1 2 /* 3 4 Linux Driver for BusLogic MultiMaster and FlashPoint SCSI Host Adapters 5 6 Copyright 1995-1998 by Leonard N. Zubkoff <lnz@dandelion.com> 7 8 This program is free software; you may redistribute and/or modify it under 9 the terms of the GNU General Public License Version 2 as published by the 10 Free Software Foundation. 11 12 This program is distributed in the hope that it will be useful, but 13 WITHOUT ANY WARRANTY, without even the implied warranty of MERCHANTABILITY 14 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 15 for complete details. 16 17 The author respectfully requests that any modifications to this software be 18 sent directly to him for evaluation and testing. 19 20 Special thanks to Wayne Yen, Jin-Lon Hon, and Alex Win of BusLogic, whose 21 advice has been invaluable, to David Gentzel, for writing the original Linux 22 BusLogic driver, and to Paul Gortmaker, for being such a dedicated test site. 23 24 Finally, special thanks to Mylex/BusLogic for making the FlashPoint SCCB 25 Manager available as freely redistributable source code. 26 27 */ 28 29 #define BusLogic_DriverVersion "2.1.16" 30 #define BusLogic_DriverDate "18 July 2002" 31 32 #include <linux/module.h> 33 #include <linux/init.h> 34 #include <linux/interrupt.h> 35 #include <linux/types.h> 36 #include <linux/blkdev.h> 37 #include <linux/delay.h> 38 #include <linux/ioport.h> 39 #include <linux/mm.h> 40 #include <linux/stat.h> 41 #include <linux/pci.h> 42 #include <linux/spinlock.h> 43 #include <linux/jiffies.h> 44 #include <linux/dma-mapping.h> 45 #include <linux/slab.h> 46 #include <scsi/scsicam.h> 47 48 #include <asm/dma.h> 49 #include <asm/io.h> 50 51 #include <scsi/scsi.h> 52 #include <scsi/scsi_cmnd.h> 53 #include <scsi/scsi_device.h> 54 #include <scsi/scsi_host.h> 55 #include <scsi/scsi_tcq.h> 56 #include "BusLogic.h" 57 #include "FlashPoint.c" 58 59 #ifndef FAILURE 60 #define FAILURE (-1) 61 #endif 62 63 static struct scsi_host_template Bus_Logic_template; 64 65 /* 66 BusLogic_DriverOptionsCount is a count of the number of BusLogic Driver 67 Options specifications provided via the Linux Kernel Command Line or via 68 the Loadable Kernel Module Installation Facility. 69 */ 70 71 static int BusLogic_DriverOptionsCount; 72 73 74 /* 75 BusLogic_DriverOptions is an array of Driver Options structures representing 76 BusLogic Driver Options specifications provided via the Linux Kernel Command 77 Line or via the Loadable Kernel Module Installation Facility. 78 */ 79 80 static struct BusLogic_DriverOptions BusLogic_DriverOptions[BusLogic_MaxHostAdapters]; 81 82 83 /* 84 BusLogic can be assigned a string by insmod. 85 */ 86 87 MODULE_LICENSE("GPL"); 88 #ifdef MODULE 89 static char *BusLogic; 90 module_param(BusLogic, charp, 0); 91 #endif 92 93 94 /* 95 BusLogic_ProbeOptions is a set of Probe Options to be applied across 96 all BusLogic Host Adapters. 97 */ 98 99 static struct BusLogic_ProbeOptions BusLogic_ProbeOptions; 100 101 102 /* 103 BusLogic_GlobalOptions is a set of Global Options to be applied across 104 all BusLogic Host Adapters. 105 */ 106 107 static struct BusLogic_GlobalOptions BusLogic_GlobalOptions; 108 109 static LIST_HEAD(BusLogic_host_list); 110 111 /* 112 BusLogic_ProbeInfoCount is the number of entries in BusLogic_ProbeInfoList. 113 */ 114 115 static int BusLogic_ProbeInfoCount; 116 117 118 /* 119 BusLogic_ProbeInfoList is the list of I/O Addresses and Bus Probe Information 120 to be checked for potential BusLogic Host Adapters. It is initialized by 121 interrogating the PCI Configuration Space on PCI machines as well as from the 122 list of standard BusLogic I/O Addresses. 123 */ 124 125 static struct BusLogic_ProbeInfo *BusLogic_ProbeInfoList; 126 127 128 /* 129 BusLogic_CommandFailureReason holds a string identifying the reason why a 130 call to BusLogic_Command failed. It is only non-NULL when BusLogic_Command 131 returns a failure code. 132 */ 133 134 static char *BusLogic_CommandFailureReason; 135 136 /* 137 BusLogic_AnnounceDriver announces the Driver Version and Date, Author's 138 Name, Copyright Notice, and Electronic Mail Address. 139 */ 140 141 static void BusLogic_AnnounceDriver(struct BusLogic_HostAdapter *HostAdapter) 142 { 143 BusLogic_Announce("***** BusLogic SCSI Driver Version " BusLogic_DriverVersion " of " BusLogic_DriverDate " *****\n", HostAdapter); 144 BusLogic_Announce("Copyright 1995-1998 by Leonard N. Zubkoff " "<lnz@dandelion.com>\n", HostAdapter); 145 } 146 147 148 /* 149 BusLogic_DriverInfo returns the Host Adapter Name to identify this SCSI 150 Driver and Host Adapter. 151 */ 152 153 static const char *BusLogic_DriverInfo(struct Scsi_Host *Host) 154 { 155 struct BusLogic_HostAdapter *HostAdapter = (struct BusLogic_HostAdapter *) Host->hostdata; 156 return HostAdapter->FullModelName; 157 } 158 159 /* 160 BusLogic_InitializeCCBs initializes a group of Command Control Blocks (CCBs) 161 for Host Adapter from the BlockSize bytes located at BlockPointer. The newly 162 created CCBs are added to Host Adapter's free list. 163 */ 164 165 static void BusLogic_InitializeCCBs(struct BusLogic_HostAdapter *HostAdapter, void *BlockPointer, int BlockSize, dma_addr_t BlockPointerHandle) 166 { 167 struct BusLogic_CCB *CCB = (struct BusLogic_CCB *) BlockPointer; 168 unsigned int offset = 0; 169 memset(BlockPointer, 0, BlockSize); 170 CCB->AllocationGroupHead = BlockPointerHandle; 171 CCB->AllocationGroupSize = BlockSize; 172 while ((BlockSize -= sizeof(struct BusLogic_CCB)) >= 0) { 173 CCB->Status = BusLogic_CCB_Free; 174 CCB->HostAdapter = HostAdapter; 175 CCB->DMA_Handle = (u32) BlockPointerHandle + offset; 176 if (BusLogic_FlashPointHostAdapterP(HostAdapter)) { 177 CCB->CallbackFunction = BusLogic_QueueCompletedCCB; 178 CCB->BaseAddress = HostAdapter->FlashPointInfo.BaseAddress; 179 } 180 CCB->Next = HostAdapter->Free_CCBs; 181 CCB->NextAll = HostAdapter->All_CCBs; 182 HostAdapter->Free_CCBs = CCB; 183 HostAdapter->All_CCBs = CCB; 184 HostAdapter->AllocatedCCBs++; 185 CCB++; 186 offset += sizeof(struct BusLogic_CCB); 187 } 188 } 189 190 191 /* 192 BusLogic_CreateInitialCCBs allocates the initial CCBs for Host Adapter. 193 */ 194 195 static bool __init BusLogic_CreateInitialCCBs(struct BusLogic_HostAdapter *HostAdapter) 196 { 197 int BlockSize = BusLogic_CCB_AllocationGroupSize * sizeof(struct BusLogic_CCB); 198 void *BlockPointer; 199 dma_addr_t BlockPointerHandle; 200 while (HostAdapter->AllocatedCCBs < HostAdapter->InitialCCBs) { 201 BlockPointer = pci_alloc_consistent(HostAdapter->PCI_Device, BlockSize, &BlockPointerHandle); 202 if (BlockPointer == NULL) { 203 BusLogic_Error("UNABLE TO ALLOCATE CCB GROUP - DETACHING\n", HostAdapter); 204 return false; 205 } 206 BusLogic_InitializeCCBs(HostAdapter, BlockPointer, BlockSize, BlockPointerHandle); 207 } 208 return true; 209 } 210 211 212 /* 213 BusLogic_DestroyCCBs deallocates the CCBs for Host Adapter. 214 */ 215 216 static void BusLogic_DestroyCCBs(struct BusLogic_HostAdapter *HostAdapter) 217 { 218 struct BusLogic_CCB *NextCCB = HostAdapter->All_CCBs, *CCB, *Last_CCB = NULL; 219 HostAdapter->All_CCBs = NULL; 220 HostAdapter->Free_CCBs = NULL; 221 while ((CCB = NextCCB) != NULL) { 222 NextCCB = CCB->NextAll; 223 if (CCB->AllocationGroupHead) { 224 if (Last_CCB) 225 pci_free_consistent(HostAdapter->PCI_Device, Last_CCB->AllocationGroupSize, Last_CCB, Last_CCB->AllocationGroupHead); 226 Last_CCB = CCB; 227 } 228 } 229 if (Last_CCB) 230 pci_free_consistent(HostAdapter->PCI_Device, Last_CCB->AllocationGroupSize, Last_CCB, Last_CCB->AllocationGroupHead); 231 } 232 233 234 /* 235 BusLogic_CreateAdditionalCCBs allocates Additional CCBs for Host Adapter. If 236 allocation fails and there are no remaining CCBs available, the Driver Queue 237 Depth is decreased to a known safe value to avoid potential deadlocks when 238 multiple host adapters share the same IRQ Channel. 239 */ 240 241 static void BusLogic_CreateAdditionalCCBs(struct BusLogic_HostAdapter *HostAdapter, int AdditionalCCBs, bool SuccessMessageP) 242 { 243 int BlockSize = BusLogic_CCB_AllocationGroupSize * sizeof(struct BusLogic_CCB); 244 int PreviouslyAllocated = HostAdapter->AllocatedCCBs; 245 void *BlockPointer; 246 dma_addr_t BlockPointerHandle; 247 if (AdditionalCCBs <= 0) 248 return; 249 while (HostAdapter->AllocatedCCBs - PreviouslyAllocated < AdditionalCCBs) { 250 BlockPointer = pci_alloc_consistent(HostAdapter->PCI_Device, BlockSize, &BlockPointerHandle); 251 if (BlockPointer == NULL) 252 break; 253 BusLogic_InitializeCCBs(HostAdapter, BlockPointer, BlockSize, BlockPointerHandle); 254 } 255 if (HostAdapter->AllocatedCCBs > PreviouslyAllocated) { 256 if (SuccessMessageP) 257 BusLogic_Notice("Allocated %d additional CCBs (total now %d)\n", HostAdapter, HostAdapter->AllocatedCCBs - PreviouslyAllocated, HostAdapter->AllocatedCCBs); 258 return; 259 } 260 BusLogic_Notice("Failed to allocate additional CCBs\n", HostAdapter); 261 if (HostAdapter->DriverQueueDepth > HostAdapter->AllocatedCCBs - HostAdapter->TargetDeviceCount) { 262 HostAdapter->DriverQueueDepth = HostAdapter->AllocatedCCBs - HostAdapter->TargetDeviceCount; 263 HostAdapter->SCSI_Host->can_queue = HostAdapter->DriverQueueDepth; 264 } 265 } 266 267 /* 268 BusLogic_AllocateCCB allocates a CCB from Host Adapter's free list, 269 allocating more memory from the Kernel if necessary. The Host Adapter's 270 Lock should already have been acquired by the caller. 271 */ 272 273 static struct BusLogic_CCB *BusLogic_AllocateCCB(struct BusLogic_HostAdapter 274 *HostAdapter) 275 { 276 static unsigned long SerialNumber = 0; 277 struct BusLogic_CCB *CCB; 278 CCB = HostAdapter->Free_CCBs; 279 if (CCB != NULL) { 280 CCB->SerialNumber = ++SerialNumber; 281 HostAdapter->Free_CCBs = CCB->Next; 282 CCB->Next = NULL; 283 if (HostAdapter->Free_CCBs == NULL) 284 BusLogic_CreateAdditionalCCBs(HostAdapter, HostAdapter->IncrementalCCBs, true); 285 return CCB; 286 } 287 BusLogic_CreateAdditionalCCBs(HostAdapter, HostAdapter->IncrementalCCBs, true); 288 CCB = HostAdapter->Free_CCBs; 289 if (CCB == NULL) 290 return NULL; 291 CCB->SerialNumber = ++SerialNumber; 292 HostAdapter->Free_CCBs = CCB->Next; 293 CCB->Next = NULL; 294 return CCB; 295 } 296 297 298 /* 299 BusLogic_DeallocateCCB deallocates a CCB, returning it to the Host Adapter's 300 free list. The Host Adapter's Lock should already have been acquired by the 301 caller. 302 */ 303 304 static void BusLogic_DeallocateCCB(struct BusLogic_CCB *CCB) 305 { 306 struct BusLogic_HostAdapter *HostAdapter = CCB->HostAdapter; 307 308 scsi_dma_unmap(CCB->Command); 309 pci_unmap_single(HostAdapter->PCI_Device, CCB->SenseDataPointer, 310 CCB->SenseDataLength, PCI_DMA_FROMDEVICE); 311 312 CCB->Command = NULL; 313 CCB->Status = BusLogic_CCB_Free; 314 CCB->Next = HostAdapter->Free_CCBs; 315 HostAdapter->Free_CCBs = CCB; 316 } 317 318 319 /* 320 BusLogic_Command sends the command OperationCode to HostAdapter, optionally 321 providing ParameterLength bytes of ParameterData and receiving at most 322 ReplyLength bytes of ReplyData; any excess reply data is received but 323 discarded. 324 325 On success, this function returns the number of reply bytes read from 326 the Host Adapter (including any discarded data); on failure, it returns 327 -1 if the command was invalid, or -2 if a timeout occurred. 328 329 BusLogic_Command is called exclusively during host adapter detection and 330 initialization, so performance and latency are not critical, and exclusive 331 access to the Host Adapter hardware is assumed. Once the host adapter and 332 driver are initialized, the only Host Adapter command that is issued is the 333 single byte Execute Mailbox Command operation code, which does not require 334 waiting for the Host Adapter Ready bit to be set in the Status Register. 335 */ 336 337 static int BusLogic_Command(struct BusLogic_HostAdapter *HostAdapter, enum BusLogic_OperationCode OperationCode, void *ParameterData, int ParameterLength, void *ReplyData, int ReplyLength) 338 { 339 unsigned char *ParameterPointer = (unsigned char *) ParameterData; 340 unsigned char *ReplyPointer = (unsigned char *) ReplyData; 341 union BusLogic_StatusRegister StatusRegister; 342 union BusLogic_InterruptRegister InterruptRegister; 343 unsigned long ProcessorFlags = 0; 344 int ReplyBytes = 0, Result; 345 long TimeoutCounter; 346 /* 347 Clear out the Reply Data if provided. 348 */ 349 if (ReplyLength > 0) 350 memset(ReplyData, 0, ReplyLength); 351 /* 352 If the IRQ Channel has not yet been acquired, then interrupts must be 353 disabled while issuing host adapter commands since a Command Complete 354 interrupt could occur if the IRQ Channel was previously enabled by another 355 BusLogic Host Adapter or another driver sharing the same IRQ Channel. 356 */ 357 if (!HostAdapter->IRQ_ChannelAcquired) 358 local_irq_save(ProcessorFlags); 359 /* 360 Wait for the Host Adapter Ready bit to be set and the Command/Parameter 361 Register Busy bit to be reset in the Status Register. 362 */ 363 TimeoutCounter = 10000; 364 while (--TimeoutCounter >= 0) { 365 StatusRegister.All = BusLogic_ReadStatusRegister(HostAdapter); 366 if (StatusRegister.sr.HostAdapterReady && !StatusRegister.sr.CommandParameterRegisterBusy) 367 break; 368 udelay(100); 369 } 370 if (TimeoutCounter < 0) { 371 BusLogic_CommandFailureReason = "Timeout waiting for Host Adapter Ready"; 372 Result = -2; 373 goto Done; 374 } 375 /* 376 Write the OperationCode to the Command/Parameter Register. 377 */ 378 HostAdapter->HostAdapterCommandCompleted = false; 379 BusLogic_WriteCommandParameterRegister(HostAdapter, OperationCode); 380 /* 381 Write any additional Parameter Bytes. 382 */ 383 TimeoutCounter = 10000; 384 while (ParameterLength > 0 && --TimeoutCounter >= 0) { 385 /* 386 Wait 100 microseconds to give the Host Adapter enough time to determine 387 whether the last value written to the Command/Parameter Register was 388 valid or not. If the Command Complete bit is set in the Interrupt 389 Register, then the Command Invalid bit in the Status Register will be 390 reset if the Operation Code or Parameter was valid and the command 391 has completed, or set if the Operation Code or Parameter was invalid. 392 If the Data In Register Ready bit is set in the Status Register, then 393 the Operation Code was valid, and data is waiting to be read back 394 from the Host Adapter. Otherwise, wait for the Command/Parameter 395 Register Busy bit in the Status Register to be reset. 396 */ 397 udelay(100); 398 InterruptRegister.All = BusLogic_ReadInterruptRegister(HostAdapter); 399 StatusRegister.All = BusLogic_ReadStatusRegister(HostAdapter); 400 if (InterruptRegister.ir.CommandComplete) 401 break; 402 if (HostAdapter->HostAdapterCommandCompleted) 403 break; 404 if (StatusRegister.sr.DataInRegisterReady) 405 break; 406 if (StatusRegister.sr.CommandParameterRegisterBusy) 407 continue; 408 BusLogic_WriteCommandParameterRegister(HostAdapter, *ParameterPointer++); 409 ParameterLength--; 410 } 411 if (TimeoutCounter < 0) { 412 BusLogic_CommandFailureReason = "Timeout waiting for Parameter Acceptance"; 413 Result = -2; 414 goto Done; 415 } 416 /* 417 The Modify I/O Address command does not cause a Command Complete Interrupt. 418 */ 419 if (OperationCode == BusLogic_ModifyIOAddress) { 420 StatusRegister.All = BusLogic_ReadStatusRegister(HostAdapter); 421 if (StatusRegister.sr.CommandInvalid) { 422 BusLogic_CommandFailureReason = "Modify I/O Address Invalid"; 423 Result = -1; 424 goto Done; 425 } 426 if (BusLogic_GlobalOptions.TraceConfiguration) 427 BusLogic_Notice("BusLogic_Command(%02X) Status = %02X: " "(Modify I/O Address)\n", HostAdapter, OperationCode, StatusRegister.All); 428 Result = 0; 429 goto Done; 430 } 431 /* 432 Select an appropriate timeout value for awaiting command completion. 433 */ 434 switch (OperationCode) { 435 case BusLogic_InquireInstalledDevicesID0to7: 436 case BusLogic_InquireInstalledDevicesID8to15: 437 case BusLogic_InquireTargetDevices: 438 /* Approximately 60 seconds. */ 439 TimeoutCounter = 60 * 10000; 440 break; 441 default: 442 /* Approximately 1 second. */ 443 TimeoutCounter = 10000; 444 break; 445 } 446 /* 447 Receive any Reply Bytes, waiting for either the Command Complete bit to 448 be set in the Interrupt Register, or for the Interrupt Handler to set the 449 Host Adapter Command Completed bit in the Host Adapter structure. 450 */ 451 while (--TimeoutCounter >= 0) { 452 InterruptRegister.All = BusLogic_ReadInterruptRegister(HostAdapter); 453 StatusRegister.All = BusLogic_ReadStatusRegister(HostAdapter); 454 if (InterruptRegister.ir.CommandComplete) 455 break; 456 if (HostAdapter->HostAdapterCommandCompleted) 457 break; 458 if (StatusRegister.sr.DataInRegisterReady) { 459 if (++ReplyBytes <= ReplyLength) 460 *ReplyPointer++ = BusLogic_ReadDataInRegister(HostAdapter); 461 else 462 BusLogic_ReadDataInRegister(HostAdapter); 463 } 464 if (OperationCode == BusLogic_FetchHostAdapterLocalRAM && StatusRegister.sr.HostAdapterReady) 465 break; 466 udelay(100); 467 } 468 if (TimeoutCounter < 0) { 469 BusLogic_CommandFailureReason = "Timeout waiting for Command Complete"; 470 Result = -2; 471 goto Done; 472 } 473 /* 474 Clear any pending Command Complete Interrupt. 475 */ 476 BusLogic_InterruptReset(HostAdapter); 477 /* 478 Provide tracing information if requested. 479 */ 480 if (BusLogic_GlobalOptions.TraceConfiguration) { 481 int i; 482 BusLogic_Notice("BusLogic_Command(%02X) Status = %02X: %2d ==> %2d:", HostAdapter, OperationCode, StatusRegister.All, ReplyLength, ReplyBytes); 483 if (ReplyLength > ReplyBytes) 484 ReplyLength = ReplyBytes; 485 for (i = 0; i < ReplyLength; i++) 486 BusLogic_Notice(" %02X", HostAdapter, ((unsigned char *) ReplyData)[i]); 487 BusLogic_Notice("\n", HostAdapter); 488 } 489 /* 490 Process Command Invalid conditions. 491 */ 492 if (StatusRegister.sr.CommandInvalid) { 493 /* 494 Some early BusLogic Host Adapters may not recover properly from 495 a Command Invalid condition, so if this appears to be the case, 496 a Soft Reset is issued to the Host Adapter. Potentially invalid 497 commands are never attempted after Mailbox Initialization is 498 performed, so there should be no Host Adapter state lost by a 499 Soft Reset in response to a Command Invalid condition. 500 */ 501 udelay(1000); 502 StatusRegister.All = BusLogic_ReadStatusRegister(HostAdapter); 503 if (StatusRegister.sr.CommandInvalid || 504 StatusRegister.sr.Reserved || 505 StatusRegister.sr.DataInRegisterReady || 506 StatusRegister.sr.CommandParameterRegisterBusy || !StatusRegister.sr.HostAdapterReady || !StatusRegister.sr.InitializationRequired || StatusRegister.sr.DiagnosticActive || StatusRegister.sr.DiagnosticFailure) { 507 BusLogic_SoftReset(HostAdapter); 508 udelay(1000); 509 } 510 BusLogic_CommandFailureReason = "Command Invalid"; 511 Result = -1; 512 goto Done; 513 } 514 /* 515 Handle Excess Parameters Supplied conditions. 