SUPPORT */ 131 132 /* 133 * Patch routine for firmware #2. 134 */ 135 static void 136 sym_fw2_patch(struct Scsi_Host *shost) 137 { 138 struct sym_data *sym_data = shost_priv(shost); 139 struct pci_dev *pdev = sym_data->pdev; 140 struct sym_hcb *np = sym_data->ncb; 141 struct sym_fw2a_scr *scripta0; 142 struct sym_fw2b_scr *scriptb0; 143 144 scripta0 = (struct sym_fw2a_scr *) np->scripta0; 145 scriptb0 = (struct sym_fw2b_scr *) np->scriptb0; 146 147 /* 148 * Remove LED support if not needed. 149 */ 150 if (!(np->features & FE_LED0)) { 151 scripta0->idle[0] = cpu_to_scr(SCR_NO_OP); 152 scripta0->reselected[0] = cpu_to_scr(SCR_NO_OP); 153 scripta0->start[0] = cpu_to_scr(SCR_NO_OP); 154 } 155 156 #if SYM_CONF_DMA_ADDRESSING_MODE == 2 157 /* 158 * Remove useless 64 bit DMA specific SCRIPTS, 159 * when this feature is not available. 160 */ 161 if (!use_dac(np)) { 162 scripta0->is_dmap_dirty[0] = cpu_to_scr(SCR_NO_OP); 163 scripta0->is_dmap_dirty[1] = 0; 164 scripta0->is_dmap_dirty[2] = cpu_to_scr(SCR_NO_OP); 165 scripta0->is_dmap_dirty[3] = 0; 166 } 167 #endif 168 169 #ifdef SYM_CONF_IARB_SUPPORT 170 /* 171 * If user does not want to use IMMEDIATE ARBITRATION 172 * when we are reselected while attempting to arbitrate, 173 * patch the SCRIPTS accordingly with a SCRIPT NO_OP. 174 */ 175 if (!SYM_CONF_SET_IARB_ON_ARB_LOST) 176 scripta0->ungetjob[0] = cpu_to_scr(SCR_NO_OP); 177 #endif 178 /* 179 * Patch some variable in SCRIPTS. 180 * - start and done queue initial bus address. 181 * - target bus address table bus address. 182 */ 183 scriptb0->startpos[0] = cpu_to_scr(np->squeue_ba); 184 scriptb0->done_pos[0] = cpu_to_scr(np->dqueue_ba); 185 scriptb0->targtbl[0] = cpu_to_scr(np->targtbl_ba); 186 187 /* 188 * Remove the load of SCNTL4 on reselection if not a C10. 189 */ 190 if (!(np->features & FE_C10)) { 191 scripta0->resel_scntl4[0] = cpu_to_scr(SCR_NO_OP); 192 scripta0->resel_scntl4[1] = cpu_to_scr(0); 193 } 194 195 /* 196 * Remove a couple of work-arounds specific to C1010 if 197 * they are not desirable. See `sym_fw2.h' for more details. 198 */ 199 if (!(pdev->device == PCI_DEVICE_ID_LSI_53C1010_66 && 200 pdev->revision < 0x1 && 201 np->pciclk_khz < 60000)) { 202 scripta0->datao_phase[0] = cpu_to_scr(SCR_NO_OP); 203 scripta0->datao_phase[1] = cpu_to_scr(0); 204 } 205 if (!(pdev->device == PCI_DEVICE_ID_LSI_53C1010_33 /* && 206 pdev->revision < 0xff */)) { 207 scripta0->sel_done[0] = cpu_to_scr(SCR_NO_OP); 208 scripta0->sel_done[1] = cpu_to_scr(0); 209 } 210 211 /* 212 * Patch some other variables in SCRIPTS. 213 * These ones are loaded by the SCRIPTS processor. 214 */ 215 scriptb0->pm0_data_addr[0] = 216 cpu_to_scr(np->scripta_ba + 217 offsetof(struct sym_fw2a_scr, pm0_data)); 218 scriptb0->pm1_data_addr[0] = 219 cpu_to_scr(np->scripta_ba + 220 offsetof(struct sym_fw2a_scr, pm1_data)); 221 } 222 223 /* 224 * Fill the data area in scripts. 225 * To be done for all firmwares. 226 */ 227 static void 228 sym_fw_fill_data (u32 *in, u32 *out) 229 { 230 int i; 231 232 for (i = 0; i < SYM_CONF_MAX_SG; i++) { 233 *in++ = SCR_CHMOV_TBL ^ SCR_DATA_IN; 234 *in++ = offsetof (struct sym_dsb, data[i]); 235 *out++ = SCR_CHMOV_TBL ^ SCR_DATA_OUT; 236 *out++ = offsetof (struct sym_dsb, data[i]); 237 } 238 } 239 240 /* 241 * Setup useful script bus addresses. 