516 */ 517 if (ParameterLength > 0) { 518 BusLogic_CommandFailureReason = "Excess Parameters Supplied"; 519 Result = -1; 520 goto Done; 521 } 522 /* 523 Indicate the command completed successfully. 524 */ 525 BusLogic_CommandFailureReason = NULL; 526 Result = ReplyBytes; 527 /* 528 Restore the interrupt status if necessary and return. 529 */ 530 Done: 531 if (!HostAdapter->IRQ_ChannelAcquired) 532 local_irq_restore(ProcessorFlags); 533 return Result; 534 } 535 536 537 /* 538 BusLogic_AppendProbeAddressISA appends a single ISA I/O Address to the list 539 of I/O Address and Bus Probe Information to be checked for potential BusLogic 540 Host Adapters. 541 */ 542 543 static void __init BusLogic_AppendProbeAddressISA(unsigned long IO_Address) 544 { 545 struct BusLogic_ProbeInfo *ProbeInfo; 546 if (BusLogic_ProbeInfoCount >= BusLogic_MaxHostAdapters) 547 return; 548 ProbeInfo = &BusLogic_ProbeInfoList[BusLogic_ProbeInfoCount++]; 549 ProbeInfo->HostAdapterType = BusLogic_MultiMaster; 550 ProbeInfo->HostAdapterBusType = BusLogic_ISA_Bus; 551 ProbeInfo->IO_Address = IO_Address; 552 ProbeInfo->PCI_Device = NULL; 553 } 554 555 556 /* 557 BusLogic_InitializeProbeInfoListISA initializes the list of I/O Address and 558 Bus Probe Information to be checked for potential BusLogic SCSI Host Adapters 559 only from the list of standard BusLogic MultiMaster ISA I/O Addresses. 560 */ 561 562 static void __init BusLogic_InitializeProbeInfoListISA(struct BusLogic_HostAdapter 563 *PrototypeHostAdapter) 564 { 565 /* 566 If BusLogic Driver Options specifications requested that ISA Bus Probes 567 be inhibited, do not proceed further. 568 */ 569 if (BusLogic_ProbeOptions.NoProbeISA) 570 return; 571 /* 572 Append the list of standard BusLogic MultiMaster ISA I/O Addresses. 573 */ 574 if (!BusLogic_ProbeOptions.LimitedProbeISA || BusLogic_ProbeOptions.Probe330) 575 BusLogic_AppendProbeAddressISA(0x330); 576 if (!BusLogic_ProbeOptions.LimitedProbeISA || BusLogic_ProbeOptions.Probe334) 577 BusLogic_AppendProbeAddressISA(0x334); 578 if (!BusLogic_ProbeOptions.LimitedProbeISA || BusLogic_ProbeOptions.Probe230) 579 BusLogic_AppendProbeAddressISA(0x230); 580 if (!BusLogic_ProbeOptions.LimitedProbeISA || BusLogic_ProbeOptions.Probe234) 581 BusLogic_AppendProbeAddressISA(0x234); 582 if (!BusLogic_ProbeOptions.LimitedProbeISA || BusLogic_ProbeOptions.Probe130) 583 BusLogic_AppendProbeAddressISA(0x130); 584 if (!BusLogic_ProbeOptions.LimitedProbeISA || BusLogic_ProbeOptions.Probe134) 585 BusLogic_AppendProbeAddressISA(0x134); 586 } 587 588 589 #ifdef CONFIG_PCI 590 591 592 /* 593 BusLogic_SortProbeInfo sorts a section of BusLogic_ProbeInfoList in order 594 of increasing PCI Bus and Device Number. 595 */ 596 597 static void __init BusLogic_SortProbeInfo(struct BusLogic_ProbeInfo *ProbeInfoList, int ProbeInfoCount) 598 { 599 int LastInterchange = ProbeInfoCount - 1, Bound, j; 600 while (LastInterchange > 0) { 601 Bound = LastInterchange; 602 LastInterchange = 0; 603 for (j = 0; j < Bound; j++) { 604 struct BusLogic_ProbeInfo *ProbeInfo1 = &ProbeInfoList[j]; 605 struct BusLogic_ProbeInfo *ProbeInfo2 = &ProbeInfoList[j + 1]; 606 if (ProbeInfo1->Bus > ProbeInfo2->Bus || (ProbeInfo1->Bus == ProbeInfo2->Bus && (ProbeInfo1->Device > ProbeInfo2->Device))) { 607 struct BusLogic_ProbeInfo TempProbeInfo; 608 memcpy(&TempProbeInfo, ProbeInfo1, sizeof(struct BusLogic_ProbeInfo)); 609 memcpy(ProbeInfo1, ProbeInfo2, sizeof(struct BusLogic_ProbeInfo)); 610 memcpy(ProbeInfo2, &TempProbeInfo, sizeof(struct BusLogic_ProbeInfo)); 611 LastInterchange = j; 612 } 613 } 614 } 615 } 616 617 618 /* 619 BusLogic_InitializeMultiMasterProbeInfo initializes the list of I/O Address 620 and Bus Probe Information to be checked for potential BusLogic MultiMaster 621 SCSI Host Adapters by interrogating the PCI Configuration Space on PCI 622 machines as well as from the list of standard BusLogic MultiMaster ISA 623 I/O Addresses. It returns the number of PCI MultiMaster Host Adapters found. 624 */ 625 626 static int __init BusLogic_InitializeMultiMasterProbeInfo(struct BusLogic_HostAdapter 627 *PrototypeHostAdapter) 628 { 629 struct BusLogic_ProbeInfo *PrimaryProbeInfo = &BusLogic_ProbeInfoList[BusLogic_ProbeInfoCount]; 630 int NonPrimaryPCIMultiMasterIndex = BusLogic_ProbeInfoCount + 1; 631 int NonPrimaryPCIMultiMasterCount = 0, PCIMultiMasterCount = 0; 632 bool ForceBusDeviceScanningOrder = false; 633 bool ForceBusDeviceScanningOrderChecked = false; 634 bool StandardAddressSeen[6]; 635 struct pci_dev *PCI_Device = NULL; 636 int i; 637 if (BusLogic_ProbeInfoCount >= BusLogic_MaxHostAdapters) 638 return 0; 639 BusLogic_ProbeInfoCount++; 640 for (i = 0; i < 6; i++) 641 StandardAddressSeen[i] = false; 642 /* 643 Iterate over the MultiMaster PCI Host Adapters. For each enumerated host 644 adapter, determine whether its ISA Compatible I/O Port is enabled and if 645 so, whether it is assigned the Primary I/O Address. A host adapter that is 646 assigned the Primary I/O Address will always be the preferred boot device. 647 The MultiMaster BIOS will first recognize a host adapter at the Primary I/O 648 Address, then any other PCI host adapters, and finally any host adapters 649 located at the remaining standard ISA I/O Addresses. When a PCI host 650 adapter is found with its ISA Compatible I/O Port enabled, a command is 651 issued to disable the ISA Compatible I/O Port, and it is noted that the 652 particular standard ISA I/O Address need not be probed. 653 */ 654 PrimaryProbeInfo->IO_Address = 0; 655 while ((PCI_Device = pci_get_device(PCI_VENDOR_ID_BUSLOGIC, PCI_DEVICE_ID_BUSLOGIC_MULTIMASTER, PCI_Device)) != NULL) { 656 struct BusLogic_HostAdapter *HostAdapter = PrototypeHostAdapter; 657 struct BusLogic_PCIHostAdapterInformation PCIHostAdapterInformation; 658 enum BusLogic_ISACompatibleIOPort ModifyIOAddressRequest; 659 unsigned char Bus; 660 unsigned char Device; 661 unsigned int IRQ_Channel; 662 unsigned long BaseAddress0; 663 unsigned long BaseAddress1; 664 unsigned long IO_Address; 665 unsigned long PCI_Address; 666 667 if (pci_enable_device(PCI_Device)) 668 continue; 669 670 if (pci_set_dma_mask(PCI_Device, DMA_BIT_MASK(32) )) 671 continue; 672 673 Bus = PCI_Device->bus->number; 674 Device = PCI_Device->devfn >> 3; 675 IRQ_Channel = PCI_Device->irq; 676 IO_Address = BaseAddress0 = pci_resource_start(PCI_Device, 0); 677 PCI_Address = BaseAddress1 = pci_resource_start(PCI_Device, 1); 678 679 if (pci_resource_flags(PCI_Device, 0) & IORESOURCE_MEM) { 680 BusLogic_Error("BusLogic: Base Address0 0x%X not I/O for " "MultiMaster Host Adapter\n", NULL, BaseAddress0); 681 BusLogic_Error("at PCI Bus %d Device %d I/O Address 0x%X\n", NULL, Bus, Device, IO_Address); 682 continue; 683 } 684 if (pci_resource_flags(PCI_Device, 1) & IORESOURCE_IO) { 685 BusLogic_Error("BusLogic: Base Address1 0x%X not Memory for " "MultiMaster Host Adapter\n", NULL, BaseAddress1); 686 BusLogic_Error("at PCI Bus %d Device %d PCI Address 0x%X\n", NULL, Bus, Device, PCI_Address); 687 continue; 688 } 689 if (IRQ_Channel == 0) { 690 BusLogic_Error("BusLogic: IRQ Channel %d invalid for " "MultiMaster Host Adapter\n", NULL, IRQ_Channel); 691 BusLogic_Error("at PCI Bus %d Device %d I/O Address 0x%X\n", NULL, Bus, Device, IO_Address); 692 continue; 693 } 694 if (BusLogic_GlobalOptions.TraceProbe) { 695 BusLogic_Notice("BusLogic: PCI MultiMaster Host Adapter " "detected at\n", NULL); 696 BusLogic_Notice("BusLogic: PCI Bus %d Device %d I/O Address " "0x%X PCI Address 0x%X\n", NULL, Bus, Device, IO_Address, PCI_Address); 697 } 698 /* 699 Issue the Inquire PCI Host Adapter Information command to determine 700 the ISA Compatible I/O Port. If the ISA Compatible I/O Port is 701 known and enabled, note that the particular Standard ISA I/O 702 Address should not be probed. 703 */ 704 HostAdapter->IO_Address = IO_Address; 705 BusLogic_InterruptReset(HostAdapter); 706 if (BusLogic_Command(HostAdapter, BusLogic_InquirePCIHostAdapterInformation, NULL, 0, &PCIHostAdapterInformation, sizeof(PCIHostAdapterInformation)) 707 == sizeof(PCIHostAdapterInformation)) { 708 if (PCIHostAdapterInformation.ISACompatibleIOPort < 6) 709 StandardAddressSeen[PCIHostAdapterInformation.ISACompatibleIOPort] = true; 710 } else 711 PCIHostAdapterInformation.ISACompatibleIOPort = BusLogic_IO_Disable; 712 /* 713 * Issue the Modify I/O Address command to disable the ISA Compatible 714 * I/O Port. On PCI Host Adapters, the Modify I/O Address command 715 * allows modification of the ISA compatible I/O Address that the Host 716 * Adapter responds to; it does not affect the PCI compliant I/O Address 717 * assigned at system initialization. 718 */ 719 ModifyIOAddressRequest = BusLogic_IO_Disable; 720 BusLogic_Command(HostAdapter, BusLogic_ModifyIOAddress, &ModifyIOAddressRequest, sizeof(ModifyIOAddressRequest), NULL, 0); 721 /* 722 For the first MultiMaster Host Adapter enumerated, issue the Fetch 723 Host Adapter Local RAM command to read byte 45 of the AutoSCSI area, 724 for the setting of the "Use Bus And Device # For PCI Scanning Seq." 725 option. Issue the Inquire Board ID command since this option is 726 only valid for the BT-948/958/958D. 727 */ 728 if (!ForceBusDeviceScanningOrderChecked) { 729 struct BusLogic_FetchHostAdapterLocalRAMRequest FetchHostAdapterLocalRAMRequest; 730 struct BusLogic_AutoSCSIByte45 AutoSCSIByte45; 731 struct BusLogic_BoardID BoardID; 732 FetchHostAdapterLocalRAMRequest.ByteOffset = BusLogic_AutoSCSI_BaseOffset + 45; 733 FetchHostAdapterLocalRAMRequest.ByteCount = sizeof(AutoSCSIByte45); 734 BusLogic_Command(HostAdapter, BusLogic_FetchHostAdapterLocalRAM, &FetchHostAdapterLocalRAMRequest, sizeof(FetchHostAdapterLocalRAMRequest), &AutoSCSIByte45, sizeof(AutoSCSIByte45)); 735 BusLogic_Command(HostAdapter, BusLogic_InquireBoardID, NULL, 0, &BoardID, sizeof(BoardID)); 736 if (BoardID.FirmwareVersion1stDigit == '5') 737 ForceBusDeviceScanningOrder = AutoSCSIByte45.ForceBusDeviceScanningOrder; 738 ForceBusDeviceScanningOrderChecked = true; 739 } 740 /* 741 Determine whether this MultiMaster Host Adapter has its ISA 742 Compatible I/O Port enabled and is assigned the Primary I/O Address. 743 If it does, then it is the Primary MultiMaster Host Adapter and must 744 be recognized first. If it does not, then it is added to the list 745 for probing after any Primary MultiMaster Host Adapter is probed. 746 */ 747 if (PCIHostAdapterInformation.ISACompatibleIOPort == BusLogic_IO_330) { 748 PrimaryProbeInfo->HostAdapterType = BusLogic_MultiMaster; 749 PrimaryProbeInfo->HostAdapterBusType = BusLogic_PCI_Bus; 750 PrimaryProbeInfo->IO_Address = IO_Address; 751 PrimaryProbeInfo->PCI_Address = PCI_Address; 752 PrimaryProbeInfo->Bus = Bus; 753 PrimaryProbeInfo->Device = Device; 754 PrimaryProbeInfo->IRQ_Channel = IRQ_Channel; 755 PrimaryProbeInfo->PCI_Device = pci_dev_get(PCI_Device); 756 PCIMultiMasterCount++; 757 } else if (BusLogic_ProbeInfoCount < BusLogic_MaxHostAdapters) { 758 struct BusLogic_ProbeInfo *ProbeInfo = &BusLogic_ProbeInfoList[BusLogic_ProbeInfoCount++]; 759 ProbeInfo->HostAdapterType = BusLogic_MultiMaster; 760 ProbeInfo->HostAdapterBusType = BusLogic_PCI_Bus; 761 ProbeInfo->IO_Address = IO_Address; 762 ProbeInfo->PCI_Address = PCI_Address; 763 ProbeInfo->Bus = Bus; 764 ProbeInfo->Device = Device; 765 ProbeInfo->IRQ_Channel = IRQ_Channel; 766 ProbeInfo->PCI_Device = pci_dev_get(PCI_Device); 767 NonPrimaryPCIMultiMasterCount++; 768 PCIMultiMasterCount++; 769 } else 770 BusLogic_Warning("BusLogic: Too many Host Adapters " "detected\n", NULL); 771 } 772 /* 773 If the AutoSCSI "Use Bus And Device # For PCI Scanning Seq." option is ON 774 for the first enumerated MultiMaster Host Adapter, and if that host adapter 775 is a BT-948/958/958D, then the MultiMaster BIOS will recognize MultiMaster 776 Host Adapters in the order of increasing PCI Bus and Device Number. In 777 that case, sort the probe information into the same order the BIOS uses. 778 If this option is OFF, then the MultiMaster BIOS will recognize MultiMaster 779 Host Adapters in the order they are enumerated by the PCI BIOS, and hence 780 no sorting is necessary. 781 */ 782 if (ForceBusDeviceScanningOrder) 783 BusLogic_SortProbeInfo(&BusLogic_ProbeInfoList[NonPrimaryPCIMultiMasterIndex], NonPrimaryPCIMultiMasterCount); 784 /* 785 If no PCI MultiMaster Host Adapter is assigned the Primary I/O Address, 786 then the Primary I/O Address must be probed explicitly before any PCI 787 host adapters are probed. 788 */ 789 if (!BusLogic_ProbeOptions.NoProbeISA) 790 if (PrimaryProbeInfo->IO_Address == 0 && 791 (!BusLogic_ProbeOptions.LimitedProbeISA || 792 BusLogic_ProbeOptions.Probe330)) { 793 PrimaryProbeInfo->HostAdapterType = BusLogic_MultiMaster; 794 PrimaryProbeInfo->HostAdapterBusType = BusLogic_ISA_Bus; 795 PrimaryProbeInfo->IO_Address = 0x330; 796 } 797 /* 798 Append the list of standard BusLogic MultiMaster ISA I/O Addresses, 799 omitting the Primary I/O Address which has already been handled. 800 */ 801 if (!BusLogic_ProbeOptions.NoProbeISA) { 802 if (!StandardAddressSeen[1] && 803 (!BusLogic_ProbeOptions.LimitedProbeISA || 804 BusLogic_ProbeOptions.Probe334)) 805 BusLogic_AppendProbeAddressISA(0x334); 806 if (!StandardAddressSeen[2] && 807 (!BusLogic_ProbeOptions.LimitedProbeISA || 808 BusLogic_ProbeOptions.Probe230)) 809 BusLogic_AppendProbeAddressISA(0x230); 810 if (!StandardAddressSeen[3] && 811 (!BusLogic_ProbeOptions.LimitedProbeISA || 812 BusLogic_ProbeOptions.Probe234)) 813 BusLogic_AppendProbeAddressISA(0x234); 814 if (!StandardAddressSeen[4] && 815 (!BusLogic_ProbeOptions.LimitedProbeISA || 816 BusLogic_ProbeOptions.Probe130)) 817 BusLogic_AppendProbeAddressISA(0x130); 818 if (!StandardAddressSeen[5] && 819 (!BusLogic_ProbeOptions.LimitedProbeISA || 820 BusLogic_ProbeOptions.Probe134)) 821 BusLogic_AppendProbeAddressISA(0x134); 822 } 823 /* 824 Iterate over the older non-compliant MultiMaster PCI Host Adapters, 825 noting the PCI bus location and assigned IRQ Channel. 826 */ 827 PCI_Device = NULL; 828 while ((PCI_Device = pci_get_device(PCI_VENDOR_ID_BUSLOGIC, PCI_DEVICE_ID_BUSLOGIC_MULTIMASTER_NC, PCI_Device)) != NULL) { 829 unsigned char Bus; 830 unsigned char Device; 831 unsigned int IRQ_Channel; 832 unsigned long IO_Address; 833 834 if (pci_enable_device(PCI_Device)) 835 continue; 836 837 if (pci_set_dma_mask(PCI_Device, DMA_BIT_MASK(32))) 838 continue; 839 840 Bus = PCI_Device->bus->number; 841 Device = PCI_Device->devfn >> 3; 842 IRQ_Channel = PCI_Device->irq; 843 IO_Address = pci_resource_start(PCI_Device, 0); 844 845 if (IO_Address == 0 || IRQ_Channel == 0) 846 continue; 847 for (i = 0; i < BusLogic_ProbeInfoCount; i++) { 848 struct BusLogic_ProbeInfo *ProbeInfo = &BusLogic_ProbeInfoList[i]; 849 if (ProbeInfo->IO_Address == IO_Address && ProbeInfo->HostAdapterType == BusLogic_MultiMaster) { 850 ProbeInfo->HostAdapterBusType = BusLogic_PCI_Bus; 851 ProbeInfo->PCI_Address = 0; 852 ProbeInfo->Bus = Bus; 853 ProbeInfo->Device = Device; 854 ProbeInfo->IRQ_Channel = IRQ_Channel; 855 ProbeInfo->PCI_Device = pci_dev_get(PCI_Device); 856 break; 857 } 858 } 859 } 860 return PCIMultiMasterCount; 861 } 862 863 864 /* 865 BusLogic_InitializeFlashPointProbeInfo initializes the list of I/O Address 866 and Bus Probe Information to be checked for potential BusLogic FlashPoint 867 Host Adapters by interrogating the PCI Configuration Space. It returns the 868 number of FlashPoint Host Adapters found. 869 */ 870 871 static int __init BusLogic_InitializeFlashPointProbeInfo(struct BusLogic_HostAdapter 872 *PrototypeHostAdapter) 873 { 874 int FlashPointIndex = BusLogic_ProbeInfoCount, FlashPointCount = 0; 875 struct pci_dev *PCI_Device = NULL; 876 /* 877 Interrogate PCI Configuration Space for any FlashPoint Host Adapters. 878 */ 879 while ((PCI_Device = pci_get_device(PCI_VENDOR_ID_BUSLOGIC, PCI_DEVICE_ID_BUSLOGIC_FLASHPOINT, PCI_Device)) != NULL) { 880 unsigned char Bus; 881 unsigned char Device; 882 unsigned int IRQ_Channel; 883 unsigned long BaseAddress0; 884 unsigned long BaseAddress1; 885 unsigned long IO_Address; 886 unsigned long PCI_Address; 887 888 if (pci_enable_device(PCI_Device)) 889 continue; 890 891 if (pci_set_dma_mask(PCI_Device, DMA_BIT_MASK(32))) 892 continue; 893 894 Bus = PCI_Device->bus->number; 895 Device = PCI_Device->devfn >> 3; 896 IRQ_Channel = PCI_Device->irq; 897 IO_Address = BaseAddress0 = pci_resource_start(PCI_Device, 0); 898 PCI_Address = BaseAddress1 = pci_resource_start(PCI_Device, 1); 899 #ifdef CONFIG_SCSI_FLASHPOINT 900 if (pci_resource_flags(PCI_Device, 0) & IORESOURCE_MEM) { 901 BusLogic_Error("BusLogic: Base Address0 0x%X not I/O for " "FlashPoint Host Adapter\n", NULL, BaseAddress0); 902 BusLogic_Error("at PCI Bus %d Device %d I/O Address 0x%X\n", NULL, Bus, Device, IO_Address); 903 continue; 904 } 905 if (pci_resource_flags(PCI_Device, 1) & IORESOURCE_IO) { 906 BusLogic_Error("BusLogic: Base Address1 0x%X not Memory for " "FlashPoint Host Adapter\n", NULL, BaseAddress1); 907 BusLogic_Error("at PCI Bus %d Device %d PCI Address 0x%X\n", NULL, Bus, Device, PCI_Address); 908 continue; 909 } 910 if (IRQ_Channel == 0) { 911 BusLogic_Error("BusLogic: IRQ Channel %d invalid for " "FlashPoint Host Adapter\n", NULL, IRQ_Channel); 912 BusLogic_Error("at PCI Bus %d Device %d I/O Address 0x%X\n", NULL, Bus, Device, IO_Address); 913 continue; 914 } 915 if (BusLogic_GlobalOptions.TraceProbe) { 916 BusLogic_Notice("BusLogic: FlashPoint Host Adapter " "detected at\n", NULL); 917 BusLogic_Notice("BusLogic: PCI Bus %d Device %d I/O Address " "0x%X PCI Address 0x%X\n", NULL, Bus, Device, IO_Address, PCI_Address); 918 } 919 if (BusLogic_ProbeInfoCount < BusLogic_MaxHostAdapters) { 920 struct BusLogic_ProbeInfo *ProbeInfo = &BusLogic_ProbeInfoList[BusLogic_ProbeInfoCount++]; 921 ProbeInfo->HostAdapterType = BusLogic_FlashPoint; 922 ProbeInfo->HostAdapterBusType = BusLogic_PCI_Bus; 923 ProbeInfo->IO_Address = IO_Address; 924 ProbeInfo->PCI_Address = PCI_Address; 925 ProbeInfo->Bus = Bus; 926 ProbeInfo->Device = Device; 927 ProbeInfo->IRQ_Channel = IRQ_Channel; 928 ProbeInfo->PCI_Device = pci_dev_get(PCI_Device); 929 FlashPointCount++; 930 } else 931 BusLogic_Warning("BusLogic: Too many Host Adapters " "detected\n", NULL); 932 #else 933 BusLogic_Error("BusLogic: FlashPoint Host Adapter detected at " "PCI Bus %d Device %d\n", NULL, Bus, Device); 934 BusLogic_Error("BusLogic: I/O Address 0x%X PCI Address 0x%X, irq %d, " "but FlashPoint\n", NULL, IO_Address, PCI_Address, IRQ_Channel); 935 BusLogic_Error("BusLogic: support was omitted in this kernel " "configuration.\n", NULL); 936 #endif 937 } 938 /* 939 The FlashPoint BIOS will scan for FlashPoint Host Adapters in the order of 940 increasing PCI Bus and Device Number, so sort the probe information into 941 the same order the BIOS uses. 942 */ 943 BusLogic_SortProbeInfo(&BusLogic_ProbeInfoList[FlashPointIndex], FlashPointCount); 944 return FlashPointCount; 945 } 946 947 948 /* 949 BusLogic_InitializeProbeInfoList initializes the list of I/O Address and Bus 950 Probe Information to be checked for potential BusLogic SCSI Host Adapters by 951 interrogating the PCI Configuration Space on PCI machines as well as from the 952 list of standard BusLogic MultiMaster ISA I/O Addresses. By default, if both 953 FlashPoint and PCI MultiMaster Host Adapters are present, this driver will 954 probe for FlashPoint Host Adapters first unless the BIOS primary disk is 955 controlled by the first PCI MultiMaster Host Adapter, in which case 956 MultiMaster Host Adapters will be probed first. The BusLogic Driver Options 957 specifications "MultiMasterFirst" and "FlashPointFirst" can be used to force 958 a particular probe order. 959 */ 960 961 static void __init BusLogic_InitializeProbeInfoList(struct BusLogic_HostAdapter 962 *PrototypeHostAdapter) 963 { 964 /* 965 If a PCI BIOS is present, interrogate it for MultiMaster and FlashPoint 966 Host Adapters; otherwise, default to the standard ISA MultiMaster probe. 967 */ 968 if (!BusLogic_ProbeOptions.NoProbePCI) { 969 if (BusLogic_ProbeOptions.MultiMasterFirst) { 970 BusLogic_InitializeMultiMasterProbeInfo(PrototypeHostAdapter); 971 BusLogic_InitializeFlashPointProbeInfo(PrototypeHostAdapter); 972 } else if (BusLogic_ProbeOptions.FlashPointFirst) { 973 BusLogic_InitializeFlashPointProbeInfo(PrototypeHostAdapter); 974 BusLogic_InitializeMultiMasterProbeInfo(PrototypeHostAdapter); 975 } else { 976 int FlashPointCount = BusLogic_InitializeFlashPointProbeInfo(PrototypeHostAdapter); 977 int PCIMultiMasterCount = BusLogic_InitializeMultiMasterProbeInfo(PrototypeHostAdapter); 978 if (FlashPointCount > 0 && PCIMultiMasterCount > 0) { 979 struct BusLogic_ProbeInfo *ProbeInfo = &BusLogic_ProbeInfoList[FlashPointCount]; 980 struct BusLogic_HostAdapter *HostAdapter = PrototypeHostAdapter; 981 struct BusLogic_FetchHostAdapterLocalRAMRequest FetchHostAdapterLocalRAMRequest; 982 struct BusLogic_BIOSDriveMapByte Drive0MapByte; 983 while (ProbeInfo->HostAdapterBusType != BusLogic_PCI_Bus) 984 ProbeInfo++; 985 HostAdapter->IO_Address = ProbeInfo->IO_Address; 986 FetchHostAdapterLocalRAMRequest.ByteOffset = BusLogic_BIOS_BaseOffset + BusLogic_BIOS_DriveMapOffset + 0; 987 FetchHostAdapterLocalRAMRequest.ByteCount = sizeof(Drive0MapByte); 988 BusLogic_Command(HostAdapter, BusLogic_FetchHostAdapterLocalRAM, &FetchHostAdapterLocalRAMRequest, sizeof(FetchHostAdapterLocalRAMRequest), &Drive0MapByte, sizeof(Drive0MapByte)); 989 /* 990 If the Map Byte for BIOS Drive 0 indicates that BIOS Drive 0 991 is controlled by this PCI MultiMaster Host Adapter, then 992 reverse the probe order so that MultiMaster Host Adapters are 993 probed before FlashPoint Host Adapters. 994 */ 995 if (Drive0MapByte.DiskGeometry != BusLogic_BIOS_Disk_Not_Installed) { 996 struct BusLogic_ProbeInfo SavedProbeInfo[BusLogic_MaxHostAdapters]; 997 int MultiMasterCount = BusLogic_ProbeInfoCount - FlashPointCount; 998 memcpy(SavedProbeInfo, BusLogic_ProbeInfoList, BusLogic_ProbeInfoCount * sizeof(struct BusLogic_ProbeInfo)); 999 memcpy(&BusLogic_ProbeInfoList[0], &SavedProbeInfo[FlashPointCount], MultiMasterCount * sizeof(struct BusLogic_ProbeInfo)); 1000 memcpy(&BusLogic_ProbeInfoList[MultiMasterCount], &SavedProbeInfo[0], FlashPointCount * sizeof(struct BusLogic_ProbeInfo)); 1001 } 1002 } 1003 } 1004 } else 1005 BusLogic_InitializeProbeInfoListISA(PrototypeHostAdapter); 1006 } 1007 1008 1009 #else 1010 #define BusLogic_InitializeProbeInfoList(adapter) \ 1011 BusLogic_InitializeProbeInfoListISA(adapter) 1012 #endif /* CONFIG_PCI */ 1013 1014 1015 /* 1016 BusLogic_Failure prints a standardized error message, and then returns false. 1017 */ 1018 1019 static bool BusLogic_Failure(struct BusLogic_HostAdapter *HostAdapter, char *ErrorMessage) 1020 { 1021 BusLogic_AnnounceDriver(HostAdapter); 1022 if (HostAdapter->HostAdapterBusType == BusLogic_PCI_Bus) { 1023 BusLogic_Error("While configuring BusLogic PCI Host Adapter at\n", HostAdapter); 1024 BusLogic_Error("Bus %d Device %d I/O Address 0x%X PCI Address 0x%X:\n", HostAdapter, HostAdapter->Bus, HostAdapter->Device, HostAdapter->IO_Address, HostAdapter->PCI_Address); 1025 } else 1026 BusLogic_Error("While configuring BusLogic Host Adapter at " "I/O Address 0x%X:\n", HostAdapter, HostAdapter->IO_Address); 1027 BusLogic_Error("%s FAILED - DETACHING\n", HostAdapter, ErrorMessage); 1028 if (BusLogic_CommandFailureReason != NULL) 1029 BusLogic_Error("ADDITIONAL FAILURE INFO - %s\n", HostAdapter, BusLogic_CommandFailureReason); 1030 return false; 1031 } 1032 1033 1034 /* 1035 BusLogic_ProbeHostAdapter probes for a BusLogic Host Adapter. 1036 */ 1037 1038 static bool __init BusLogic_ProbeHostAdapter(struct BusLogic_HostAdapter *HostAdapter) 1039 { 1040 union BusLogic_StatusRegister StatusRegister; 1041 union BusLogic_InterruptRegister InterruptRegister; 1042 union BusLogic_GeometryRegister GeometryRegister; 1043 /* 1044 FlashPoint Host Adapters are Probed by the FlashPoint SCCB Manager. 1045 */ 1046 if (BusLogic_FlashPointHostAdapterP(HostAdapter)) { 1047 struct FlashPoint_Info *FlashPointInfo = &HostAdapter->FlashPointInfo; 1048 FlashPointInfo->BaseAddress = (u32) HostAdapter->IO_Address; 1049 FlashPointInfo->IRQ_Channel = HostAdapter->IRQ_Channel; 1050 FlashPointInfo->Present = false; 1051 if (!(FlashPoint_ProbeHostAdapter(FlashPointInfo) == 0 && FlashPointInfo->Present)) { 1052 BusLogic_Error("BusLogic: FlashPoint Host Adapter detected at " "PCI Bus %d Device %d\n", HostAdapter, HostAdapter->Bus, HostAdapter->Device); 1053 BusLogic_Error("BusLogic: I/O Address 0x%X PCI Address 0x%X, " "but FlashPoint\n", HostAdapter, HostAdapter->IO_Address, HostAdapter->PCI_Address); 1054 BusLogic_Error("BusLogic: Probe Function failed to validate it.\n", HostAdapter); 1055 return false; 1056 } 1057 if (BusLogic_GlobalOptions.TraceProbe) 1058 BusLogic_Notice("BusLogic_Probe(0x%X): FlashPoint Found\n", HostAdapter, HostAdapter->IO_Address); 1059 /* 1060 Indicate the Host Adapter Probe completed successfully. 1061 */ 1062 return true; 1063 } 1064 /* 1065 Read the Status, Interrupt, and Geometry Registers to test if there are I/O 1066 ports that respond, and to check the values to determine if they are from a 1067 BusLogic Host Adapter. A nonexistent I/O port will return 0xFF, in which 1068 case there is definitely no BusLogic Host Adapter at this base I/O Address. 1069 The test here is a subset of that used by the BusLogic Host Adapter BIOS. 1070 */ 1071 StatusRegister.All = BusLogic_ReadStatusRegister(HostAdapter); 1072 InterruptRegister.All = BusLogic_ReadInterruptRegister(HostAdapter); 1073 GeometryRegister.All = BusLogic_ReadGeometryRegister(HostAdapter); 1074 if (BusLogic_GlobalOptions.TraceProbe) 1075 BusLogic_Notice("BusLogic_Probe(0x%X): Status 0x%02X, Interrupt 0x%02X, " "Geometry 0x%02X\n", HostAdapter, HostAdapter->IO_Address, StatusRegister.All, InterruptRegister.All, GeometryRegister.All); 1076 if (StatusRegister.All == 0 || StatusRegister.sr.DiagnosticActive || StatusRegister.sr.CommandParameterRegisterBusy || StatusRegister.sr.Reserved || StatusRegister.sr.CommandInvalid || InterruptRegister.ir.Reserved != 0) 1077 return false; 1078 /* 1079 Check the undocumented Geometry Register to test if there is an I/O port 1080 that responded. Adaptec Host Adapters do not implement the Geometry 1081 Register, so this test helps serve to avoid incorrectly recognizing an 1082 Adaptec 1542A or 1542B as a BusLogic. Unfortunately, the Adaptec 1542C 1083 series does respond to the Geometry Register I/O port, but it will be 1084 rejected later when the Inquire Extended Setup Information command is 1085 issued in BusLogic_CheckHostAdapter. The AMI FastDisk Host Adapter is a 1086 BusLogic clone that implements the same interface as earlier BusLogic 1087 Host Adapters, including the undocumented commands, and is therefore 1088 supported by this driver. However, the AMI FastDisk always returns 0x00 1089 upon reading the Geometry Register, so the extended translation option 1090 should always be left disabled on the AMI FastDisk. 1091 */ 1092 if (GeometryRegister.All == 0xFF) 1093 return false; 1094 /* 1095 Indicate the Host Adapter Probe completed successfully. 1096 */ 1097 return true; 1098 } 1099 1100 1101 /* 1102 BusLogic_HardwareResetHostAdapter issues a Hardware Reset to the Host Adapter 1103 and waits for Host Adapter Diagnostics to complete. If HardReset is true, a 1104 Hard Reset is performed which also initiates a SCSI Bus Reset. Otherwise, a 1105 Soft Reset is performed which only resets the Host Adapter without forcing a 1106 SCSI Bus Reset. 1107 */ 1108 1109 static bool BusLogic_HardwareResetHostAdapter(struct BusLogic_HostAdapter 1110 *HostAdapter, bool HardReset) 1111 { 1112 union BusLogic_StatusRegister StatusRegister; 1113 int TimeoutCounter; 1114 /* 1115 FlashPoint Host Adapters are Hard Reset by the FlashPoint SCCB Manager. 1116 */ 1117 if (BusLogic_FlashPointHostAdapterP(HostAdapter)) { 1118 struct FlashPoint_Info *FlashPointInfo = &HostAdapter->FlashPointInfo; 1119 FlashPointInfo->HostSoftReset = !HardReset; 1120 FlashPointInfo->ReportDataUnderrun = true; 1121 HostAdapter->CardHandle = FlashPoint_HardwareResetHostAdapter(FlashPointInfo); 1122 if (HostAdapter->CardHandle == FlashPoint_BadCardHandle) 1123 return false; 1124 /* 1125 Indicate the Host Adapter Hard Reset completed successfully. 1126 */ 1127 return true; 1128 } 1129 /* 1130 Issue a Hard Reset or Soft Reset Command to the Host Adapter. The Host 1131 Adapter should respond by setting Diagnostic Active in the Status Register. 1132 */ 1133 if (HardReset) 1134 BusLogic_HardReset(HostAdapter); 1135 else 1136 BusLogic_SoftReset(HostAdapter); 1137 /* 1138 Wait until Diagnostic Active is set in the Status Register. 1139 */ 1140 TimeoutCounter = 5 * 10000; 1141 while (--TimeoutCounter >= 0) { 1142 StatusRegister.All = BusLogic_ReadStatusRegister(HostAdapter); 1143 if (StatusRegister.sr.DiagnosticActive) 1144 break; 1145 udelay(100); 1146 } 1147 if (BusLogic_GlobalOptions.TraceHardwareReset) 1148 BusLogic_Notice("BusLogic_HardwareReset(0x%X): Diagnostic Active, " "Status 0x%02X\n", HostAdapter, HostAdapter->IO_Address, StatusRegister.All); 1149 if (TimeoutCounter < 0) 1150 return false; 1151 /* 1152 Wait 100 microseconds to allow completion of any initial diagnostic 1153 activity which might leave the contents of the Status Register 1154 unpredictable. 1155 */ 1156 udelay(100); 1157 /* 1158 Wait until Diagnostic Active is reset in the Status Register. 1159 */ 1160 TimeoutCounter = 10 * 10000; 1161 while (--TimeoutCounter >= 0) { 1162 StatusRegister.All = BusLogic_ReadStatusRegister(HostAdapter); 1163 if (!StatusRegister.sr.DiagnosticActive) 1164 break; 1165 udelay(100); 1166 } 1167 if (BusLogic_GlobalOptions.TraceHardwareReset) 1168 BusLogic_Notice("BusLogic_HardwareReset(0x%X): Diagnostic Completed, " "Status 0x%02X\n", HostAdapter, HostAdapter->IO_Address, StatusRegister.All); 1169 if (TimeoutCounter < 0) 1170 return false; 1171 /* 1172 Wait until at least one of the Diagnostic Failure, Host Adapter Ready, 1173 or Data In Register Ready bits is set in the Status Register. 1174 */ 1175 TimeoutCounter = 10000; 1176 while (--TimeoutCounter >= 0) { 1177 StatusRegister.All = BusLogic_ReadStatusRegister(HostAdapter); 1178 if (StatusRegister.sr.DiagnosticFailure || StatusRegister.sr.HostAdapterReady || StatusRegister.sr.DataInRegisterReady) 1179 break; 1180 udelay(100); 1181 } 1182 if (BusLogic_GlobalOptions.TraceHardwareReset) 1183 BusLogic_Notice("BusLogic_HardwareReset(0x%X): Host Adapter Ready, " "Status 0x%02X\n", HostAdapter, HostAdapter->IO_Address, StatusRegister.All); 1184 if (TimeoutCounter < 0) 1185 return false; 1186 /* 1187 If Diagnostic Failure is set or Host Adapter Ready is reset, then an 1188 error occurred during the Host Adapter diagnostics. If Data In Register 1189 Ready is set, then there is an Error Code available. 1190 */ 1191 if (StatusRegister.sr.DiagnosticFailure || !StatusRegister.sr.HostAdapterReady) { 1192 BusLogic_CommandFailureReason = NULL; 1193 BusLogic_Failure(HostAdapter, "HARD RESET DIAGNOSTICS"); 1194 BusLogic_Error("HOST ADAPTER STATUS REGISTER = %02X\n", HostAdapter, StatusRegister.All); 1195 if (StatusRegister.sr.DataInRegisterReady) { 1196 unsigned char ErrorCode = BusLogic_ReadDataInRegister(HostAdapter); 1197 BusLogic_Error("HOST ADAPTER ERROR CODE = %d\n", HostAdapter, ErrorCode); 1198 } 1199 return false; 1200 } 1201 /* 1202 Indicate the Host Adapter Hard Reset completed successfully. 1203 */ 1204 return true; 1205 } 1206 1207 1208 /* 1209 BusLogic_CheckHostAdapter checks to be sure this really is a BusLogic 1210 Host Adapter. 1211 */ 1212 1213 static bool __init BusLogic_CheckHostAdapter(struct BusLogic_HostAdapter *HostAdapter) 1214 { 1215 struct BusLogic_ExtendedSetupInformation ExtendedSetupInformation; 1216 unsigned char RequestedReplyLength; 1217 bool Result = true; 1218 /* 1219 FlashPoint Host Adapters do not require this protection. 1220 */ 1221 if (BusLogic_FlashPointHostAdapterP(HostAdapter)) 1222 return true; 1223 /* 1224 Issue the Inquire Extended Setup Information command. Only genuine 1225 BusLogic Host Adapters and true clones support this command. Adaptec 1542C 1226 series Host Adapters that respond to the Geometry Register I/O port will 1227 fail this command. 1228 */ 1229 RequestedReplyLength = sizeof(ExtendedSetupInformation); 1230 if (BusLogic_Command(HostAdapter, BusLogic_InquireExtendedSetupInformation, &RequestedReplyLength, sizeof(RequestedReplyLength), &ExtendedSetupInformation, sizeof(ExtendedSetupInformation)) 1231 != sizeof(ExtendedSetupInformation)) 1232 Result = false; 1233 /* 1234 Provide tracing information if requested and return. 1235 */ 1236 if (BusLogic_GlobalOptions.TraceProbe) 1237 BusLogic_Notice("BusLogic_Check(0x%X): MultiMaster %s\n", HostAdapter, HostAdapter->IO_Address, (Result ? "Found" : "Not Found")); 1238 return Result; 1239 } 1240 1241 1242 /* 1243 BusLogic_ReadHostAdapterConfiguration reads the Configuration Information 1244 from Host Adapter and initializes the Host Adapter structure. 1245 */ 1246 1247 static bool __init BusLogic_ReadHostAdapterConfiguration(struct BusLogic_HostAdapter 1248 *HostAdapter) 1249 { 1250 struct BusLogic_BoardID BoardID; 1251 struct BusLogic_Configuration Configuration; 1252 struct BusLogic_SetupInformation SetupInformation; 1253 struct BusLogic_ExtendedSetupInformation ExtendedSetupInformation; 1254 unsigned char HostAdapterModelNumber[5]; 1255 unsigned char FirmwareVersion3rdDigit; 1256 unsigned char FirmwareVersionLetter; 1257 struct BusLogic_PCIHostAdapterInformation PCIHostAdapterInformation; 1258 struct BusLogic_FetchHostAdapterLocalRAMRequest FetchHostAdapterLocalRAMRequest; 1259 struct BusLogic_AutoSCSIData AutoSCSIData; 1260 union BusLogic_GeometryRegister GeometryRegister; 1261 unsigned char RequestedReplyLength; 1262 unsigned char *TargetPointer, Character; 1263 int TargetID, i; 1264 /* 1265 Configuration Information for FlashPoint Host Adapters is provided in the 1266 FlashPoint_Info structure by the FlashPoint SCCB Manager's Probe Function. 1267 Initialize fields in the Host Adapter structure from the FlashPoint_Info 1268 structure. 1269 */ 1270 if (BusLogic_FlashPointHostAdapterP(HostAdapter)) { 1271 struct FlashPoint_Info *FlashPointInfo = &HostAdapter->FlashPointInfo; 1272 TargetPointer = HostAdapter->ModelName; 1273 *TargetPointer++ = 'B'; 1274 *TargetPointer++ = 'T'; 1275 *TargetPointer++ = '-'; 1276 for (i = 0; i < sizeof(FlashPointInfo->ModelNumber); i++) 1277 *TargetPointer++ = FlashPointInfo->ModelNumber[i]; 1278 *TargetPointer++ = '\0'; 1279 strcpy(HostAdapter->FirmwareVersion, FlashPoint_FirmwareVersion); 1280 HostAdapter->SCSI_ID = FlashPointInfo->SCSI_ID; 1281 HostAdapter->ExtendedTranslationEnabled = FlashPointInfo->ExtendedTranslationEnabled; 1282 HostAdapter->ParityCheckingEnabled = FlashPointInfo->ParityCheckingEnabled; 1283 HostAdapter->BusResetEnabled = !FlashPointInfo->HostSoftReset; 1284 HostAdapter->LevelSensitiveInterrupt = true; 1285 HostAdapter->HostWideSCSI = FlashPointInfo->HostWideSCSI; 1286 HostAdapter->HostDifferentialSCSI = false; 1287 HostAdapter->HostSupportsSCAM = true; 1288 HostAdapter->HostUltraSCSI = true; 1289 HostAdapter->ExtendedLUNSupport = true; 1290 HostAdapter->TerminationInfoValid = true; 1291 HostAdapter->LowByteTerminated = FlashPointInfo->LowByteTerminated; 1292 HostAdapter->HighByteTerminated = FlashPointInfo->HighByteTerminated; 1293 HostAdapter->SCAM_Enabled = FlashPointInfo->SCAM_Enabled; 1294 HostAdapter->SCAM_Level2 = FlashPointInfo->SCAM_Level2; 1295 HostAdapter->DriverScatterGatherLimit = BusLogic_ScatterGatherLimit; 1296 HostAdapter->MaxTargetDevices = (HostAdapter->HostWideSCSI ? 16 : 8); 1297 HostAdapter->MaxLogicalUnits = 32; 1298 HostAdapter->InitialCCBs = 4 * BusLogic_CCB_AllocationGroupSize; 1299 HostAdapter->IncrementalCCBs = BusLogic_CCB_AllocationGroupSize; 1300 HostAdapter->DriverQueueDepth = 255; 1301 HostAdapter->HostAdapterQueueDepth = HostAdapter->DriverQueueDepth; 1302 HostAdapter->SynchronousPermitted = FlashPointInfo->SynchronousPermitted; 1303 HostAdapter->FastPermitted = FlashPointInfo->FastPermitted; 1304 HostAdapter->UltraPermitted = FlashPointInfo->UltraPermitted; 1305 HostAdapter->WidePermitted = FlashPointInfo->WidePermitted; 1306 HostAdapter->DisconnectPermitted = FlashPointInfo->DisconnectPermitted; 1307 HostAdapter->TaggedQueuingPermitted = 0xFFFF; 1308 goto Common; 1309 } 1310 /* 1311 Issue the Inquire Board ID command. 1312 */ 1313 if (BusLogic_Command(HostAdapter, BusLogic_InquireBoardID, NULL, 0, &BoardID, sizeof(BoardID)) != sizeof(BoardID)) 1314 return BusLogic_Failure(HostAdapter, "INQUIRE BOARD ID"); 1315 /* 1316 Issue the Inquire Configuration command. 1317 */ 1318 if (BusLogic_Command(HostAdapter, BusLogic_InquireConfiguration, NULL, 0, &Configuration, sizeof(Configuration)) 1319 != sizeof(Configuration)) 1320 return BusLogic_Failure(HostAdapter, "INQUIRE CONFIGURATION"); 1321 /* 1322 Issue the Inquire Setup Information command. 1323 */ 1324 RequestedReplyLength = sizeof(SetupInformation); 1325 if (BusLogic_Command(HostAdapter, BusLogic_InquireSetupInformation, &RequestedReplyLength, sizeof(RequestedReplyLength), &SetupInformation, sizeof(SetupInformation)) 1326 != sizeof(SetupInformation)) 1327 return BusLogic_Failure(HostAdapter, "INQUIRE SETUP INFORMATION"); 1328 /* 1329 Issue the Inquire Extended Setup Information command. 1330 */ 1331 RequestedReplyLength = sizeof(ExtendedSetupInformation); 1332 if (BusLogic_Command(HostAdapter, BusLogic_InquireExtendedSetupInformation, &RequestedReplyLength, sizeof(RequestedReplyLength), &ExtendedSetupInformation, sizeof(ExtendedSetupInformation)) 1333 != sizeof(ExtendedSetupInformation)) 1334 return BusLogic_Failure(HostAdapter, "INQUIRE EXTENDED SETUP INFORMATION"); 1335 /* 1336 Issue the Inquire Firmware Version 3rd Digit command. 