242 * To be done for all firmwares. 243 */ 244 static void 245 sym_fw_setup_bus_addresses(struct sym_hcb *np, struct sym_fw *fw) 246 { 247 u32 *pa; 248 u_short *po; 249 int i; 250 251 /* 252 * Build the bus address table for script A 253 * from the script A offset table. 254 */ 255 po = (u_short *) fw->a_ofs; 256 pa = (u32 *) &np->fwa_bas; 257 for (i = 0 ; i < sizeof(np->fwa_bas)/sizeof(u32) ; i++) 258 pa[i] = np->scripta_ba + po[i]; 259 260 /* 261 * Same for script B. 262 */ 263 po = (u_short *) fw->b_ofs; 264 pa = (u32 *) &np->fwb_bas; 265 for (i = 0 ; i < sizeof(np->fwb_bas)/sizeof(u32) ; i++) 266 pa[i] = np->scriptb_ba + po[i]; 267 268 /* 269 * Same for script Z. 270 */ 271 po = (u_short *) fw->z_ofs; 272 pa = (u32 *) &np->fwz_bas; 273 for (i = 0 ; i < sizeof(np->fwz_bas)/sizeof(u32) ; i++) 274 pa[i] = np->scriptz_ba + po[i]; 275 } 276 277 #if SYM_CONF_GENERIC_SUPPORT 278 /* 279 * Setup routine for firmware #1. 280 */ 281 static void 282 sym_fw1_setup(struct sym_hcb *np, struct sym_fw *fw) 283 { 284 struct sym_fw1a_scr *scripta0; 285 286 scripta0 = (struct sym_fw1a_scr *) np->scripta0; 287 288 /* 289 * Fill variable parts in scripts. 290 */ 291 sym_fw_fill_data(scripta0->data_in, scripta0->data_out); 292 293 /* 294 * Setup bus addresses used from the C code.. 295 */ 296 sym_fw_setup_bus_addresses(np, fw); 297 } 298 #endif /* SYM_CONF_GENERIC_SUPPORT */ 299 300 /* 301 * Setup routine for firmware #2. 302 */ 303 static void 304 sym_fw2_setup(struct sym_hcb *np, struct sym_fw *fw) 305 { 306 struct sym_fw2a_scr *scripta0; 307 308 scripta0 = (struct sym_fw2a_scr *) np->scripta0; 309 310 /* 311 * Fill variable parts in scripts. 312 */ 313 sym_fw_fill_data(scripta0->data_in, scripta0->data_out); 314 315 /* 316 * Setup bus addresses used from the C code.. 317 */ 318 sym_fw_setup_bus_addresses(np, fw); 319 } 320 321 /* 322 * Allocate firmware descriptors. 323 */ 324 #if SYM_CONF_GENERIC_SUPPORT 325 static struct sym_fw sym_fw1 = SYM_FW_ENTRY(sym_fw1, "NCR-generic"); 326 #endif /* SYM_CONF_GENERIC_SUPPORT */ 327 static struct sym_fw sym_fw2 = SYM_FW_ENTRY(sym_fw2, "LOAD/STORE-based"); 328 329 /* 330 * Find the most appropriate firmware for a chip. 331 */ 332 struct sym_fw * 333 sym_find_firmware(struct sym_chip *chip) 334 { 335 if (chip->features & FE_LDSTR) 336 return &sym_fw2; 337 #if SYM_CONF_GENERIC_SUPPORT 338 else if (!(chip->features & (FE_PFEN|FE_NOPM|FE_DAC))) 339 return &sym_fw1; 340 #endif 341 else 342 return NULL; 343 } 344 345 /* 346 * Bind a script to physical addresses. 347 */ 348 void sym_fw_bind_script(struct sym_hcb *np, u32 *start, int len) 349 { 350 u32 opcode, new, old, tmp1, tmp2; 351 u32 *end, *cur; 352 int relocs; 353 354 cur = start; 355 end = start + len/4; 356 357 while (cur < end) { 358 359 opcode = *cur; 360 361 /* 362 * If we forget to change the length 363 * in scripts, a field will be 364 * padded with 0. This is an illegal 365 * command. 366 */ 367 if (opcode == 0) { 368 printf ("%s: ERROR0 IN SCRIPT at %d.\n", 369 sym_name(np), (int) (cur-start)); 370 ++cur; 371 continue; 372 }; 373 374 /* 375 * We use the bogus value 0xf00ff00f ;-) 376 * to reserve data area in SCRIPTS. 