1337 */ 1338 FirmwareVersion3rdDigit = '\0'; 1339 if (BoardID.FirmwareVersion1stDigit > '0') 1340 if (BusLogic_Command(HostAdapter, BusLogic_InquireFirmwareVersion3rdDigit, NULL, 0, &FirmwareVersion3rdDigit, sizeof(FirmwareVersion3rdDigit)) 1341 != sizeof(FirmwareVersion3rdDigit)) 1342 return BusLogic_Failure(HostAdapter, "INQUIRE FIRMWARE 3RD DIGIT"); 1343 /* 1344 Issue the Inquire Host Adapter Model Number command. 1345 */ 1346 if (ExtendedSetupInformation.BusType == 'A' && BoardID.FirmwareVersion1stDigit == '2') 1347 /* BusLogic BT-542B ISA 2.xx */ 1348 strcpy(HostAdapterModelNumber, "542B"); 1349 else if (ExtendedSetupInformation.BusType == 'E' && BoardID.FirmwareVersion1stDigit == '2' && (BoardID.FirmwareVersion2ndDigit <= '1' || (BoardID.FirmwareVersion2ndDigit == '2' && FirmwareVersion3rdDigit == '0'))) 1350 /* BusLogic BT-742A EISA 2.1x or 2.20 */ 1351 strcpy(HostAdapterModelNumber, "742A"); 1352 else if (ExtendedSetupInformation.BusType == 'E' && BoardID.FirmwareVersion1stDigit == '0') 1353 /* AMI FastDisk EISA Series 441 0.x */ 1354 strcpy(HostAdapterModelNumber, "747A"); 1355 else { 1356 RequestedReplyLength = sizeof(HostAdapterModelNumber); 1357 if (BusLogic_Command(HostAdapter, BusLogic_InquireHostAdapterModelNumber, &RequestedReplyLength, sizeof(RequestedReplyLength), &HostAdapterModelNumber, sizeof(HostAdapterModelNumber)) 1358 != sizeof(HostAdapterModelNumber)) 1359 return BusLogic_Failure(HostAdapter, "INQUIRE HOST ADAPTER MODEL NUMBER"); 1360 } 1361 /* 1362 BusLogic MultiMaster Host Adapters can be identified by their model number 1363 and the major version number of their firmware as follows: 1364 1365 5.xx BusLogic "W" Series Host Adapters: 1366 BT-948/958/958D 1367 4.xx BusLogic "C" Series Host Adapters: 1368 BT-946C/956C/956CD/747C/757C/757CD/445C/545C/540CF 1369 3.xx BusLogic "S" Series Host Adapters: 1370 BT-747S/747D/757S/757D/445S/545S/542D 1371 BT-542B/742A (revision H) 1372 2.xx BusLogic "A" Series Host Adapters: 1373 BT-542B/742A (revision G and below) 1374 0.xx AMI FastDisk VLB/EISA BusLogic Clone Host Adapter 1375 */ 1376 /* 1377 Save the Model Name and Host Adapter Name in the Host Adapter structure. 1378 */ 1379 TargetPointer = HostAdapter->ModelName; 1380 *TargetPointer++ = 'B'; 1381 *TargetPointer++ = 'T'; 1382 *TargetPointer++ = '-'; 1383 for (i = 0; i < sizeof(HostAdapterModelNumber); i++) { 1384 Character = HostAdapterModelNumber[i]; 1385 if (Character == ' ' || Character == '\0') 1386 break; 1387 *TargetPointer++ = Character; 1388 } 1389 *TargetPointer++ = '\0'; 1390 /* 1391 Save the Firmware Version in the Host Adapter structure. 1392 */ 1393 TargetPointer = HostAdapter->FirmwareVersion; 1394 *TargetPointer++ = BoardID.FirmwareVersion1stDigit; 1395 *TargetPointer++ = '.'; 1396 *TargetPointer++ = BoardID.FirmwareVersion2ndDigit; 1397 if (FirmwareVersion3rdDigit != ' ' && FirmwareVersion3rdDigit != '\0') 1398 *TargetPointer++ = FirmwareVersion3rdDigit; 1399 *TargetPointer = '\0'; 1400 /* 1401 Issue the Inquire Firmware Version Letter command. 1402 */ 1403 if (strcmp(HostAdapter->FirmwareVersion, "3.3") >= 0) { 1404 if (BusLogic_Command(HostAdapter, BusLogic_InquireFirmwareVersionLetter, NULL, 0, &FirmwareVersionLetter, sizeof(FirmwareVersionLetter)) 1405 != sizeof(FirmwareVersionLetter)) 1406 return BusLogic_Failure(HostAdapter, "INQUIRE FIRMWARE VERSION LETTER"); 1407 if (FirmwareVersionLetter != ' ' && FirmwareVersionLetter != '\0') 1408 *TargetPointer++ = FirmwareVersionLetter; 1409 *TargetPointer = '\0'; 1410 } 1411 /* 1412 Save the Host Adapter SCSI ID in the Host Adapter structure. 1413 */ 1414 HostAdapter->SCSI_ID = Configuration.HostAdapterID; 1415 /* 1416 Determine the Bus Type and save it in the Host Adapter structure, determine 1417 and save the IRQ Channel if necessary, and determine and save the DMA 1418 Channel for ISA Host Adapters. 1419 */ 1420 HostAdapter->HostAdapterBusType = BusLogic_HostAdapterBusTypes[HostAdapter->ModelName[3] - '4']; 1421 if (HostAdapter->IRQ_Channel == 0) { 1422 if (Configuration.IRQ_Channel9) 1423 HostAdapter->IRQ_Channel = 9; 1424 else if (Configuration.IRQ_Channel10) 1425 HostAdapter->IRQ_Channel = 10; 1426 else if (Configuration.IRQ_Channel11) 1427 HostAdapter->IRQ_Channel = 11; 1428 else if (Configuration.IRQ_Channel12) 1429 HostAdapter->IRQ_Channel = 12; 1430 else if (Configuration.IRQ_Channel14) 1431 HostAdapter->IRQ_Channel = 14; 1432 else if (Configuration.IRQ_Channel15) 1433 HostAdapter->IRQ_Channel = 15; 1434 } 1435 if (HostAdapter->HostAdapterBusType == BusLogic_ISA_Bus) { 1436 if (Configuration.DMA_Channel5) 1437 HostAdapter->DMA_Channel = 5; 1438 else if (Configuration.DMA_Channel6) 1439 HostAdapter->DMA_Channel = 6; 1440 else if (Configuration.DMA_Channel7) 1441 HostAdapter->DMA_Channel = 7; 1442 } 1443 /* 1444 Determine whether Extended Translation is enabled and save it in 1445 the Host Adapter structure. 1446 */ 1447 GeometryRegister.All = BusLogic_ReadGeometryRegister(HostAdapter); 1448 HostAdapter->ExtendedTranslationEnabled = GeometryRegister.gr.ExtendedTranslationEnabled; 1449 /* 1450 Save the Scatter Gather Limits, Level Sensitive Interrupt flag, Wide 1451 SCSI flag, Differential SCSI flag, SCAM Supported flag, and 1452 Ultra SCSI flag in the Host Adapter structure. 1453 */ 1454 HostAdapter->HostAdapterScatterGatherLimit = ExtendedSetupInformation.ScatterGatherLimit; 1455 HostAdapter->DriverScatterGatherLimit = HostAdapter->HostAdapterScatterGatherLimit; 1456 if (HostAdapter->HostAdapterScatterGatherLimit > BusLogic_ScatterGatherLimit) 1457 HostAdapter->DriverScatterGatherLimit = BusLogic_ScatterGatherLimit; 1458 if (ExtendedSetupInformation.Misc.LevelSensitiveInterrupt) 1459 HostAdapter->LevelSensitiveInterrupt = true; 1460 HostAdapter->HostWideSCSI = ExtendedSetupInformation.HostWideSCSI; 1461 HostAdapter->HostDifferentialSCSI = ExtendedSetupInformation.HostDifferentialSCSI; 1462 HostAdapter->HostSupportsSCAM = ExtendedSetupInformation.HostSupportsSCAM; 1463 HostAdapter->HostUltraSCSI = ExtendedSetupInformation.HostUltraSCSI; 1464 /* 1465 Determine whether Extended LUN Format CCBs are supported and save the 1466 information in the Host Adapter structure. 1467 */ 1468 if (HostAdapter->FirmwareVersion[0] == '5' || (HostAdapter->FirmwareVersion[0] == '4' && HostAdapter->HostWideSCSI)) 1469 HostAdapter->ExtendedLUNSupport = true; 1470 /* 1471 Issue the Inquire PCI Host Adapter Information command to read the 1472 Termination Information from "W" series MultiMaster Host Adapters. 1473 */ 1474 if (HostAdapter->FirmwareVersion[0] == '5') { 1475 if (BusLogic_Command(HostAdapter, BusLogic_InquirePCIHostAdapterInformation, NULL, 0, &PCIHostAdapterInformation, sizeof(PCIHostAdapterInformation)) 1476 != sizeof(PCIHostAdapterInformation)) 1477 return BusLogic_Failure(HostAdapter, "INQUIRE PCI HOST ADAPTER INFORMATION"); 1478 /* 1479 Save the Termination Information in the Host Adapter structure. 1480 */ 1481 if (PCIHostAdapterInformation.GenericInfoValid) { 1482 HostAdapter->TerminationInfoValid = true; 1483 HostAdapter->LowByteTerminated = PCIHostAdapterInformation.LowByteTerminated; 1484 HostAdapter->HighByteTerminated = PCIHostAdapterInformation.HighByteTerminated; 1485 } 1486 } 1487 /* 1488 Issue the Fetch Host Adapter Local RAM command to read the AutoSCSI data 1489 from "W" and "C" series MultiMaster Host Adapters. 1490 */ 1491 if (HostAdapter->FirmwareVersion[0] >= '4') { 1492 FetchHostAdapterLocalRAMRequest.ByteOffset = BusLogic_AutoSCSI_BaseOffset; 1493 FetchHostAdapterLocalRAMRequest.ByteCount = sizeof(AutoSCSIData); 1494 if (BusLogic_Command(HostAdapter, BusLogic_FetchHostAdapterLocalRAM, &FetchHostAdapterLocalRAMRequest, sizeof(FetchHostAdapterLocalRAMRequest), &AutoSCSIData, sizeof(AutoSCSIData)) 1495 != sizeof(AutoSCSIData)) 1496 return BusLogic_Failure(HostAdapter, "FETCH HOST ADAPTER LOCAL RAM"); 1497 /* 1498 Save the Parity Checking Enabled, Bus Reset Enabled, and Termination 1499 Information in the Host Adapter structure. 1500 */ 1501 HostAdapter->ParityCheckingEnabled = AutoSCSIData.ParityCheckingEnabled; 1502 HostAdapter->BusResetEnabled = AutoSCSIData.BusResetEnabled; 1503 if (HostAdapter->FirmwareVersion[0] == '4') { 1504 HostAdapter->TerminationInfoValid = true; 1505 HostAdapter->LowByteTerminated = AutoSCSIData.LowByteTerminated; 1506 HostAdapter->HighByteTerminated = AutoSCSIData.HighByteTerminated; 1507 } 1508 /* 1509 Save the Wide Permitted, Fast Permitted, Synchronous Permitted, 1510 Disconnect Permitted, Ultra Permitted, and SCAM Information in the 1511 Host Adapter structure. 1512 */ 1513 HostAdapter->WidePermitted = AutoSCSIData.WidePermitted; 1514 HostAdapter->FastPermitted = AutoSCSIData.FastPermitted; 1515 HostAdapter->SynchronousPermitted = AutoSCSIData.SynchronousPermitted; 1516 HostAdapter->DisconnectPermitted = AutoSCSIData.DisconnectPermitted; 1517 if (HostAdapter->HostUltraSCSI) 1518 HostAdapter->UltraPermitted = AutoSCSIData.UltraPermitted; 1519 if (HostAdapter->HostSupportsSCAM) { 1520 HostAdapter->SCAM_Enabled = AutoSCSIData.SCAM_Enabled; 1521 HostAdapter->SCAM_Level2 = AutoSCSIData.SCAM_Level2; 1522 } 1523 } 1524 /* 1525 Initialize fields in the Host Adapter structure for "S" and "A" series 1526 MultiMaster Host Adapters. 1527 */ 1528 if (HostAdapter->FirmwareVersion[0] < '4') { 1529 if (SetupInformation.SynchronousInitiationEnabled) { 1530 HostAdapter->SynchronousPermitted = 0xFF; 1531 if (HostAdapter->HostAdapterBusType == BusLogic_EISA_Bus) { 1532 if (ExtendedSetupInformation.Misc.FastOnEISA) 1533 HostAdapter->FastPermitted = 0xFF; 1534 if (strcmp(HostAdapter->ModelName, "BT-757") == 0) 1535 HostAdapter->WidePermitted = 0xFF; 1536 } 1537 } 1538 HostAdapter->DisconnectPermitted = 0xFF; 1539 HostAdapter->ParityCheckingEnabled = SetupInformation.ParityCheckingEnabled; 1540 HostAdapter->BusResetEnabled = true; 1541 } 1542 /* 1543 Determine the maximum number of Target IDs and Logical Units supported by 1544 this driver for Wide and Narrow Host Adapters. 1545 */ 1546 HostAdapter->MaxTargetDevices = (HostAdapter->HostWideSCSI ? 16 : 8); 1547 HostAdapter->MaxLogicalUnits = (HostAdapter->ExtendedLUNSupport ? 32 : 8); 1548 /* 1549 Select appropriate values for the Mailbox Count, Driver Queue Depth, 1550 Initial CCBs, and Incremental CCBs variables based on whether or not Strict 1551 Round Robin Mode is supported. If Strict Round Robin Mode is supported, 1552 then there is no performance degradation in using the maximum possible 1553 number of Outgoing and Incoming Mailboxes and allowing the Tagged and 1554 Untagged Queue Depths to determine the actual utilization. If Strict Round 1555 Robin Mode is not supported, then the Host Adapter must scan all the 1556 Outgoing Mailboxes whenever an Outgoing Mailbox entry is made, which can 1557 cause a substantial performance penalty. The host adapters actually have 1558 room to store the following number of CCBs internally; that is, they can 1559 internally queue and manage this many active commands on the SCSI bus 1560 simultaneously. Performance measurements demonstrate that the Driver Queue 1561 Depth should be set to the Mailbox Count, rather than the Host Adapter 1562 Queue Depth (internal CCB capacity), as it is more efficient to have the 1563 queued commands waiting in Outgoing Mailboxes if necessary than to block 1564 the process in the higher levels of the SCSI Subsystem. 1565 1566 192 BT-948/958/958D 1567 100 BT-946C/956C/956CD/747C/757C/757CD/445C 1568 50 BT-545C/540CF 1569 30 BT-747S/747D/757S/757D/445S/545S/542D/542B/742A 1570 */ 1571 if (HostAdapter->FirmwareVersion[0] == '5') 1572 HostAdapter->HostAdapterQueueDepth = 192; 1573 else if (HostAdapter->FirmwareVersion[0] == '4') 1574 HostAdapter->HostAdapterQueueDepth = (HostAdapter->HostAdapterBusType != BusLogic_ISA_Bus ? 100 : 50); 1575 else 1576 HostAdapter->HostAdapterQueueDepth = 30; 1577 if (strcmp(HostAdapter->FirmwareVersion, "3.31") >= 0) { 1578 HostAdapter->StrictRoundRobinModeSupport = true; 1579 HostAdapter->MailboxCount = BusLogic_MaxMailboxes; 1580 } else { 1581 HostAdapter->StrictRoundRobinModeSupport = false; 1582 HostAdapter->MailboxCount = 32; 1583 } 1584 HostAdapter->DriverQueueDepth = HostAdapter->MailboxCount; 1585 HostAdapter->InitialCCBs = 4 * BusLogic_CCB_AllocationGroupSize; 1586 HostAdapter->IncrementalCCBs = BusLogic_CCB_AllocationGroupSize; 1587 /* 1588 Tagged Queuing support is available and operates properly on all "W" series 1589 MultiMaster Host Adapters, on "C" series MultiMaster Host Adapters with 1590 firmware version 4.22 and above, and on "S" series MultiMaster Host 1591 Adapters with firmware version 3.35 and above. 1592 */ 1593 HostAdapter->TaggedQueuingPermitted = 0; 1594 switch (HostAdapter->FirmwareVersion[0]) { 1595 case '5': 1596 HostAdapter->TaggedQueuingPermitted = 0xFFFF; 1597 break; 1598 case '4': 1599 if (strcmp(HostAdapter->FirmwareVersion, "4.22") >= 0) 1600 HostAdapter->TaggedQueuingPermitted = 0xFFFF; 1601 break; 1602 case '3': 1603 if (strcmp(HostAdapter->FirmwareVersion, "3.35") >= 0) 1604 HostAdapter->TaggedQueuingPermitted = 0xFFFF; 1605 break; 1606 } 1607 /* 1608 Determine the Host Adapter BIOS Address if the BIOS is enabled and 1609 save it in the Host Adapter structure. The BIOS is disabled if the 1610 BIOS_Address is 0. 1611 */ 1612 HostAdapter->BIOS_Address = ExtendedSetupInformation.BIOS_Address << 12; 1613 /* 1614 ISA Host Adapters require Bounce Buffers if there is more than 16MB memory. 1615 */ 1616 if (HostAdapter->HostAdapterBusType == BusLogic_ISA_Bus && (void *) high_memory > (void *) MAX_DMA_ADDRESS) 1617 HostAdapter->BounceBuffersRequired = true; 1618 /* 1619 BusLogic BT-445S Host Adapters prior to board revision E have a hardware 1620 bug whereby when the BIOS is enabled, transfers to/from the same address 1621 range the BIOS occupies modulo 16MB are handled incorrectly. Only properly 1622 functioning BT-445S Host Adapters have firmware version 3.37, so require 1623 that ISA Bounce Buffers be used for the buggy BT-445S models if there is 1624 more than 16MB memory. 1625 */ 1626 if (HostAdapter->BIOS_Address > 0 && strcmp(HostAdapter->ModelName, "BT-445S") == 0 && strcmp(HostAdapter->FirmwareVersion, "3.37") < 0 && (void *) high_memory > (void *) MAX_DMA_ADDRESS) 1627 HostAdapter->BounceBuffersRequired = true; 1628 /* 1629 Initialize parameters common to MultiMaster and FlashPoint Host Adapters. 1630 */ 1631 Common: 1632 /* 1633 Initialize the Host Adapter Full Model Name from the Model Name. 1634 */ 1635 strcpy(HostAdapter->FullModelName, "BusLogic "); 1636 strcat(HostAdapter->FullModelName, HostAdapter->ModelName); 1637 /* 1638 Select an appropriate value for the Tagged Queue Depth either from a 1639 BusLogic Driver Options specification, or based on whether this Host 1640 Adapter requires that ISA Bounce Buffers be used. The Tagged Queue Depth 1641 is left at 0 for automatic determination in BusLogic_SelectQueueDepths. 1642 Initialize the Untagged Queue Depth. 1643 */ 1644 for (TargetID = 0; TargetID < BusLogic_MaxTargetDevices; TargetID++) { 1645 unsigned char QueueDepth = 0; 1646 if (HostAdapter->DriverOptions != NULL && HostAdapter->DriverOptions->QueueDepth[TargetID] > 0) 1647 QueueDepth = HostAdapter->DriverOptions->QueueDepth[TargetID]; 1648 else if (HostAdapter->BounceBuffersRequired) 1649 QueueDepth = BusLogic_TaggedQueueDepthBB; 1650 HostAdapter->QueueDepth[TargetID] = QueueDepth; 1651 } 1652 if (HostAdapter->BounceBuffersRequired) 1653 HostAdapter->UntaggedQueueDepth = BusLogic_UntaggedQueueDepthBB; 1654 else 1655 HostAdapter->UntaggedQueueDepth = BusLogic_UntaggedQueueDepth; 1656 if (HostAdapter->DriverOptions != NULL) 1657 HostAdapter->CommonQueueDepth = HostAdapter->DriverOptions->CommonQueueDepth; 1658 if (HostAdapter->CommonQueueDepth > 0 && HostAdapter->CommonQueueDepth < HostAdapter->UntaggedQueueDepth) 1659 HostAdapter->UntaggedQueueDepth = HostAdapter->CommonQueueDepth; 1660 /* 1661 Tagged Queuing is only allowed if Disconnect/Reconnect is permitted. 1662 Therefore, mask the Tagged Queuing Permitted Default bits with the 1663 Disconnect/Reconnect Permitted bits. 1664 */ 1665 HostAdapter->TaggedQueuingPermitted &= HostAdapter->DisconnectPermitted; 1666 /* 1667 Combine the default Tagged Queuing Permitted bits with any BusLogic Driver 1668 Options Tagged Queuing specification. 1669 */ 1670 if (HostAdapter->DriverOptions != NULL) 1671 HostAdapter->TaggedQueuingPermitted = 1672 (HostAdapter->DriverOptions->TaggedQueuingPermitted & HostAdapter->DriverOptions->TaggedQueuingPermittedMask) | (HostAdapter->TaggedQueuingPermitted & ~HostAdapter->DriverOptions->TaggedQueuingPermittedMask); 1673 1674 /* 1675 Select an appropriate value for Bus Settle Time either from a BusLogic 1676 Driver Options specification, or from BusLogic_DefaultBusSettleTime. 1677 */ 1678 if (HostAdapter->DriverOptions != NULL && HostAdapter->DriverOptions->BusSettleTime > 0) 1679 HostAdapter->BusSettleTime = HostAdapter->DriverOptions->BusSettleTime; 1680 else 1681 HostAdapter->BusSettleTime = BusLogic_DefaultBusSettleTime; 1682 /* 1683 Indicate reading the Host Adapter Configuration completed successfully. 1684 */ 1685 return true; 1686 } 1687 1688 1689 /* 1690 BusLogic_ReportHostAdapterConfiguration reports the configuration of 1691 Host Adapter. 1692 */ 1693 1694 static bool __init BusLogic_ReportHostAdapterConfiguration(struct BusLogic_HostAdapter 1695 *HostAdapter) 1696 { 1697 unsigned short AllTargetsMask = (1 << HostAdapter->MaxTargetDevices) - 1; 1698 unsigned short SynchronousPermitted, FastPermitted; 1699 unsigned short UltraPermitted, WidePermitted; 1700 unsigned short DisconnectPermitted, TaggedQueuingPermitted; 1701 bool CommonSynchronousNegotiation, CommonTaggedQueueDepth; 1702 char SynchronousString[BusLogic_MaxTargetDevices + 1]; 1703 char WideString[BusLogic_MaxTargetDevices + 1]; 1704 char DisconnectString[BusLogic_MaxTargetDevices + 1]; 1705 char TaggedQueuingString[BusLogic_MaxTargetDevices + 1]; 1706 char *SynchronousMessage = SynchronousString; 1707 char *WideMessage = WideString; 1708 char *DisconnectMessage = DisconnectString; 1709 char *TaggedQueuingMessage = TaggedQueuingString; 1710 int TargetID; 1711 BusLogic_Info("Configuring BusLogic Model %s %s%s%s%s SCSI Host Adapter\n", 1712 HostAdapter, HostAdapter->ModelName, 1713 BusLogic_HostAdapterBusNames[HostAdapter->HostAdapterBusType], (HostAdapter->HostWideSCSI ? " Wide" : ""), (HostAdapter->HostDifferentialSCSI ? " Differential" : ""), (HostAdapter->HostUltraSCSI ? " Ultra" : "")); 1714 BusLogic_Info(" Firmware Version: %s, I/O Address: 0x%X, " "IRQ Channel: %d/%s\n", HostAdapter, HostAdapter->FirmwareVersion, HostAdapter->IO_Address, HostAdapter->IRQ_Channel, (HostAdapter->LevelSensitiveInterrupt ? "Level" : "Edge")); 1715 if (HostAdapter->HostAdapterBusType != BusLogic_PCI_Bus) { 1716 BusLogic_Info(" DMA Channel: ", HostAdapter); 1717 if (HostAdapter->DMA_Channel > 0) 1718 BusLogic_Info("%d, ", HostAdapter, HostAdapter->DMA_Channel); 1719 else 1720 BusLogic_Info("None, ", HostAdapter); 1721 if (HostAdapter->BIOS_Address > 0) 1722 BusLogic_Info("BIOS Address: 0x%X, ", HostAdapter, HostAdapter->BIOS_Address); 1723 else 1724 BusLogic_Info("BIOS Address: None, ", HostAdapter); 1725 } else { 1726 BusLogic_Info(" PCI Bus: %d, Device: %d, Address: ", HostAdapter, HostAdapter->Bus, HostAdapter->Device); 1727 if (HostAdapter->PCI_Address > 0) 1728 BusLogic_Info("0x%X, ", HostAdapter, HostAdapter->PCI_Address); 1729 else 1730 BusLogic_Info("Unassigned, ", HostAdapter); 1731 } 1732 BusLogic_Info("Host Adapter SCSI ID: %d\n", HostAdapter, HostAdapter->SCSI_ID); 1733 BusLogic_Info(" Parity Checking: %s, Extended Translation: %s\n", HostAdapter, (HostAdapter->ParityCheckingEnabled ? "Enabled" : "Disabled"), (HostAdapter->ExtendedTranslationEnabled ? "Enabled" : "Disabled")); 1734 AllTargetsMask &= ~(1 << HostAdapter->SCSI_ID); 1735 SynchronousPermitted = HostAdapter->SynchronousPermitted & AllTargetsMask; 1736 FastPermitted = HostAdapter->FastPermitted & AllTargetsMask; 1737 UltraPermitted = HostAdapter->UltraPermitted & AllTargetsMask; 1738 if ((BusLogic_MultiMasterHostAdapterP(HostAdapter) && (HostAdapter->FirmwareVersion[0] >= '4' || HostAdapter->HostAdapterBusType == BusLogic_EISA_Bus)) || BusLogic_FlashPointHostAdapterP(HostAdapter)) { 1739 CommonSynchronousNegotiation = false; 1740 if (SynchronousPermitted == 0) { 1741 SynchronousMessage = "Disabled"; 1742 CommonSynchronousNegotiation = true; 1743 } else if (SynchronousPermitted == AllTargetsMask) { 1744 if (FastPermitted == 0) { 1745 SynchronousMessage = "Slow"; 1746 CommonSynchronousNegotiation = true; 1747 } else if (FastPermitted == AllTargetsMask) { 1748 if (UltraPermitted == 0) { 1749 SynchronousMessage = "Fast"; 1750 CommonSynchronousNegotiation = true; 1751 } else if (UltraPermitted == AllTargetsMask) { 1752 SynchronousMessage = "Ultra"; 1753 CommonSynchronousNegotiation = true; 1754 } 1755 } 1756 } 1757 if (!CommonSynchronousNegotiation) { 1758 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 1759 SynchronousString[TargetID] = ((!(SynchronousPermitted & (1 << TargetID))) ? 'N' : (!(FastPermitted & (1 << TargetID)) ? 'S' : (!(UltraPermitted & (1 << TargetID)) ? 'F' : 'U'))); 1760 SynchronousString[HostAdapter->SCSI_ID] = '#'; 1761 SynchronousString[HostAdapter->MaxTargetDevices] = '\0'; 1762 } 1763 } else 1764 SynchronousMessage = (SynchronousPermitted == 0 ? "Disabled" : "Enabled"); 1765 WidePermitted = HostAdapter->WidePermitted & AllTargetsMask; 1766 if (WidePermitted == 0) 1767 WideMessage = "Disabled"; 1768 else if (WidePermitted == AllTargetsMask) 1769 WideMessage = "Enabled"; 1770 else { 1771 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 1772 WideString[TargetID] = ((WidePermitted & (1 << TargetID)) ? 'Y' : 'N'); 1773 WideString[HostAdapter->SCSI_ID] = '#'; 1774 WideString[HostAdapter->MaxTargetDevices] = '\0'; 1775 } 1776 DisconnectPermitted = HostAdapter->DisconnectPermitted & AllTargetsMask; 1777 if (DisconnectPermitted == 0) 1778 DisconnectMessage = "Disabled"; 1779 else if (DisconnectPermitted == AllTargetsMask) 1780 DisconnectMessage = "Enabled"; 1781 else { 1782 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 1783 DisconnectString[TargetID] = ((DisconnectPermitted & (1 << TargetID)) ? 'Y' : 'N'); 1784 DisconnectString[HostAdapter->SCSI_ID] = '#'; 1785 DisconnectString[HostAdapter->MaxTargetDevices] = '\0'; 1786 } 1787 TaggedQueuingPermitted = HostAdapter->TaggedQueuingPermitted & AllTargetsMask; 1788 if (TaggedQueuingPermitted == 0) 1789 TaggedQueuingMessage = "Disabled"; 1790 else if (TaggedQueuingPermitted == AllTargetsMask) 1791 TaggedQueuingMessage = "Enabled"; 1792 else { 1793 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 1794 TaggedQueuingString[TargetID] = ((TaggedQueuingPermitted & (1 << TargetID)) ? 'Y' : 'N'); 1795 TaggedQueuingString[HostAdapter->SCSI_ID] = '#'; 1796 TaggedQueuingString[HostAdapter->MaxTargetDevices] = '\0'; 1797 } 1798 BusLogic_Info(" Synchronous Negotiation: %s, Wide Negotiation: %s\n", HostAdapter, SynchronousMessage, WideMessage); 1799 BusLogic_Info(" Disconnect/Reconnect: %s, Tagged Queuing: %s\n", HostAdapter, DisconnectMessage, TaggedQueuingMessage); 1800 if (BusLogic_MultiMasterHostAdapterP(HostAdapter)) { 1801 BusLogic_Info(" Scatter/Gather Limit: %d of %d segments, " "Mailboxes: %d\n", HostAdapter, HostAdapter->DriverScatterGatherLimit, HostAdapter->HostAdapterScatterGatherLimit, HostAdapter->MailboxCount); 1802 BusLogic_Info(" Driver Queue Depth: %d, " "Host Adapter Queue Depth: %d\n", HostAdapter, HostAdapter->DriverQueueDepth, HostAdapter->HostAdapterQueueDepth); 1803 } else 1804 BusLogic_Info(" Driver Queue Depth: %d, " "Scatter/Gather Limit: %d segments\n", HostAdapter, HostAdapter->DriverQueueDepth, HostAdapter->DriverScatterGatherLimit); 1805 BusLogic_Info(" Tagged Queue Depth: ", HostAdapter); 1806 CommonTaggedQueueDepth = true; 1807 for (TargetID = 1; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 1808 if (HostAdapter->QueueDepth[TargetID] != HostAdapter->QueueDepth[0]) { 1809 CommonTaggedQueueDepth = false; 1810 break; 1811 } 1812 if (CommonTaggedQueueDepth) { 1813 if (HostAdapter->QueueDepth[0] > 0) 1814 BusLogic_Info("%d", HostAdapter, HostAdapter->QueueDepth[0]); 1815 else 1816 BusLogic_Info("Automatic", HostAdapter); 1817 } else 1818 BusLogic_Info("Individual", HostAdapter); 1819 BusLogic_Info(", Untagged Queue Depth: %d\n", HostAdapter, HostAdapter->UntaggedQueueDepth); 1820 if (HostAdapter->TerminationInfoValid) { 1821 if (HostAdapter->HostWideSCSI) 1822 BusLogic_Info(" SCSI Bus Termination: %s", HostAdapter, (HostAdapter->LowByteTerminated ? (HostAdapter->HighByteTerminated ? "Both Enabled" : "Low Enabled") 1823 : (HostAdapter->HighByteTerminated ? "High Enabled" : "Both Disabled"))); 1824 else 1825 BusLogic_Info(" SCSI Bus Termination: %s", HostAdapter, (HostAdapter->LowByteTerminated ? "Enabled" : "Disabled")); 1826 if (HostAdapter->HostSupportsSCAM) 1827 BusLogic_Info(", SCAM: %s", HostAdapter, (HostAdapter->SCAM_Enabled ? (HostAdapter->SCAM_Level2 ? "Enabled, Level 2" : "Enabled, Level 1") 1828 : "Disabled")); 1829 BusLogic_Info("\n", HostAdapter); 1830 } 1831 /* 1832 Indicate reporting the Host Adapter configuration completed successfully. 1833 */ 1834 return true; 1835 } 1836 1837 1838 /* 1839 BusLogic_AcquireResources acquires the system resources necessary to use 1840 Host Adapter. 1841 */ 1842 1843 static bool __init BusLogic_AcquireResources(struct BusLogic_HostAdapter *HostAdapter) 1844 { 1845 if (HostAdapter->IRQ_Channel == 0) { 1846 BusLogic_Error("NO LEGAL INTERRUPT CHANNEL ASSIGNED - DETACHING\n", HostAdapter); 1847 return false; 1848 } 1849 /* 1850 Acquire shared access to the IRQ Channel. 1851 */ 1852 if (request_irq(HostAdapter->IRQ_Channel, BusLogic_InterruptHandler, IRQF_SHARED, HostAdapter->FullModelName, HostAdapter) < 0) { 1853 BusLogic_Error("UNABLE TO ACQUIRE IRQ CHANNEL %d - DETACHING\n", HostAdapter, HostAdapter->IRQ_Channel); 1854 return false; 1855 } 1856 HostAdapter->IRQ_ChannelAcquired = true; 1857 /* 1858 Acquire exclusive access to the DMA Channel. 1859 */ 1860 if (HostAdapter->DMA_Channel > 0) { 1861 if (request_dma(HostAdapter->DMA_Channel, HostAdapter->FullModelName) < 0) { 1862 BusLogic_Error("UNABLE TO ACQUIRE DMA CHANNEL %d - DETACHING\n", HostAdapter, HostAdapter->DMA_Channel); 1863 return false; 1864 } 1865 set_dma_mode(HostAdapter->DMA_Channel, DMA_MODE_CASCADE); 1866 enable_dma(HostAdapter->DMA_Channel); 1867 HostAdapter->DMA_ChannelAcquired = true; 1868 } 1869 /* 1870 Indicate the System Resource Acquisition completed successfully, 1871 */ 1872 return true; 1873 } 1874 1875 1876 /* 1877 BusLogic_ReleaseResources releases any system resources previously acquired 1878 by BusLogic_AcquireResources. 1879 */ 1880 1881 static void BusLogic_ReleaseResources(struct BusLogic_HostAdapter *HostAdapter) 1882 { 1883 /* 1884 Release shared access to the IRQ Channel. 1885 */ 1886 if (HostAdapter->IRQ_ChannelAcquired) 1887 free_irq(HostAdapter->IRQ_Channel, HostAdapter); 1888 /* 1889 Release exclusive access to the DMA Channel. 1890 */ 1891 if (HostAdapter->DMA_ChannelAcquired) 1892 free_dma(HostAdapter->DMA_Channel); 1893 /* 1894 Release any allocated memory structs not released elsewhere 1895 */ 1896 if (HostAdapter->MailboxSpace) 1897 pci_free_consistent(HostAdapter->PCI_Device, HostAdapter->MailboxSize, HostAdapter->MailboxSpace, HostAdapter->MailboxSpaceHandle); 1898 pci_dev_put(HostAdapter->PCI_Device); 1899 HostAdapter->MailboxSpace = NULL; 1900 HostAdapter->MailboxSpaceHandle = 0; 1901 HostAdapter->MailboxSize = 0; 1902 } 1903 1904 1905 /* 1906 BusLogic_InitializeHostAdapter initializes Host Adapter. This is the only 1907 function called during SCSI Host Adapter detection which modifies the state 1908 of the Host Adapter from its initial power on or hard reset state. 1909 */ 1910 1911 static bool BusLogic_InitializeHostAdapter(struct BusLogic_HostAdapter 1912 *HostAdapter) 1913 { 1914 struct BusLogic_ExtendedMailboxRequest ExtendedMailboxRequest; 1915 enum BusLogic_RoundRobinModeRequest RoundRobinModeRequest; 1916 enum BusLogic_SetCCBFormatRequest SetCCBFormatRequest; 1917 int TargetID; 1918 /* 1919 Initialize the pointers to the first and last CCBs that are queued for 1920 completion processing. 1921 */ 1922 HostAdapter->FirstCompletedCCB = NULL; 1923 HostAdapter->LastCompletedCCB = NULL; 1924 /* 1925 Initialize the Bus Device Reset Pending CCB, Tagged Queuing Active, 1926 Command Successful Flag, Active Commands, and Commands Since Reset 1927 for each Target Device. 1928 */ 1929 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) { 1930 HostAdapter->BusDeviceResetPendingCCB[TargetID] = NULL; 1931 HostAdapter->TargetFlags[TargetID].TaggedQueuingActive = false; 1932 HostAdapter->TargetFlags[TargetID].CommandSuccessfulFlag = false; 1933 HostAdapter->ActiveCommands[TargetID] = 0; 1934 HostAdapter->CommandsSinceReset[TargetID] = 0; 1935 } 1936 /* 1937 FlashPoint Host Adapters do not use Outgoing and Incoming Mailboxes. 1938 */ 1939 if (BusLogic_FlashPointHostAdapterP(HostAdapter)) 1940 goto Done; 1941 /* 1942 Initialize the Outgoing and Incoming Mailbox pointers. 1943 */ 1944 HostAdapter->MailboxSize = HostAdapter->MailboxCount * (sizeof(struct BusLogic_OutgoingMailbox) + sizeof(struct BusLogic_IncomingMailbox)); 1945 HostAdapter->MailboxSpace = pci_alloc_consistent(HostAdapter->PCI_Device, HostAdapter->MailboxSize, &HostAdapter->MailboxSpaceHandle); 1946 if (HostAdapter->MailboxSpace == NULL) 1947 return BusLogic_Failure(HostAdapter, "MAILBOX ALLOCATION"); 1948 HostAdapter->FirstOutgoingMailbox = (struct BusLogic_OutgoingMailbox *) HostAdapter->MailboxSpace; 1949 HostAdapter->LastOutgoingMailbox = HostAdapter->FirstOutgoingMailbox + HostAdapter->MailboxCount - 1; 1950 HostAdapter->NextOutgoingMailbox = HostAdapter->FirstOutgoingMailbox; 1951 HostAdapter->FirstIncomingMailbox = (struct BusLogic_IncomingMailbox *) (HostAdapter->LastOutgoingMailbox + 1); 1952 HostAdapter->LastIncomingMailbox = HostAdapter->FirstIncomingMailbox + HostAdapter->MailboxCount - 1; 1953 HostAdapter->NextIncomingMailbox = HostAdapter->FirstIncomingMailbox; 1954 1955 /* 1956 Initialize the Outgoing and Incoming Mailbox structures. 1957 */ 1958 memset(HostAdapter->FirstOutgoingMailbox, 0, HostAdapter->MailboxCount * sizeof(struct BusLogic_OutgoingMailbox)); 1959 memset(HostAdapter->FirstIncomingMailbox, 0, HostAdapter->MailboxCount * sizeof(struct BusLogic_IncomingMailbox)); 1960 /* 1961 Initialize the Host Adapter's Pointer to the Outgoing/Incoming Mailboxes. 1962 */ 1963 ExtendedMailboxRequest.MailboxCount = HostAdapter->MailboxCount; 1964 ExtendedMailboxRequest.BaseMailboxAddress = (u32) HostAdapter->MailboxSpaceHandle; 1965 if (BusLogic_Command(HostAdapter, BusLogic_InitializeExtendedMailbox, &ExtendedMailboxRequest, sizeof(ExtendedMailboxRequest), NULL, 0) < 0) 1966 return BusLogic_Failure(HostAdapter, "MAILBOX INITIALIZATION"); 1967 /* 1968 Enable Strict Round Robin Mode if supported by the Host Adapter. In 1969 Strict Round Robin Mode, the Host Adapter only looks at the next Outgoing 1970 Mailbox for each new command, rather than scanning through all the 1971 Outgoing Mailboxes to find any that have new commands in them. Strict 1972 Round Robin Mode is significantly more efficient. 1973 */ 1974 if (HostAdapter->StrictRoundRobinModeSupport) { 1975 RoundRobinModeRequest = BusLogic_StrictRoundRobinMode; 1976 if (BusLogic_Command(HostAdapter, BusLogic_EnableStrictRoundRobinMode, &RoundRobinModeRequest, sizeof(RoundRobinModeRequest), NULL, 0) < 0) 1977 return BusLogic_Failure(HostAdapter, "ENABLE STRICT ROUND ROBIN MODE"); 1978 } 1979 /* 1980 For Host Adapters that support Extended LUN Format CCBs, issue the Set CCB 1981 Format command to allow 32 Logical Units per Target Device. 1982 */ 1983 if (HostAdapter->ExtendedLUNSupport) { 1984 SetCCBFormatRequest = BusLogic_ExtendedLUNFormatCCB; 1985 if (BusLogic_Command(HostAdapter, BusLogic_SetCCBFormat, &SetCCBFormatRequest, sizeof(SetCCBFormatRequest), NULL, 0) < 0) 1986 return BusLogic_Failure(HostAdapter, "SET CCB FORMAT"); 1987 } 1988 /* 1989 Announce Successful Initialization. 1990 */ 1991 Done: 1992 if (!HostAdapter->HostAdapterInitialized) { 1993 BusLogic_Info("*** %s Initialized Successfully ***\n", HostAdapter, HostAdapter->FullModelName); 1994 BusLogic_Info("\n", HostAdapter); 1995 } else 1996 BusLogic_Warning("*** %s Initialized Successfully ***\n", HostAdapter, HostAdapter->FullModelName); 1997 HostAdapter->HostAdapterInitialized = true; 1998 /* 1999 Indicate the Host Adapter Initialization completed successfully. 2000 */ 2001 return true; 2002 } 2003 2004 2005 /* 2006 BusLogic_TargetDeviceInquiry inquires about the Target Devices accessible 2007 through Host Adapter. 2008 */ 2009 2010 static bool __init BusLogic_TargetDeviceInquiry(struct BusLogic_HostAdapter 2011 *HostAdapter) 2012 { 2013 u16 InstalledDevices; 2014 u8 InstalledDevicesID0to7[8]; 2015 struct BusLogic_SetupInformation SetupInformation; 2016 u8 SynchronousPeriod[BusLogic_MaxTargetDevices]; 2017 unsigned char RequestedReplyLength; 2018 int TargetID; 2019 /* 2020 Wait a few seconds between the Host Adapter Hard Reset which initiates 2021 a SCSI Bus Reset and issuing any SCSI Commands. Some SCSI devices get 2022 confused if they receive SCSI Commands too soon after a SCSI Bus Reset. 2023 */ 2024 BusLogic_Delay(HostAdapter->BusSettleTime); 2025 /* 2026 FlashPoint Host Adapters do not provide for Target Device Inquiry. 2027 */ 2028 if (BusLogic_FlashPointHostAdapterP(HostAdapter)) 2029 return true; 2030 /* 2031 Inhibit the Target Device Inquiry if requested. 2032 */ 2033 if (HostAdapter->DriverOptions != NULL && HostAdapter->DriverOptions->LocalOptions.InhibitTargetInquiry) 2034 return true; 2035 /* 2036 Issue the Inquire Target Devices command for host adapters with firmware 2037 version 4.25 or later, or the Inquire Installed Devices ID 0 to 7 command 2038 for older host adapters. This is necessary to force Synchronous Transfer 2039 Negotiation so that the Inquire Setup Information and Inquire Synchronous 2040 Period commands will return valid data. The Inquire Target Devices command 2041 is preferable to Inquire Installed Devices ID 0 to 7 since it only probes 2042 Logical Unit 0 of each Target Device. 2043 */ 2044 if (strcmp(HostAdapter->FirmwareVersion, "4.25") >= 0) { 2045 2046 /* 2047 * Issue a Inquire Target Devices command. Inquire Target Devices only 2048 * tests Logical Unit 0 of each Target Device unlike the Inquire Installed 2049 * Devices commands which test Logical Units 0 - 7. Two bytes are 2050 * returned, where byte 0 bit 0 set indicates that Target Device 0 exists, 2051 * and so on. 2052 */ 2053 2054 if (BusLogic_Command(HostAdapter, BusLogic_InquireTargetDevices, NULL, 0, &InstalledDevices, sizeof(InstalledDevices)) 2055 != sizeof(InstalledDevices)) 2056 return BusLogic_Failure(HostAdapter, "INQUIRE TARGET DEVICES"); 2057 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 2058 HostAdapter->TargetFlags[TargetID].TargetExists = (InstalledDevices & (1 << TargetID) ? true : false); 2059 } else { 2060 2061 /* 2062 * Issue an Inquire Installed Devices command. For each Target Device, 2063 * a byte is returned where bit 0 set indicates that Logical Unit 0 2064 * exists, bit 1 set indicates that Logical Unit 1 exists, and so on. 2065 */ 2066 2067 if (BusLogic_Command(HostAdapter, BusLogic_InquireInstalledDevicesID0to7, NULL, 0, &InstalledDevicesID0to7, sizeof(InstalledDevicesID0to7)) 2068 != sizeof(InstalledDevicesID0to7)) 2069 return BusLogic_Failure(HostAdapter, "INQUIRE INSTALLED DEVICES ID 0 TO 7"); 2070 for (TargetID = 0; TargetID < 8; TargetID++) 2071 HostAdapter->TargetFlags[TargetID].TargetExists = (InstalledDevicesID0to7[TargetID] != 0 ? true : false); 2072 } 2073 /* 2074 Issue the Inquire Setup Information command. 2075 */ 2076 RequestedReplyLength = sizeof(SetupInformation); 2077 if (BusLogic_Command(HostAdapter, BusLogic_InquireSetupInformation, &RequestedReplyLength, sizeof(RequestedReplyLength), &SetupInformation, sizeof(SetupInformation)) 2078 != sizeof(SetupInformation)) 2079 return BusLogic_Failure(HostAdapter, "INQUIRE SETUP INFORMATION"); 2080 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 2081 HostAdapter->SynchronousOffset[TargetID] = (TargetID < 8 ? SetupInformation.SynchronousValuesID0to7[TargetID].Offset : SetupInformation.SynchronousValuesID8to15[TargetID - 8].Offset); 2082 if (strcmp(HostAdapter->FirmwareVersion, "5.06L") >= 0) 2083 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 2084 HostAdapter->TargetFlags[TargetID].WideTransfersActive = (TargetID < 8 ? (SetupInformation.WideTransfersActiveID0to7 & (1 << TargetID) 2085 ? true : false) 2086 : (SetupInformation.WideTransfersActiveID8to15 & (1 << (TargetID - 8)) 2087 ? true : false)); 2088 /* 2089 Issue the Inquire Synchronous Period command. 2090 */ 2091 if (HostAdapter->FirmwareVersion[0] >= '3') { 2092 2093 /* Issue a Inquire Synchronous Period command. For each Target Device, 2094 * a byte is returned which represents the Synchronous Transfer Period 2095 * in units of 10 nanoseconds. 2096 */ 2097 2098 RequestedReplyLength = sizeof(SynchronousPeriod); 2099 if (BusLogic_Command(HostAdapter, BusLogic_InquireSynchronousPeriod, &RequestedReplyLength, sizeof(RequestedReplyLength), &SynchronousPeriod, sizeof(SynchronousPeriod)) 2100 != sizeof(SynchronousPeriod)) 2101 return BusLogic_Failure(HostAdapter, "INQUIRE SYNCHRONOUS PERIOD"); 2102 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 2103 HostAdapter->SynchronousPeriod[TargetID] = SynchronousPeriod[TargetID]; 2104 } else 2105 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 2106 if (SetupInformation.SynchronousValuesID0to7[TargetID].Offset > 0) 2107 HostAdapter->SynchronousPeriod[TargetID] = 20 + 5 * SetupInformation.SynchronousValuesID0to7[TargetID] 2108 .TransferPeriod; 2109 /* 2110 Indicate the Target Device Inquiry completed successfully. 