377 */ 378 if (opcode == SCR_DATA_ZERO) { 379 *cur++ = 0; 380 continue; 381 } 382 383 if (DEBUG_FLAGS & DEBUG_SCRIPT) 384 printf ("%d: <%x>\n", (int) (cur-start), 385 (unsigned)opcode); 386 387 /* 388 * We don't have to decode ALL commands 389 */ 390 switch (opcode >> 28) { 391 case 0xf: 392 /* 393 * LOAD / STORE DSA relative, don't relocate. 394 */ 395 relocs = 0; 396 break; 397 case 0xe: 398 /* 399 * LOAD / STORE absolute. 400 */ 401 relocs = 1; 402 break; 403 case 0xc: 404 /* 405 * COPY has TWO arguments. 406 */ 407 relocs = 2; 408 tmp1 = cur[1]; 409 tmp2 = cur[2]; 410 if ((tmp1 ^ tmp2) & 3) { 411 printf ("%s: ERROR1 IN SCRIPT at %d.\n", 412 sym_name(np), (int) (cur-start)); 413 } 414 /* 415 * If PREFETCH feature not enabled, remove 416 * the NO FLUSH bit if present. 417 */ 418 if ((opcode & SCR_NO_FLUSH) && 419 !(np->features & FE_PFEN)) { 420 opcode = (opcode & ~SCR_NO_FLUSH); 421 } 422 break; 423 case 0x0: 424 /* 425 * MOVE/CHMOV (absolute address) 426 */ 427 if (!(np->features & FE_WIDE)) 428 opcode = (opcode | OPC_MOVE); 429 relocs = 1; 430 break; 431 case 0x1: 432 /* 433 * MOVE/CHMOV (table indirect) 434 */ 435 if (!(np->features & FE_WIDE)) 436 opcode = (opcode | OPC_MOVE); 437 relocs = 0; 438 break; 439 #ifdef SYM_CONF_TARGET_ROLE_SUPPORT 440 case 0x2: 441 /* 442 * MOVE/CHMOV in target role (absolute address) 443 */ 444 opcode &= ~0x20000000; 445 if (!(np->features & FE_WIDE)) 446 opcode = (opcode & ~OPC_TCHMOVE); 447 relocs = 1; 448 break; 449 case 0x3: 450 /* 451 * MOVE/CHMOV in target role (table indirect) 452 */ 453 opcode &= ~0x20000000; 454 if (!(np->features & FE_WIDE)) 455 opcode = (opcode & ~OPC_TCHMOVE); 456 relocs = 0; 457 break; 458 #endif 459 case 0x8: 460 /* 461 * JUMP / CALL 462 * don't relocate if relative :-) 463 */ 464 if (opcode & 0x00800000) 465 relocs = 0; 466 else if ((opcode & 0xf8400000) == 0x80400000)/*JUMP64*/ 467 relocs = 2; 468 else 469 relocs = 1; 470 break; 471 case 0x4: 472 case 0x5: 473 case 0x6: 474 case 0x7: 475 relocs = 1; 476 break; 477 default: 478 relocs = 0; 479 break; 480 }; 481 482 /* 483 * Scriptify:) the opcode. 484 */ 485 *cur++ = cpu_to_scr(opcode); 486 487 /* 488 * If no relocation, assume 1 argument 489 * and just scriptize:) it. 490 */ 491 if (!relocs) { 492 *cur = cpu_to_scr(*cur); 493 ++cur; 494 continue; 495 } 496 497 /* 498 * Otherwise performs all needed relocations. 499 */ 500 while (relocs--) { 501 old = *cur; 502 503 switch (old & RELOC_MASK) { 504 case RELOC_REGISTER: 505 new = (old & ~RELOC_MASK) + np->mmio_ba; 506 break; 507 case RELOC_LABEL_A: 508 new = (old & ~RELOC_MASK) + np->scripta_ba; 509 break; 510 case RELOC_LABEL_B: 511 new = (old & ~RELOC_MASK) + np->scriptb_ba; 512 break; 513 case RELOC_SOFTC: 514 new = (old & ~RELOC_MASK) + np->hcb_ba; 515 break; 516 case 0: 517 /* 518 * Don't relocate a 0 address. 519 * They are mostly used for patched or 520 * script self-modified areas. 521 */ 522 if (old == 0) { 523 new = old; 524 break; 525 } 526 fallthrough; 527 default: 528 new = 0; 529 panic("sym_fw_bind_script: " 530 "weird relocation %x\n", old); 531 break; 532 } 533 534 *cur++ = cpu_to_scr(new); 535 } 536 }; 537 } 538