2111 */ 2112 return true; 2113 } 2114 2115 /* 2116 BusLogic_InitializeHostStructure initializes the fields in the SCSI Host 2117 structure. The base, io_port, n_io_ports, irq, and dma_channel fields in the 2118 SCSI Host structure are intentionally left uninitialized, as this driver 2119 handles acquisition and release of these resources explicitly, as well as 2120 ensuring exclusive access to the Host Adapter hardware and data structures 2121 through explicit acquisition and release of the Host Adapter's Lock. 2122 */ 2123 2124 static void __init BusLogic_InitializeHostStructure(struct BusLogic_HostAdapter 2125 *HostAdapter, struct Scsi_Host *Host) 2126 { 2127 Host->max_id = HostAdapter->MaxTargetDevices; 2128 Host->max_lun = HostAdapter->MaxLogicalUnits; 2129 Host->max_channel = 0; 2130 Host->unique_id = HostAdapter->IO_Address; 2131 Host->this_id = HostAdapter->SCSI_ID; 2132 Host->can_queue = HostAdapter->DriverQueueDepth; 2133 Host->sg_tablesize = HostAdapter->DriverScatterGatherLimit; 2134 Host->unchecked_isa_dma = HostAdapter->BounceBuffersRequired; 2135 Host->cmd_per_lun = HostAdapter->UntaggedQueueDepth; 2136 } 2137 2138 /* 2139 BusLogic_SlaveConfigure will actually set the queue depth on individual 2140 scsi devices as they are permanently added to the device chain. We 2141 shamelessly rip off the SelectQueueDepths code to make this work mostly 2142 like it used to. Since we don't get called once at the end of the scan 2143 but instead get called for each device, we have to do things a bit 2144 differently. 2145 */ 2146 static int BusLogic_SlaveConfigure(struct scsi_device *Device) 2147 { 2148 struct BusLogic_HostAdapter *HostAdapter = (struct BusLogic_HostAdapter *) Device->host->hostdata; 2149 int TargetID = Device->id; 2150 int QueueDepth = HostAdapter->QueueDepth[TargetID]; 2151 2152 if (HostAdapter->TargetFlags[TargetID].TaggedQueuingSupported && (HostAdapter->TaggedQueuingPermitted & (1 << TargetID))) { 2153 if (QueueDepth == 0) 2154 QueueDepth = BusLogic_MaxAutomaticTaggedQueueDepth; 2155 HostAdapter->QueueDepth[TargetID] = QueueDepth; 2156 scsi_adjust_queue_depth(Device, MSG_SIMPLE_TAG, QueueDepth); 2157 } else { 2158 HostAdapter->TaggedQueuingPermitted &= ~(1 << TargetID); 2159 QueueDepth = HostAdapter->UntaggedQueueDepth; 2160 HostAdapter->QueueDepth[TargetID] = QueueDepth; 2161 scsi_adjust_queue_depth(Device, 0, QueueDepth); 2162 } 2163 QueueDepth = 0; 2164 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) 2165 if (HostAdapter->TargetFlags[TargetID].TargetExists) { 2166 QueueDepth += HostAdapter->QueueDepth[TargetID]; 2167 } 2168 if (QueueDepth > HostAdapter->AllocatedCCBs) 2169 BusLogic_CreateAdditionalCCBs(HostAdapter, QueueDepth - HostAdapter->AllocatedCCBs, false); 2170 return 0; 2171 } 2172 2173 /* 2174 BusLogic_DetectHostAdapter probes for BusLogic Host Adapters at the standard 2175 I/O Addresses where they may be located, initializing, registering, and 2176 reporting the configuration of each BusLogic Host Adapter it finds. It 2177 returns the number of BusLogic Host Adapters successfully initialized and 2178 registered. 2179 */ 2180 2181 static int __init BusLogic_init(void) 2182 { 2183 int BusLogicHostAdapterCount = 0, DriverOptionsIndex = 0, ProbeIndex; 2184 struct BusLogic_HostAdapter *PrototypeHostAdapter; 2185 int ret = 0; 2186 2187 #ifdef MODULE 2188 if (BusLogic) 2189 BusLogic_Setup(BusLogic); 2190 #endif 2191 2192 if (BusLogic_ProbeOptions.NoProbe) 2193 return -ENODEV; 2194 BusLogic_ProbeInfoList = 2195 kzalloc(BusLogic_MaxHostAdapters * sizeof(struct BusLogic_ProbeInfo), GFP_KERNEL); 2196 if (BusLogic_ProbeInfoList == NULL) { 2197 BusLogic_Error("BusLogic: Unable to allocate Probe Info List\n", NULL); 2198 return -ENOMEM; 2199 } 2200 2201 PrototypeHostAdapter = 2202 kzalloc(sizeof(struct BusLogic_HostAdapter), GFP_KERNEL); 2203 if (PrototypeHostAdapter == NULL) { 2204 kfree(BusLogic_ProbeInfoList); 2205 BusLogic_Error("BusLogic: Unable to allocate Prototype " "Host Adapter\n", NULL); 2206 return -ENOMEM; 2207 } 2208 2209 #ifdef MODULE 2210 if (BusLogic != NULL) 2211 BusLogic_Setup(BusLogic); 2212 #endif 2213 BusLogic_InitializeProbeInfoList(PrototypeHostAdapter); 2214 for (ProbeIndex = 0; ProbeIndex < BusLogic_ProbeInfoCount; ProbeIndex++) { 2215 struct BusLogic_ProbeInfo *ProbeInfo = &BusLogic_ProbeInfoList[ProbeIndex]; 2216 struct BusLogic_HostAdapter *HostAdapter = PrototypeHostAdapter; 2217 struct Scsi_Host *Host; 2218 if (ProbeInfo->IO_Address == 0) 2219 continue; 2220 memset(HostAdapter, 0, sizeof(struct BusLogic_HostAdapter)); 2221 HostAdapter->HostAdapterType = ProbeInfo->HostAdapterType; 2222 HostAdapter->HostAdapterBusType = ProbeInfo->HostAdapterBusType; 2223 HostAdapter->IO_Address = ProbeInfo->IO_Address; 2224 HostAdapter->PCI_Address = ProbeInfo->PCI_Address; 2225 HostAdapter->Bus = ProbeInfo->Bus; 2226 HostAdapter->Device = ProbeInfo->Device; 2227 HostAdapter->PCI_Device = ProbeInfo->PCI_Device; 2228 HostAdapter->IRQ_Channel = ProbeInfo->IRQ_Channel; 2229 HostAdapter->AddressCount = BusLogic_HostAdapterAddressCount[HostAdapter->HostAdapterType]; 2230 2231 /* 2232 Make sure region is free prior to probing. 2233 */ 2234 if (!request_region(HostAdapter->IO_Address, HostAdapter->AddressCount, 2235 "BusLogic")) 2236 continue; 2237 /* 2238 Probe the Host Adapter. If unsuccessful, abort further initialization. 2239 */ 2240 if (!BusLogic_ProbeHostAdapter(HostAdapter)) { 2241 release_region(HostAdapter->IO_Address, HostAdapter->AddressCount); 2242 continue; 2243 } 2244 /* 2245 Hard Reset the Host Adapter. If unsuccessful, abort further 2246 initialization. 2247 */ 2248 if (!BusLogic_HardwareResetHostAdapter(HostAdapter, true)) { 2249 release_region(HostAdapter->IO_Address, HostAdapter->AddressCount); 2250 continue; 2251 } 2252 /* 2253 Check the Host Adapter. If unsuccessful, abort further initialization. 2254 */ 2255 if (!BusLogic_CheckHostAdapter(HostAdapter)) { 2256 release_region(HostAdapter->IO_Address, HostAdapter->AddressCount); 2257 continue; 2258 } 2259 /* 2260 Initialize the Driver Options field if provided. 2261 */ 2262 if (DriverOptionsIndex < BusLogic_DriverOptionsCount) 2263 HostAdapter->DriverOptions = &BusLogic_DriverOptions[DriverOptionsIndex++]; 2264 /* 2265 Announce the Driver Version and Date, Author's Name, Copyright Notice, 2266 and Electronic Mail Address. 2267 */ 2268 BusLogic_AnnounceDriver(HostAdapter); 2269 /* 2270 Register the SCSI Host structure. 2271 */ 2272 2273 Host = scsi_host_alloc(&Bus_Logic_template, sizeof(struct BusLogic_HostAdapter)); 2274 if (Host == NULL) { 2275 release_region(HostAdapter->IO_Address, HostAdapter->AddressCount); 2276 continue; 2277 } 2278 HostAdapter = (struct BusLogic_HostAdapter *) Host->hostdata; 2279 memcpy(HostAdapter, PrototypeHostAdapter, sizeof(struct BusLogic_HostAdapter)); 2280 HostAdapter->SCSI_Host = Host; 2281 HostAdapter->HostNumber = Host->host_no; 2282 /* 2283 Add Host Adapter to the end of the list of registered BusLogic 2284 Host Adapters. 2285 */ 2286 list_add_tail(&HostAdapter->host_list, &BusLogic_host_list); 2287 2288 /* 2289 Read the Host Adapter Configuration, Configure the Host Adapter, 2290 Acquire the System Resources necessary to use the Host Adapter, then 2291 Create the Initial CCBs, Initialize the Host Adapter, and finally 2292 perform Target Device Inquiry. 2293 2294 From this point onward, any failure will be assumed to be due to a 2295 problem with the Host Adapter, rather than due to having mistakenly 2296 identified this port as belonging to a BusLogic Host Adapter. The 2297 I/O Address range will not be released, thereby preventing it from 2298 being incorrectly identified as any other type of Host Adapter. 2299 */ 2300 if (BusLogic_ReadHostAdapterConfiguration(HostAdapter) && 2301 BusLogic_ReportHostAdapterConfiguration(HostAdapter) && 2302 BusLogic_AcquireResources(HostAdapter) && 2303 BusLogic_CreateInitialCCBs(HostAdapter) && 2304 BusLogic_InitializeHostAdapter(HostAdapter) && 2305 BusLogic_TargetDeviceInquiry(HostAdapter)) { 2306 /* 2307 Initialization has been completed successfully. Release and 2308 re-register usage of the I/O Address range so that the Model 2309 Name of the Host Adapter will appear, and initialize the SCSI 2310 Host structure. 2311 */ 2312 release_region(HostAdapter->IO_Address, 2313 HostAdapter->AddressCount); 2314 if (!request_region(HostAdapter->IO_Address, 2315 HostAdapter->AddressCount, 2316 HostAdapter->FullModelName)) { 2317 printk(KERN_WARNING 2318 "BusLogic: Release and re-register of " 2319 "port 0x%04lx failed \n", 2320 (unsigned long)HostAdapter->IO_Address); 2321 BusLogic_DestroyCCBs(HostAdapter); 2322 BusLogic_ReleaseResources(HostAdapter); 2323 list_del(&HostAdapter->host_list); 2324 scsi_host_put(Host); 2325 ret = -ENOMEM; 2326 } else { 2327 BusLogic_InitializeHostStructure(HostAdapter, 2328 Host); 2329 if (scsi_add_host(Host, HostAdapter->PCI_Device 2330 ? &HostAdapter->PCI_Device->dev 2331 : NULL)) { 2332 printk(KERN_WARNING 2333 "BusLogic: scsi_add_host()" 2334 "failed!\n"); 2335 BusLogic_DestroyCCBs(HostAdapter); 2336 BusLogic_ReleaseResources(HostAdapter); 2337 list_del(&HostAdapter->host_list); 2338 scsi_host_put(Host); 2339 ret = -ENODEV; 2340 } else { 2341 scsi_scan_host(Host); 2342 BusLogicHostAdapterCount++; 2343 } 2344 } 2345 } else { 2346 /* 2347 An error occurred during Host Adapter Configuration Querying, Host 2348 Adapter Configuration, Resource Acquisition, CCB Creation, Host 2349 Adapter Initialization, or Target Device Inquiry, so remove Host 2350 Adapter from the list of registered BusLogic Host Adapters, destroy 2351 the CCBs, Release the System Resources, and Unregister the SCSI 2352 Host. 2353 */ 2354 BusLogic_DestroyCCBs(HostAdapter); 2355 BusLogic_ReleaseResources(HostAdapter); 2356 list_del(&HostAdapter->host_list); 2357 scsi_host_put(Host); 2358 ret = -ENODEV; 2359 } 2360 } 2361 kfree(PrototypeHostAdapter); 2362 kfree(BusLogic_ProbeInfoList); 2363 BusLogic_ProbeInfoList = NULL; 2364 return ret; 2365 } 2366 2367 2368 /* 2369 BusLogic_ReleaseHostAdapter releases all resources previously acquired to 2370 support a specific Host Adapter, including the I/O Address range, and 2371 unregisters the BusLogic Host Adapter. 2372 */ 2373 2374 static int __exit BusLogic_ReleaseHostAdapter(struct BusLogic_HostAdapter *HostAdapter) 2375 { 2376 struct Scsi_Host *Host = HostAdapter->SCSI_Host; 2377 2378 scsi_remove_host(Host); 2379 2380 /* 2381 FlashPoint Host Adapters must first be released by the FlashPoint 2382 SCCB Manager. 2383 */ 2384 if (BusLogic_FlashPointHostAdapterP(HostAdapter)) 2385 FlashPoint_ReleaseHostAdapter(HostAdapter->CardHandle); 2386 /* 2387 Destroy the CCBs and release any system resources acquired to 2388 support Host Adapter. 2389 */ 2390 BusLogic_DestroyCCBs(HostAdapter); 2391 BusLogic_ReleaseResources(HostAdapter); 2392 /* 2393 Release usage of the I/O Address range. 2394 */ 2395 release_region(HostAdapter->IO_Address, HostAdapter->AddressCount); 2396 /* 2397 Remove Host Adapter from the list of registered BusLogic Host Adapters. 2398 */ 2399 list_del(&HostAdapter->host_list); 2400 2401 scsi_host_put(Host); 2402 return 0; 2403 } 2404 2405 2406 /* 2407 BusLogic_QueueCompletedCCB queues CCB for completion processing. 2408 */ 2409 2410 static void BusLogic_QueueCompletedCCB(struct BusLogic_CCB *CCB) 2411 { 2412 struct BusLogic_HostAdapter *HostAdapter = CCB->HostAdapter; 2413 CCB->Status = BusLogic_CCB_Completed; 2414 CCB->Next = NULL; 2415 if (HostAdapter->FirstCompletedCCB == NULL) { 2416 HostAdapter->FirstCompletedCCB = CCB; 2417 HostAdapter->LastCompletedCCB = CCB; 2418 } else { 2419 HostAdapter->LastCompletedCCB->Next = CCB; 2420 HostAdapter->LastCompletedCCB = CCB; 2421 } 2422 HostAdapter->ActiveCommands[CCB->TargetID]--; 2423 } 2424 2425 2426 /* 2427 BusLogic_ComputeResultCode computes a SCSI Subsystem Result Code from 2428 the Host Adapter Status and Target Device Status. 2429 */ 2430 2431 static int BusLogic_ComputeResultCode(struct BusLogic_HostAdapter *HostAdapter, enum BusLogic_HostAdapterStatus HostAdapterStatus, enum BusLogic_TargetDeviceStatus TargetDeviceStatus) 2432 { 2433 int HostStatus; 2434 switch (HostAdapterStatus) { 2435 case BusLogic_CommandCompletedNormally: 2436 case BusLogic_LinkedCommandCompleted: 2437 case BusLogic_LinkedCommandCompletedWithFlag: 2438 HostStatus = DID_OK; 2439 break; 2440 case BusLogic_SCSISelectionTimeout: 2441 HostStatus = DID_TIME_OUT; 2442 break; 2443 case BusLogic_InvalidOutgoingMailboxActionCode: 2444 case BusLogic_InvalidCommandOperationCode: 2445 case BusLogic_InvalidCommandParameter: 2446 BusLogic_Warning("BusLogic Driver Protocol Error 0x%02X\n", HostAdapter, HostAdapterStatus); 2447 case BusLogic_DataUnderRun: 2448 case BusLogic_DataOverRun: 2449 case BusLogic_UnexpectedBusFree: 2450 case BusLogic_LinkedCCBhasInvalidLUN: 2451 case BusLogic_AutoRequestSenseFailed: 2452 case BusLogic_TaggedQueuingMessageRejected: 2453 case BusLogic_UnsupportedMessageReceived: 2454 case BusLogic_HostAdapterHardwareFailed: 2455 case BusLogic_TargetDeviceReconnectedImproperly: 2456 case BusLogic_AbortQueueGenerated: 2457 case BusLogic_HostAdapterSoftwareError: 2458 case BusLogic_HostAdapterHardwareTimeoutError: 2459 case BusLogic_SCSIParityErrorDetected: 2460 HostStatus = DID_ERROR; 2461 break; 2462 case BusLogic_InvalidBusPhaseRequested: 2463 case BusLogic_TargetFailedResponseToATN: 2464 case BusLogic_HostAdapterAssertedRST: 2465 case BusLogic_OtherDeviceAssertedRST: 2466 case BusLogic_HostAdapterAssertedBusDeviceReset: 2467 HostStatus = DID_RESET; 2468 break; 2469 default: 2470 BusLogic_Warning("Unknown Host Adapter Status 0x%02X\n", HostAdapter, HostAdapterStatus); 2471 HostStatus = DID_ERROR; 2472 break; 2473 } 2474 return (HostStatus << 16) | TargetDeviceStatus; 2475 } 2476 2477 2478 /* 2479 BusLogic_ScanIncomingMailboxes scans the Incoming Mailboxes saving any 2480 Incoming Mailbox entries for completion processing. 2481 */ 2482 2483 static void BusLogic_ScanIncomingMailboxes(struct BusLogic_HostAdapter *HostAdapter) 2484 { 2485 /* 2486 Scan through the Incoming Mailboxes in Strict Round Robin fashion, saving 2487 any completed CCBs for further processing. It is essential that for each 2488 CCB and SCSI Command issued, command completion processing is performed 2489 exactly once. Therefore, only Incoming Mailboxes with completion code 2490 Command Completed Without Error, Command Completed With Error, or Command 2491 Aborted At Host Request are saved for completion processing. When an 2492 Incoming Mailbox has a completion code of Aborted Command Not Found, the 2493 CCB had already completed or been aborted before the current Abort request 2494 was processed, and so completion processing has already occurred and no 2495 further action should be taken. 2496 */ 2497 struct BusLogic_IncomingMailbox *NextIncomingMailbox = HostAdapter->NextIncomingMailbox; 2498 enum BusLogic_CompletionCode CompletionCode; 2499 while ((CompletionCode = NextIncomingMailbox->CompletionCode) != BusLogic_IncomingMailboxFree) { 2500 /* 2501 We are only allowed to do this because we limit our architectures we 2502 run on to machines where bus_to_virt() actually works. There *needs* 2503 to be a dma_addr_to_virt() in the new PCI DMA mapping interface to 2504 replace bus_to_virt() or else this code is going to become very 2505 innefficient. 2506 */ 2507 struct BusLogic_CCB *CCB = (struct BusLogic_CCB *) Bus_to_Virtual(NextIncomingMailbox->CCB); 2508 if (CompletionCode != BusLogic_AbortedCommandNotFound) { 2509 if (CCB->Status == BusLogic_CCB_Active || CCB->Status == BusLogic_CCB_Reset) { 2510 /* 2511 Save the Completion Code for this CCB and queue the CCB 2512 for completion processing. 2513 */ 2514 CCB->CompletionCode = CompletionCode; 2515 BusLogic_QueueCompletedCCB(CCB); 2516 } else { 2517 /* 2518 If a CCB ever appears in an Incoming Mailbox and is not marked 2519 as status Active or Reset, then there is most likely a bug in 2520 the Host Adapter firmware. 2521 */ 2522 BusLogic_Warning("Illegal CCB #%ld status %d in " "Incoming Mailbox\n", HostAdapter, CCB->SerialNumber, CCB->Status); 2523 } 2524 } 2525 NextIncomingMailbox->CompletionCode = BusLogic_IncomingMailboxFree; 2526 if (++NextIncomingMailbox > HostAdapter->LastIncomingMailbox) 2527 NextIncomingMailbox = HostAdapter->FirstIncomingMailbox; 2528 } 2529 HostAdapter->NextIncomingMailbox = NextIncomingMailbox; 2530 } 2531 2532 2533 /* 2534 BusLogic_ProcessCompletedCCBs iterates over the completed CCBs for Host 2535 Adapter setting the SCSI Command Result Codes, deallocating the CCBs, and 2536 calling the SCSI Subsystem Completion Routines. The Host Adapter's Lock 2537 should already have been acquired by the caller. 2538 */ 2539 2540 static void BusLogic_ProcessCompletedCCBs(struct BusLogic_HostAdapter *HostAdapter) 2541 { 2542 if (HostAdapter->ProcessCompletedCCBsActive) 2543 return; 2544 HostAdapter->ProcessCompletedCCBsActive = true; 2545 while (HostAdapter->FirstCompletedCCB != NULL) { 2546 struct BusLogic_CCB *CCB = HostAdapter->FirstCompletedCCB; 2547 struct scsi_cmnd *Command = CCB->Command; 2548 HostAdapter->FirstCompletedCCB = CCB->Next; 2549 if (HostAdapter->FirstCompletedCCB == NULL) 2550 HostAdapter->LastCompletedCCB = NULL; 2551 /* 2552 Process the Completed CCB. 2553 */ 2554 if (CCB->Opcode == BusLogic_BusDeviceReset) { 2555 int TargetID = CCB->TargetID; 2556 BusLogic_Warning("Bus Device Reset CCB #%ld to Target " "%d Completed\n", HostAdapter, CCB->SerialNumber, TargetID); 2557 BusLogic_IncrementErrorCounter(&HostAdapter->TargetStatistics[TargetID].BusDeviceResetsCompleted); 2558 HostAdapter->TargetFlags[TargetID].TaggedQueuingActive = false; 2559 HostAdapter->CommandsSinceReset[TargetID] = 0; 2560 HostAdapter->LastResetCompleted[TargetID] = jiffies; 2561 /* 2562 Place CCB back on the Host Adapter's free list. 2563 */ 2564 BusLogic_DeallocateCCB(CCB); 2565 #if 0 /* this needs to be redone different for new EH */ 2566 /* 2567 Bus Device Reset CCBs have the Command field non-NULL only when a 2568 Bus Device Reset was requested for a Command that did not have a 2569 currently active CCB in the Host Adapter (i.e., a Synchronous 2570 Bus Device Reset), and hence would not have its Completion Routine 2571 called otherwise. 2572 */ 2573 while (Command != NULL) { 2574 struct scsi_cmnd *NextCommand = Command->reset_chain; 2575 Command->reset_chain = NULL; 2576 Command->result = DID_RESET << 16; 2577 Command->scsi_done(Command); 2578 Command = NextCommand; 2579 } 2580 #endif 2581 /* 2582 Iterate over the CCBs for this Host Adapter performing completion 2583 processing for any CCBs marked as Reset for this Target. 2584 */ 2585 for (CCB = HostAdapter->All_CCBs; CCB != NULL; CCB = CCB->NextAll) 2586 if (CCB->Status == BusLogic_CCB_Reset && CCB->TargetID == TargetID) { 2587 Command = CCB->Command; 2588 BusLogic_DeallocateCCB(CCB); 2589 HostAdapter->ActiveCommands[TargetID]--; 2590 Command->result = DID_RESET << 16; 2591 Command->scsi_done(Command); 2592 } 2593 HostAdapter->BusDeviceResetPendingCCB[TargetID] = NULL; 2594 } else { 2595 /* 2596 Translate the Completion Code, Host Adapter Status, and Target 2597 Device Status into a SCSI Subsystem Result Code. 2598 */ 2599 switch (CCB->CompletionCode) { 2600 case BusLogic_IncomingMailboxFree: 2601 case BusLogic_AbortedCommandNotFound: 2602 case BusLogic_InvalidCCB: 2603 BusLogic_Warning("CCB #%ld to Target %d Impossible State\n", HostAdapter, CCB->SerialNumber, CCB->TargetID); 2604 break; 2605 case BusLogic_CommandCompletedWithoutError: 2606 HostAdapter->TargetStatistics[CCB->TargetID] 2607 .CommandsCompleted++; 2608 HostAdapter->TargetFlags[CCB->TargetID] 2609 .CommandSuccessfulFlag = true; 2610 Command->result = DID_OK << 16; 2611 break; 2612 case BusLogic_CommandAbortedAtHostRequest: 2613 BusLogic_Warning("CCB #%ld to Target %d Aborted\n", HostAdapter, CCB->SerialNumber, CCB->TargetID); 2614 BusLogic_IncrementErrorCounter(&HostAdapter->TargetStatistics[CCB->TargetID] 2615 .CommandAbortsCompleted); 2616 Command->result = DID_ABORT << 16; 2617 break; 2618 case BusLogic_CommandCompletedWithError: 2619 Command->result = BusLogic_ComputeResultCode(HostAdapter, CCB->HostAdapterStatus, CCB->TargetDeviceStatus); 2620 if (CCB->HostAdapterStatus != BusLogic_SCSISelectionTimeout) { 2621 HostAdapter->TargetStatistics[CCB->TargetID] 2622 .CommandsCompleted++; 2623 if (BusLogic_GlobalOptions.TraceErrors) { 2624 int i; 2625 BusLogic_Notice("CCB #%ld Target %d: Result %X Host " 2626 "Adapter Status %02X " "Target Status %02X\n", HostAdapter, CCB->SerialNumber, CCB->TargetID, Command->result, CCB->HostAdapterStatus, CCB->TargetDeviceStatus); 2627 BusLogic_Notice("CDB ", HostAdapter); 2628 for (i = 0; i < CCB->CDB_Length; i++) 2629 BusLogic_Notice(" %02X", HostAdapter, CCB->CDB[i]); 2630 BusLogic_Notice("\n", HostAdapter); 2631 BusLogic_Notice("Sense ", HostAdapter); 2632 for (i = 0; i < CCB->SenseDataLength; i++) 2633 BusLogic_Notice(" %02X", HostAdapter, Command->sense_buffer[i]); 2634 BusLogic_Notice("\n", HostAdapter); 2635 } 2636 } 2637 break; 2638 } 2639 /* 2640 When an INQUIRY command completes normally, save the 2641 CmdQue (Tagged Queuing Supported) and WBus16 (16 Bit 2642 Wide Data Transfers Supported) bits. 2643 */ 2644 if (CCB->CDB[0] == INQUIRY && CCB->CDB[1] == 0 && CCB->HostAdapterStatus == BusLogic_CommandCompletedNormally) { 2645 struct BusLogic_TargetFlags *TargetFlags = &HostAdapter->TargetFlags[CCB->TargetID]; 2646 struct SCSI_Inquiry *InquiryResult = 2647 (struct SCSI_Inquiry *) scsi_sglist(Command); 2648 TargetFlags->TargetExists = true; 2649 TargetFlags->TaggedQueuingSupported = InquiryResult->CmdQue; 2650 TargetFlags->WideTransfersSupported = InquiryResult->WBus16; 2651 } 2652 /* 2653 Place CCB back on the Host Adapter's free list. 2654 */ 2655 BusLogic_DeallocateCCB(CCB); 2656 /* 2657 Call the SCSI Command Completion Routine. 2658 */ 2659 Command->scsi_done(Command); 2660 } 2661 } 2662 HostAdapter->ProcessCompletedCCBsActive = false; 2663 } 2664 2665 2666 /* 2667 BusLogic_InterruptHandler handles hardware interrupts from BusLogic Host 2668 Adapters. 2669 */ 2670 2671 static irqreturn_t BusLogic_InterruptHandler(int IRQ_Channel, void *DeviceIdentifier) 2672 { 2673 struct BusLogic_HostAdapter *HostAdapter = (struct BusLogic_HostAdapter *) DeviceIdentifier; 2674 unsigned long ProcessorFlags; 2675 /* 2676 Acquire exclusive access to Host Adapter. 2677 */ 2678 spin_lock_irqsave(HostAdapter->SCSI_Host->host_lock, ProcessorFlags); 2679 /* 2680 Handle Interrupts appropriately for each Host Adapter type. 2681 */ 2682 if (BusLogic_MultiMasterHostAdapterP(HostAdapter)) { 2683 union BusLogic_InterruptRegister InterruptRegister; 2684 /* 2685 Read the Host Adapter Interrupt Register. 2686 */ 2687 InterruptRegister.All = BusLogic_ReadInterruptRegister(HostAdapter); 2688 if (InterruptRegister.ir.InterruptValid) { 2689 /* 2690 Acknowledge the interrupt and reset the Host Adapter 2691 Interrupt Register. 2692 */ 2693 BusLogic_InterruptReset(HostAdapter); 2694 /* 2695 Process valid External SCSI Bus Reset and Incoming Mailbox 2696 Loaded Interrupts. Command Complete Interrupts are noted, 2697 and Outgoing Mailbox Available Interrupts are ignored, as 2698 they are never enabled. 2699 */ 2700 if (InterruptRegister.ir.ExternalBusReset) 2701 HostAdapter->HostAdapterExternalReset = true; 2702 else if (InterruptRegister.ir.IncomingMailboxLoaded) 2703 BusLogic_ScanIncomingMailboxes(HostAdapter); 2704 else if (InterruptRegister.ir.CommandComplete) 2705 HostAdapter->HostAdapterCommandCompleted = true; 2706 } 2707 } else { 2708 /* 2709 Check if there is a pending interrupt for this Host Adapter. 2710 */ 2711 if (FlashPoint_InterruptPending(HostAdapter->CardHandle)) 2712 switch (FlashPoint_HandleInterrupt(HostAdapter->CardHandle)) { 2713 case FlashPoint_NormalInterrupt: 2714 break; 2715 case FlashPoint_ExternalBusReset: 2716 HostAdapter->HostAdapterExternalReset = true; 2717 break; 2718 case FlashPoint_InternalError: 2719 BusLogic_Warning("Internal FlashPoint Error detected" " - Resetting Host Adapter\n", HostAdapter); 2720 HostAdapter->HostAdapterInternalError = true; 2721 break; 2722 } 2723 } 2724 /* 2725 Process any completed CCBs. 2726 */ 2727 if (HostAdapter->FirstCompletedCCB != NULL) 2728 BusLogic_ProcessCompletedCCBs(HostAdapter); 2729 /* 2730 Reset the Host Adapter if requested. 2731 */ 2732 if (HostAdapter->HostAdapterExternalReset) { 2733 BusLogic_Warning("Resetting %s due to External SCSI Bus Reset\n", HostAdapter, HostAdapter->FullModelName); 2734 BusLogic_IncrementErrorCounter(&HostAdapter->ExternalHostAdapterResets); 2735 BusLogic_ResetHostAdapter(HostAdapter, false); 2736 HostAdapter->HostAdapterExternalReset = false; 2737 } else if (HostAdapter->HostAdapterInternalError) { 2738 BusLogic_Warning("Resetting %s due to Host Adapter Internal Error\n", HostAdapter, HostAdapter->FullModelName); 2739 BusLogic_IncrementErrorCounter(&HostAdapter->HostAdapterInternalErrors); 2740 BusLogic_ResetHostAdapter(HostAdapter, true); 2741 HostAdapter->HostAdapterInternalError = false; 2742 } 2743 /* 2744 Release exclusive access to Host Adapter. 2745 */ 2746 spin_unlock_irqrestore(HostAdapter->SCSI_Host->host_lock, ProcessorFlags); 2747 return IRQ_HANDLED; 2748 } 2749 2750 2751 /* 2752 BusLogic_WriteOutgoingMailbox places CCB and Action Code into an Outgoing 2753 Mailbox for execution by Host Adapter. The Host Adapter's Lock should 2754 already have been acquired by the caller. 2755 */ 2756 2757 static bool BusLogic_WriteOutgoingMailbox(struct BusLogic_HostAdapter 2758 *HostAdapter, enum BusLogic_ActionCode ActionCode, struct BusLogic_CCB *CCB) 2759 { 2760 struct BusLogic_OutgoingMailbox *NextOutgoingMailbox; 2761 NextOutgoingMailbox = HostAdapter->NextOutgoingMailbox; 2762 if (NextOutgoingMailbox->ActionCode == BusLogic_OutgoingMailboxFree) { 2763 CCB->Status = BusLogic_CCB_Active; 2764 /* 2765 The CCB field must be written before the Action Code field since 2766 the Host Adapter is operating asynchronously and the locking code 2767 does not protect against simultaneous access by the Host Adapter. 2768 */ 2769 NextOutgoingMailbox->CCB = CCB->DMA_Handle; 2770 NextOutgoingMailbox->ActionCode = ActionCode; 2771 BusLogic_StartMailboxCommand(HostAdapter); 2772 if (++NextOutgoingMailbox > HostAdapter->LastOutgoingMailbox) 2773 NextOutgoingMailbox = HostAdapter->FirstOutgoingMailbox; 2774 HostAdapter->NextOutgoingMailbox = NextOutgoingMailbox; 2775 if (ActionCode == BusLogic_MailboxStartCommand) { 2776 HostAdapter->ActiveCommands[CCB->TargetID]++; 2777 if (CCB->Opcode != BusLogic_BusDeviceReset) 2778 HostAdapter->TargetStatistics[CCB->TargetID].CommandsAttempted++; 2779 } 2780 return true; 2781 } 2782 return false; 2783 } 2784 2785 /* Error Handling (EH) support */ 2786 2787 static int BusLogic_host_reset(struct scsi_cmnd * SCpnt) 2788 { 2789 struct BusLogic_HostAdapter *HostAdapter = (struct BusLogic_HostAdapter *) SCpnt->device->host->hostdata; 2790 2791 unsigned int id = SCpnt->device->id; 2792 struct BusLogic_TargetStatistics *stats = &HostAdapter->TargetStatistics[id]; 2793 int rc; 2794 2795 spin_lock_irq(SCpnt->device->host->host_lock); 2796 2797 BusLogic_IncrementErrorCounter(&stats->HostAdapterResetsRequested); 2798 2799 rc = BusLogic_ResetHostAdapter(HostAdapter, false); 2800 spin_unlock_irq(SCpnt->device->host->host_lock); 2801 return rc; 2802 } 2803 2804 /* 2805 BusLogic_QueueCommand creates a CCB for Command and places it into an 2806 Outgoing Mailbox for execution by the associated Host Adapter. 2807 */ 2808 2809 static int BusLogic_QueueCommand_lck(struct scsi_cmnd *Command, void (*CompletionRoutine) (struct scsi_cmnd *)) 2810 { 2811 struct BusLogic_HostAdapter *HostAdapter = (struct BusLogic_HostAdapter *) Command->device->host->hostdata; 2812 struct BusLogic_TargetFlags *TargetFlags = &HostAdapter->TargetFlags[Command->device->id]; 2813 struct BusLogic_TargetStatistics *TargetStatistics = HostAdapter->TargetStatistics; 2814 unsigned char *CDB = Command->cmnd; 2815 int CDB_Length = Command->cmd_len; 2816 int TargetID = Command->device->id; 2817 int LogicalUnit = Command->device->lun; 2818 int BufferLength = scsi_bufflen(Command); 2819 int Count; 2820 struct BusLogic_CCB *CCB; 2821 /* 2822 SCSI REQUEST_SENSE commands will be executed automatically by the Host 2823 Adapter for any errors, so they should not be executed explicitly unless 2824 the Sense Data is zero indicating that no error occurred. 2825 */ 2826 if (CDB[0] == REQUEST_SENSE && Command->sense_buffer[0] != 0) { 2827 Command->result = DID_OK << 16; 2828 CompletionRoutine(Command); 2829 return 0; 2830 } 2831 /* 2832 Allocate a CCB from the Host Adapter's free list. In the unlikely event 2833 that there are none available and memory allocation fails, wait 1 second 2834 and try again. If that fails, the Host Adapter is probably hung so signal 2835 an error as a Host Adapter Hard Reset should be initiated soon. 2836 */ 2837 CCB = BusLogic_AllocateCCB(HostAdapter); 2838 if (CCB == NULL) { 2839 spin_unlock_irq(HostAdapter->SCSI_Host->host_lock); 2840 BusLogic_Delay(1); 2841 spin_lock_irq(HostAdapter->SCSI_Host->host_lock); 2842 CCB = BusLogic_AllocateCCB(HostAdapter); 2843 if (CCB == NULL) { 2844 Command->result = DID_ERROR << 16; 2845 CompletionRoutine(Command); 2846 return 0; 2847 } 2848 } 2849 2850 /* 2851 Initialize the fields in the BusLogic Command Control Block (CCB). 2852 */ 2853 Count = scsi_dma_map(Command); 2854 BUG_ON(Count < 0); 2855 if (Count) { 2856 struct scatterlist *sg; 2857 int i; 2858 2859 CCB->Opcode = BusLogic_InitiatorCCB_ScatterGather; 2860 CCB->DataLength = Count * sizeof(struct BusLogic_ScatterGatherSegment); 2861 if (BusLogic_MultiMasterHostAdapterP(HostAdapter)) 2862 CCB->DataPointer = (unsigned int) CCB->DMA_Handle + ((unsigned long) &CCB->ScatterGatherList - (unsigned long) CCB); 2863 else 2864 CCB->DataPointer = Virtual_to_32Bit_Virtual(CCB->ScatterGatherList); 2865 2866 scsi_for_each_sg(Command, sg, Count, i) { 2867 CCB->ScatterGatherList[i].SegmentByteCount = 2868 sg_dma_len(sg); 2869 CCB->ScatterGatherList[i].SegmentDataPointer = 2870 sg_dma_address(sg); 2871 } 2872 } else if (!Count) { 2873 CCB->Opcode = BusLogic_InitiatorCCB; 2874 CCB->DataLength = BufferLength; 2875 CCB->DataPointer = 0; 2876 } 2877 2878 switch (CDB[0]) { 2879 case READ_6: 2880 case READ_10: 2881 CCB->DataDirection = BusLogic_DataInLengthChecked; 2882 TargetStatistics[TargetID].ReadCommands++; 2883 BusLogic_IncrementByteCounter(&TargetStatistics[TargetID].TotalBytesRead, BufferLength); 2884 BusLogic_IncrementSizeBucket(TargetStatistics[TargetID].ReadCommandSizeBuckets, BufferLength); 2885 break; 2886 case WRITE_6: 2887 case WRITE_10: 2888 CCB->DataDirection = BusLogic_DataOutLengthChecked; 2889 TargetStatistics[TargetID].WriteCommands++; 2890 BusLogic_IncrementByteCounter(&TargetStatistics[TargetID].TotalBytesWritten, BufferLength); 2891 BusLogic_IncrementSizeBucket(TargetStatistics[TargetID].WriteCommandSizeBuckets, BufferLength); 2892 break; 2893 default: 2894 CCB->DataDirection = BusLogic_UncheckedDataTransfer; 2895 break; 2896 } 2897 CCB->CDB_Length = CDB_Length; 2898 CCB->HostAdapterStatus = 0; 2899 CCB->TargetDeviceStatus = 0; 2900 CCB->TargetID = TargetID; 2901 CCB->LogicalUnit = LogicalUnit; 2902 CCB->TagEnable = false; 2903 CCB->LegacyTagEnable = false; 2904 /* 2905 BusLogic recommends that after a Reset the first couple of commands that 2906 are sent to a Target Device be sent in a non Tagged Queue fashion so that 2907 the Host Adapter and Target Device can establish Synchronous and Wide 2908 Transfer before Queue Tag messages can interfere with the Synchronous and 2909 Wide Negotiation messages. By waiting to enable Tagged Queuing until after 2910 the first BusLogic_MaxTaggedQueueDepth commands have been queued, it is 2911 assured that after a Reset any pending commands are requeued before Tagged 2912 Queuing is enabled and that the Tagged Queuing message will not occur while 2913 the partition table is being printed. In addition, some devices do not 2914 properly handle the transition from non-tagged to tagged commands, so it is 2915 necessary to wait until there are no pending commands for a target device 2916 before queuing tagged commands. 2917 */ 2918 if (HostAdapter->CommandsSinceReset[TargetID]++ >= 2919 BusLogic_MaxTaggedQueueDepth && !TargetFlags->TaggedQueuingActive && HostAdapter->ActiveCommands[TargetID] == 0 && TargetFlags->TaggedQueuingSupported && (HostAdapter->TaggedQueuingPermitted & (1 << TargetID))) { 2920 TargetFlags->TaggedQueuingActive = true; 2921 BusLogic_Notice("Tagged Queuing now active for Target %d\n", HostAdapter, TargetID); 2922 } 2923 if (TargetFlags->TaggedQueuingActive) { 2924 enum BusLogic_QueueTag QueueTag = BusLogic_SimpleQueueTag; 2925 /* 2926 When using Tagged Queuing with Simple Queue Tags, it appears that disk 2927 drive controllers do not guarantee that a queued command will not 2928 remain in a disconnected state indefinitely if commands that read or 2929 write nearer the head position continue to arrive without interruption. 2930 Therefore, for each Target Device this driver keeps track of the last 2931 time either the queue was empty or an Ordered Queue Tag was issued. If 2932 more than 4 seconds (one fifth of the 20 second disk timeout) have 2933 elapsed since this last sequence point, this command will be issued 2934 with an Ordered Queue Tag rather than a Simple Queue Tag, which forces 2935 the Target Device to complete all previously queued commands before 2936 this command may be executed. 2937 */ 2938 if (HostAdapter->ActiveCommands[TargetID] == 0) 2939 HostAdapter->LastSequencePoint[TargetID] = jiffies; 2940 else if (time_after(jiffies, HostAdapter->LastSequencePoint[TargetID] + 4 * HZ)) { 2941 HostAdapter->LastSequencePoint[TargetID] = jiffies; 2942 QueueTag = BusLogic_OrderedQueueTag; 2943 } 2944 if (HostAdapter->ExtendedLUNSupport) { 2945 CCB->TagEnable = true; 2946 CCB->QueueTag = QueueTag; 2947 } else { 2948 CCB->LegacyTagEnable = true; 2949 CCB->LegacyQueueTag = QueueTag; 2950 } 2951 } 2952 memcpy(CCB->CDB, CDB, CDB_Length); 2953 CCB->SenseDataLength = SCSI_SENSE_BUFFERSIZE; 2954 CCB->SenseDataPointer = pci_map_single(HostAdapter->PCI_Device, Command->sense_buffer, CCB->SenseDataLength, PCI_DMA_FROMDEVICE); 2955 CCB->Command = Command; 2956 Command->scsi_done = CompletionRoutine; 2957 if (BusLogic_MultiMasterHostAdapterP(HostAdapter)) { 2958 /* 2959 Place the CCB in an Outgoing Mailbox. The higher levels of the SCSI 2960 Subsystem should not attempt to queue more commands than can be placed 2961 in Outgoing Mailboxes, so there should always be one free. In the 2962 unlikely event that there are none available, wait 1 second and try 2963 again. If that fails, the Host Adapter is probably hung so signal an 2964 error as a Host Adapter Hard Reset should be initiated soon. 2965 */ 2966 if (!BusLogic_WriteOutgoingMailbox(HostAdapter, BusLogic_MailboxStartCommand, CCB)) { 2967 spin_unlock_irq(HostAdapter->SCSI_Host->host_lock); 2968 BusLogic_Warning("Unable to write Outgoing Mailbox - " "Pausing for 1 second\n", HostAdapter); 2969 BusLogic_Delay(1); 2970 spin_lock_irq(HostAdapter->SCSI_Host->host_lock); 2971 if (!BusLogic_WriteOutgoingMailbox(HostAdapter, BusLogic_MailboxStartCommand, CCB)) { 2972 BusLogic_Warning("Still unable to write Outgoing Mailbox - " "Host Adapter Dead?\n", HostAdapter); 2973 BusLogic_DeallocateCCB(CCB); 2974 Command->result = DID_ERROR << 16; 2975 Command->scsi_done(Command); 2976 } 2977 } 2978 } else { 2979 /* 2980 Call the FlashPoint SCCB Manager to start execution of the CCB. 2981 */ 2982 CCB->Status = BusLogic_CCB_Active; 2983 HostAdapter->ActiveCommands[TargetID]++; 2984 TargetStatistics[TargetID].CommandsAttempted++; 2985 FlashPoint_StartCCB(HostAdapter->CardHandle, CCB); 2986 /* 2987 The Command may have already completed and BusLogic_QueueCompletedCCB 2988 been called, or it may still be pending. 2989 */ 2990 if (CCB->Status == BusLogic_CCB_Completed) 2991 BusLogic_ProcessCompletedCCBs(HostAdapter); 2992 } 2993 return 0; 2994 } 2995 2996 static DEF_SCSI_QCMD(BusLogic_QueueCommand) 2997 2998 #if 0 2999 /* 3000 BusLogic_AbortCommand aborts Command if possible. 3001 */ 3002 3003 static int BusLogic_AbortCommand(struct scsi_cmnd *Command) 3004 { 3005 struct BusLogic_HostAdapter *HostAdapter = (struct BusLogic_HostAdapter *) Command->device->host->hostdata; 3006 3007 int TargetID = Command->device->id; 3008 struct BusLogic_CCB *CCB; 3009 BusLogic_IncrementErrorCounter(&HostAdapter->TargetStatistics[TargetID].CommandAbortsRequested); 3010 /* 3011 Attempt to find an Active CCB for this Command. If no Active CCB for this 3012 Command is found, then no Abort is necessary. 3013 */ 3014 for (CCB = HostAdapter->All_CCBs; CCB != NULL; CCB = CCB->NextAll) 3015 if (CCB->Command == Command) 3016 break; 3017 if (CCB == NULL) { 3018 BusLogic_Warning("Unable to Abort Command to Target %d - " "No CCB Found\n", HostAdapter, TargetID); 3019 return SUCCESS; 3020 } else if (CCB->Status == BusLogic_CCB_Completed) { 3021 BusLogic_Warning("Unable to Abort Command to Target %d - " "CCB Completed\n", HostAdapter, TargetID); 3022 return SUCCESS; 3023 } else if (CCB->Status == BusLogic_CCB_Reset) { 3024 BusLogic_Warning("Unable to Abort Command to Target %d - " "CCB Reset\n", HostAdapter, TargetID); 3025 return SUCCESS; 3026 } 3027 if (BusLogic_MultiMasterHostAdapterP(HostAdapter)) { 3028 /* 3029 Attempt to Abort this CCB. MultiMaster Firmware versions prior to 5.xx 3030 do not generate Abort Tag messages, but only generate the non-tagged 3031 Abort message. Since non-tagged commands are not sent by the Host 3032 Adapter until the queue of outstanding tagged commands has completed, 3033 and the Abort message is treated as a non-tagged command, it is 3034 effectively impossible to abort commands when Tagged Queuing is active. 3035 Firmware version 5.xx does generate Abort Tag messages, so it is 3036 possible to abort commands when Tagged Queuing is active. 3037 */ 3038 if (HostAdapter->TargetFlags[TargetID].TaggedQueuingActive && HostAdapter->FirmwareVersion[0] < '5') { 3039 BusLogic_Warning("Unable to Abort CCB #%ld to Target %d - " "Abort Tag Not Supported\n", HostAdapter, CCB->SerialNumber, TargetID); 3040 return FAILURE; 3041 } else if (BusLogic_WriteOutgoingMailbox(HostAdapter, BusLogic_MailboxAbortCommand, CCB)) { 3042 BusLogic_Warning("Aborting CCB #%ld to Target %d\n", HostAdapter, CCB->SerialNumber, TargetID); 3043 BusLogic_IncrementErrorCounter(&HostAdapter->TargetStatistics[TargetID].CommandAbortsAttempted); 3044 return SUCCESS; 3045 } else { 3046 BusLogic_Warning("Unable to Abort CCB #%ld to Target %d - " "No Outgoing Mailboxes\n", HostAdapter, CCB->SerialNumber, TargetID); 3047 return FAILURE; 3048 } 3049 } else { 3050 /* 3051 Call the FlashPoint SCCB Manager to abort execution of the CCB. 3052 */ 3053 BusLogic_Warning("Aborting CCB #%ld to Target %d\n", HostAdapter, CCB->SerialNumber, TargetID); 3054 BusLogic_IncrementErrorCounter(&HostAdapter->TargetStatistics[TargetID].CommandAbortsAttempted); 3055 FlashPoint_AbortCCB(HostAdapter->CardHandle, CCB); 3056 /* 3057 The Abort may have already been completed and 3058 BusLogic_QueueCompletedCCB been called, or it 3059 may still be pending. 3060 */ 3061 if (CCB->Status == BusLogic_CCB_Completed) { 3062 BusLogic_ProcessCompletedCCBs(HostAdapter); 3063 } 3064 return SUCCESS; 3065 } 3066 return SUCCESS; 3067 } 3068 3069 #endif 3070 /* 3071 BusLogic_ResetHostAdapter resets Host Adapter if possible, marking all 3072 currently executing SCSI Commands as having been Reset. 3073 */ 3074 3075 static int BusLogic_ResetHostAdapter(struct BusLogic_HostAdapter *HostAdapter, bool HardReset) 3076 { 3077 struct BusLogic_CCB *CCB; 3078 int TargetID; 3079 3080 /* 3081 * Attempt to Reset and Reinitialize the Host Adapter. 3082 */ 3083 3084 if (!(BusLogic_HardwareResetHostAdapter(HostAdapter, HardReset) && BusLogic_InitializeHostAdapter(HostAdapter))) { 3085 BusLogic_Error("Resetting %s Failed\n", HostAdapter, HostAdapter->FullModelName); 3086 return FAILURE; 3087 } 3088 3089 /* 3090 * Deallocate all currently executing CCBs. 3091 */ 3092 3093 for (CCB = HostAdapter->All_CCBs; CCB != NULL; CCB = CCB->NextAll) 3094 if (CCB->Status == BusLogic_CCB_Active) 3095 BusLogic_DeallocateCCB(CCB); 3096 /* 3097 * Wait a few seconds between the Host Adapter Hard Reset which 3098 * initiates a SCSI Bus Reset and issuing any SCSI Commands. Some 3099 * SCSI devices get confused if they receive SCSI Commands too soon 3100 * after a SCSI Bus Reset. 3101 */ 3102 3103 if (HardReset) { 3104 spin_unlock_irq(HostAdapter->SCSI_Host->host_lock); 3105 BusLogic_Delay(HostAdapter->BusSettleTime); 3106 spin_lock_irq(HostAdapter->SCSI_Host->host_lock); 3107 } 3108 3109 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) { 3110 HostAdapter->LastResetAttempted[TargetID] = jiffies; 3111 HostAdapter->LastResetCompleted[TargetID] = jiffies; 3112 } 3113 return SUCCESS; 3114 } 3115 3116 /* 3117 BusLogic_BIOSDiskParameters returns the Heads/Sectors/Cylinders BIOS Disk 3118 Parameters for Disk. The default disk geometry is 64 heads, 32 sectors, and 3119 the appropriate number of cylinders so as not to exceed drive capacity. In 3120 order for disks equal to or larger than 1 GB to be addressable by the BIOS 3121 without exceeding the BIOS limitation of 1024 cylinders, Extended Translation 3122 may be enabled in AutoSCSI on FlashPoint Host Adapters and on "W" and "C" 3123 series MultiMaster Host Adapters, or by a dip switch setting on "S" and "A" 3124 series MultiMaster Host Adapters. With Extended Translation enabled, drives 3125 between 1 GB inclusive and 2 GB exclusive are given a disk geometry of 128 3126 heads and 32 sectors, and drives above 2 GB inclusive are given a disk 3127 geometry of 255 heads and 63 sectors. However, if the BIOS detects that the 3128 Extended Translation setting does not match the geometry in the partition 3129 table, then the translation inferred from the partition table will be used by 3130 the BIOS, and a warning may be displayed. 3131 */ 3132 3133 static int BusLogic_BIOSDiskParameters(struct scsi_device *sdev, struct block_device *Device, sector_t capacity, int *Parameters) 3134 { 3135 struct BusLogic_HostAdapter *HostAdapter = (struct BusLogic_HostAdapter *) sdev->host->hostdata; 3136 struct BIOS_DiskParameters *DiskParameters = (struct BIOS_DiskParameters *) Parameters; 3137 unsigned char *buf; 3138 if (HostAdapter->ExtendedTranslationEnabled && capacity >= 2 * 1024 * 1024 /* 1 GB in 512 byte sectors */ ) { 3139 if (capacity >= 4 * 1024 * 1024 /* 2 GB in 512 byte sectors */ ) { 3140 DiskParameters->Heads = 255; 3141 DiskParameters->Sectors = 63; 3142 } else { 3143 DiskParameters->Heads = 128; 3144 DiskParameters->Sectors = 32; 3145 } 3146 } else { 3147 DiskParameters->Heads = 64; 3148 DiskParameters->Sectors = 32; 3149 } 3150 DiskParameters->Cylinders = (unsigned long) capacity / (DiskParameters->Heads * DiskParameters->Sectors); 3151 buf = scsi_bios_ptable(Device); 3152 if (buf == NULL) 3153 return 0; 3154 /* 3155 If the boot sector partition table flag is valid, search for a partition 3156 table entry whose end_head matches one of the standard BusLogic geometry 3157 translations (64/32, 128/32, or 255/63). 3158 */ 3159 if (*(unsigned short *) (buf + 64) == 0xAA55) { 3160 struct partition *FirstPartitionEntry = (struct partition *) buf; 3161 struct partition *PartitionEntry = FirstPartitionEntry; 3162 int SavedCylinders = DiskParameters->Cylinders, PartitionNumber; 3163 unsigned char PartitionEntryEndHead = 0, PartitionEntryEndSector = 0; 3164 for (PartitionNumber = 0; PartitionNumber < 4; PartitionNumber++) { 3165 PartitionEntryEndHead = PartitionEntry->end_head; 3166 PartitionEntryEndSector = PartitionEntry->end_sector & 0x3F; 3167 if (PartitionEntryEndHead == 64 - 1) { 3168 DiskParameters->Heads = 64; 3169 DiskParameters->Sectors = 32; 3170 break; 3171 } else if (PartitionEntryEndHead == 128 - 1) { 3172 DiskParameters->Heads = 128; 3173 DiskParameters->Sectors = 32; 3174 break; 3175 } else if (PartitionEntryEndHead == 255 - 1) { 3176 DiskParameters->Heads = 255; 3177 DiskParameters->Sectors = 63; 3178 break; 3179 } 3180 PartitionEntry++; 3181 } 3182 if (PartitionNumber == 4) { 3183 PartitionEntryEndHead = FirstPartitionEntry->end_head; 3184 PartitionEntryEndSector = FirstPartitionEntry->end_sector & 0x3F; 3185 } 3186 DiskParameters->Cylinders = (unsigned long) capacity / (DiskParameters->Heads * DiskParameters->Sectors); 3187 if (PartitionNumber < 4 && PartitionEntryEndSector == DiskParameters->Sectors) { 3188 if (DiskParameters->Cylinders != SavedCylinders) 3189 BusLogic_Warning("Adopting Geometry %d/%d from Partition Table\n", HostAdapter, DiskParameters->Heads, DiskParameters->Sectors); 3190 } else if (PartitionEntryEndHead > 0 || PartitionEntryEndSector > 0) { 3191 BusLogic_Warning("Warning: Partition Table appears to " "have Geometry %d/%d which is\n", HostAdapter, PartitionEntryEndHead + 1, PartitionEntryEndSector); 3192 BusLogic_Warning("not compatible with current BusLogic " "Host Adapter Geometry %d/%d\n", HostAdapter, DiskParameters->Heads, DiskParameters->Sectors); 3193 } 3194 } 3195 kfree(buf); 3196 return 0; 3197 } 3198 3199 3200 /* 3201 BugLogic_ProcDirectoryInfo implements /proc/scsi/BusLogic/<N>. 3202 */ 3203 3204 static int BusLogic_ProcDirectoryInfo(struct Scsi_Host *shost, char *ProcBuffer, char **StartPointer, off_t Offset, int BytesAvailable, int WriteFlag) 3205 { 3206 struct BusLogic_HostAdapter *HostAdapter = (struct BusLogic_HostAdapter *) shost->hostdata; 3207 struct BusLogic_TargetStatistics *TargetStatistics; 3208 int TargetID, Length; 3209 char *Buffer; 3210 3211 TargetStatistics = HostAdapter->TargetStatistics; 3212 if (WriteFlag) { 3213 HostAdapter->ExternalHostAdapterResets = 0; 3214 HostAdapter->HostAdapterInternalErrors = 0; 3215 memset(TargetStatistics, 0, BusLogic_MaxTargetDevices * sizeof(struct BusLogic_TargetStatistics)); 3216 return 0; 3217 } 3218 Buffer = HostAdapter->MessageBuffer; 3219 Length = HostAdapter->MessageBufferLength; 3220 Length += sprintf(&Buffer[Length], "\n\ 3221 Current Driver Queue Depth: %d\n\ 3222 Currently Allocated CCBs: %d\n", HostAdapter->DriverQueueDepth, HostAdapter->AllocatedCCBs); 3223 Length += sprintf(&Buffer[Length], "\n\n\ 3224 DATA TRANSFER STATISTICS\n\ 3225 \n\ 3226 Target Tagged Queuing Queue Depth Active Attempted Completed\n\ 3227 ====== ============== =========== ====== ========= =========\n"); 3228 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) { 3229 struct BusLogic_TargetFlags *TargetFlags = &HostAdapter->TargetFlags[TargetID]; 3230 if (!TargetFlags->TargetExists) 3231 continue; 3232 Length += sprintf(&Buffer[Length], " %2d %s", TargetID, (TargetFlags->TaggedQueuingSupported ? (TargetFlags->TaggedQueuingActive ? " Active" : (HostAdapter->TaggedQueuingPermitted & (1 << TargetID) 3233 ? " Permitted" : " Disabled")) 3234 : "Not Supported")); 3235 Length += sprintf(&Buffer[Length], 3236 " %3d %3u %9u %9u\n", HostAdapter->QueueDepth[TargetID], HostAdapter->ActiveCommands[TargetID], TargetStatistics[TargetID].CommandsAttempted, TargetStatistics[TargetID].CommandsCompleted); 3237 } 3238 Length += sprintf(&Buffer[Length], "\n\ 3239 Target Read Commands Write Commands Total Bytes Read Total Bytes Written\n\ 3240 ====== ============= ============== =================== ===================\n"); 3241 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) { 3242 struct BusLogic_TargetFlags *TargetFlags = &HostAdapter->TargetFlags[TargetID]; 3243 if (!TargetFlags->TargetExists) 3244 continue; 3245 Length += sprintf(&Buffer[Length], " %2d %9u %9u", TargetID, TargetStatistics[TargetID].ReadCommands, TargetStatistics[TargetID].WriteCommands); 3246 if (TargetStatistics[TargetID].TotalBytesRead.Billions > 0) 3247 Length += sprintf(&Buffer[Length], " %9u%09u", TargetStatistics[TargetID].TotalBytesRead.Billions, TargetStatistics[TargetID].TotalBytesRead.Units); 3248 else 3249 Length += sprintf(&Buffer[Length], " %9u", TargetStatistics[TargetID].TotalBytesRead.Units); 3250 if (TargetStatistics[TargetID].TotalBytesWritten.Billions > 0) 3251 Length += sprintf(&Buffer[Length], " %9u%09u\n", TargetStatistics[TargetID].TotalBytesWritten.Billions, TargetStatistics[TargetID].TotalBytesWritten.Units); 3252 else 3253 Length += sprintf(&Buffer[Length], " %9u\n", TargetStatistics[TargetID].TotalBytesWritten.Units); 3254 } 3255 Length += sprintf(&Buffer[Length], "\n\ 3256 Target Command 0-1KB 1-2KB 2-4KB 4-8KB 8-16KB\n\ 3257 ====== ======= ========= ========= ========= ========= =========\n"); 3258 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) { 3259 struct BusLogic_TargetFlags *TargetFlags = &HostAdapter->TargetFlags[TargetID]; 3260 if (!TargetFlags->TargetExists) 3261 continue; 3262 Length += 3263 sprintf(&Buffer[Length], 3264 " %2d Read %9u %9u %9u %9u %9u\n", TargetID, 3265 TargetStatistics[TargetID].ReadCommandSizeBuckets[0], 3266 TargetStatistics[TargetID].ReadCommandSizeBuckets[1], TargetStatistics[TargetID].ReadCommandSizeBuckets[2], TargetStatistics[TargetID].ReadCommandSizeBuckets[3], TargetStatistics[TargetID].ReadCommandSizeBuckets[4]); 3267 Length += 3268 sprintf(&Buffer[Length], 3269 " %2d Write %9u %9u %9u %9u %9u\n", TargetID, 3270 TargetStatistics[TargetID].WriteCommandSizeBuckets[0], 3271 TargetStatistics[TargetID].WriteCommandSizeBuckets[1], TargetStatistics[TargetID].WriteCommandSizeBuckets[2], TargetStatistics[TargetID].WriteCommandSizeBuckets[3], TargetStatistics[TargetID].WriteCommandSizeBuckets[4]); 3272 } 3273 Length += sprintf(&Buffer[Length], "\n\ 3274 Target Command 16-32KB 32-64KB 64-128KB 128-256KB 256KB+\n\ 3275 ====== ======= ========= ========= ========= ========= =========\n"); 3276 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) { 3277 struct BusLogic_TargetFlags *TargetFlags = &HostAdapter->TargetFlags[TargetID]; 3278 if (!TargetFlags->TargetExists) 3279 continue; 3280 Length += 3281 sprintf(&Buffer[Length], 3282 " %2d Read %9u %9u %9u %9u %9u\n", TargetID, 3283 TargetStatistics[TargetID].ReadCommandSizeBuckets[5], 3284 TargetStatistics[TargetID].ReadCommandSizeBuckets[6], TargetStatistics[TargetID].ReadCommandSizeBuckets[7], TargetStatistics[TargetID].ReadCommandSizeBuckets[8], TargetStatistics[TargetID].ReadCommandSizeBuckets[9]); 3285 Length += 3286 sprintf(&Buffer[Length], 3287 " %2d Write %9u %9u %9u %9u %9u\n", TargetID, 3288 TargetStatistics[TargetID].WriteCommandSizeBuckets[5], 3289 TargetStatistics[TargetID].WriteCommandSizeBuckets[6], TargetStatistics[TargetID].WriteCommandSizeBuckets[7], TargetStatistics[TargetID].WriteCommandSizeBuckets[8], TargetStatistics[TargetID].WriteCommandSizeBuckets[9]); 3290 } 3291 Length += sprintf(&Buffer[Length], "\n\n\ 3292 ERROR RECOVERY STATISTICS\n\ 3293 \n\ 3294 Command Aborts Bus Device Resets Host Adapter Resets\n\ 3295 Target Requested Completed Requested Completed Requested Completed\n\ 3296 ID \\\\\\\\ Attempted //// \\\\\\\\ Attempted //// \\\\\\\\ Attempted ////\n\ 3297 ====== ===== ===== ===== ===== ===== ===== ===== ===== =====\n"); 3298 for (TargetID = 0; TargetID < HostAdapter->MaxTargetDevices; TargetID++) { 3299 struct BusLogic_TargetFlags *TargetFlags = &HostAdapter->TargetFlags[TargetID]; 3300 if (!TargetFlags->TargetExists) 3301 continue; 3302 Length += sprintf(&Buffer[Length], "\ 3303 %2d %5d %5d %5d %5d %5d %5d %5d %5d %5d\n", TargetID, TargetStatistics[TargetID].CommandAbortsRequested, TargetStatistics[TargetID].CommandAbortsAttempted, TargetStatistics[TargetID].CommandAbortsCompleted, TargetStatistics[TargetID].BusDeviceResetsRequested, TargetStatistics[TargetID].BusDeviceResetsAttempted, TargetStatistics[TargetID].BusDeviceResetsCompleted, TargetStatistics[TargetID].HostAdapterResetsRequested, TargetStatistics[TargetID].HostAdapterResetsAttempted, TargetStatistics[TargetID].HostAdapterResetsCompleted); 3304 } 3305 Length += sprintf(&Buffer[Length], "\nExternal Host Adapter Resets: %d\n", HostAdapter->ExternalHostAdapterResets); 3306 Length += sprintf(&Buffer[Length], "Host Adapter Internal Errors: %d\n", HostAdapter->HostAdapterInternalErrors); 3307 if (Length >= BusLogic_MessageBufferSize) 3308 BusLogic_Error("Message Buffer length %d exceeds size %d\n", HostAdapter, Length, BusLogic_MessageBufferSize); 3309 if ((Length -= Offset) <= 0) 3310 return 0; 3311 if (Length >= BytesAvailable) 3312 Length = BytesAvailable; 3313 memcpy(ProcBuffer, HostAdapter->MessageBuffer + Offset, Length); 3314 *StartPointer = ProcBuffer; 3315 return Length; 3316 } 3317 3318 3319 /* 3320 BusLogic_Message prints Driver Messages. 3321 */ 3322 3323 static void BusLogic_Message(enum BusLogic_MessageLevel MessageLevel, char *Format, struct BusLogic_HostAdapter *HostAdapter, ...) 3324 { 3325 static char Buffer[BusLogic_LineBufferSize]; 3326 static bool BeginningOfLine = true; 3327 va_list Arguments; 3328 int Length = 0; 3329 va_start(Arguments, HostAdapter); 3330 Length = vsprintf(Buffer, Format, Arguments); 3331 va_end(Arguments); 3332 if (MessageLevel == BusLogic_AnnounceLevel) { 3333 static int AnnouncementLines = 0; 3334 strcpy(&HostAdapter->MessageBuffer[HostAdapter->MessageBufferLength], Buffer); 3335 HostAdapter->MessageBufferLength += Length; 3336 if (++AnnouncementLines <= 2) 3337 printk("%sscsi: %s", BusLogic_MessageLevelMap[MessageLevel], Buffer); 3338 } else if (MessageLevel == BusLogic_InfoLevel) { 3339 strcpy(&HostAdapter->MessageBuffer[HostAdapter->MessageBufferLength], Buffer); 3340 HostAdapter->MessageBufferLength += Length; 3341 if (BeginningOfLine) { 3342 if (Buffer[0] != '\n' || Length > 1) 3343 printk("%sscsi%d: %s", BusLogic_MessageLevelMap[MessageLevel], HostAdapter->HostNumber, Buffer); 3344 } else 3345 printk("%s", Buffer); 3346 } else { 3347 if (BeginningOfLine) { 3348 if (HostAdapter != NULL && HostAdapter->HostAdapterInitialized) 3349 printk("%sscsi%d: %s", BusLogic_MessageLevelMap[MessageLevel], HostAdapter->HostNumber, Buffer); 3350 else 3351 printk("%s%s", BusLogic_MessageLevelMap[MessageLevel], Buffer); 3352 } else 3353 printk("%s", Buffer); 3354 } 3355 BeginningOfLine = (Buffer[Length - 1] == '\n'); 3356 } 3357 3358 3359 /* 3360 BusLogic_ParseKeyword parses an individual option keyword. It returns true 3361 and updates the pointer if the keyword is recognized and false otherwise. 3362 */ 3363 3364 static bool __init BusLogic_ParseKeyword(char **StringPointer, char *Keyword) 3365 { 3366 char *Pointer = *StringPointer; 3367 while (*Keyword != '\0') { 3368 char StringChar = *Pointer++; 3369 char KeywordChar = *Keyword++; 3370 if (StringChar >= 'A' && StringChar <= 'Z') 3371 StringChar += 'a' - 'Z'; 3372 if (KeywordChar >= 'A' && KeywordChar <= 'Z') 3373 KeywordChar += 'a' - 'Z'; 3374 if (StringChar != KeywordChar) 3375 return false; 3376 } 3377 *StringPointer = Pointer; 3378 return true; 3379 } 3380 3381 3382 /* 3383 BusLogic_ParseDriverOptions handles processing of BusLogic Driver Options 3384 specifications. 3385 3386 BusLogic Driver Options may be specified either via the Linux Kernel Command 3387 Line or via the Loadable Kernel Module Installation Facility. Driver Options 3388 for multiple host adapters may be specified either by separating the option 3389 strings by a semicolon, or by specifying multiple "BusLogic=" strings on the 3390 command line. Individual option specifications for a single host adapter are 3391 separated by commas. The Probing and Debugging Options apply to all host 3392 adapters whereas the remaining options apply individually only to the 3393 selected host adapter. 3394 3395 The BusLogic Driver Probing Options are described in 3396 <file:Documentation/scsi/BusLogic.txt>. 3397 */ 3398 3399 static int __init BusLogic_ParseDriverOptions(char *OptionsString) 3400 { 3401 while (true) { 3402 struct BusLogic_DriverOptions *DriverOptions = &BusLogic_DriverOptions[BusLogic_DriverOptionsCount++]; 3403 int TargetID; 3404 memset(DriverOptions, 0, sizeof(struct BusLogic_DriverOptions)); 3405 while (*OptionsString != '\0' && *OptionsString != ';') { 3406 /* Probing Options. */ 3407 if (BusLogic_ParseKeyword(&OptionsString, "IO:")) { 3408 unsigned long IO_Address = simple_strtoul(OptionsString, &OptionsString, 0); 3409 BusLogic_ProbeOptions.LimitedProbeISA = true; 3410 switch (IO_Address) { 3411 case 0x330: 3412 BusLogic_ProbeOptions.Probe330 = true; 3413 break; 3414 case 0x334: 3415 BusLogic_ProbeOptions.Probe334 = true; 3416 break; 3417 case 0x230: 3418 BusLogic_ProbeOptions.Probe230 = true; 3419 break; 3420 case 0x234: 3421 BusLogic_ProbeOptions.Probe234 = true; 3422 break; 3423 case 0x130: 3424 BusLogic_ProbeOptions.Probe130 = true; 3425 break; 3426 case 0x134: 3427 BusLogic_ProbeOptions.Probe134 = true; 3428 break; 3429 default: 3430 BusLogic_Error("BusLogic: Invalid Driver Options " "(invalid I/O Address 0x%X)\n", NULL, IO_Address); 3431 return 0; 3432 } 3433 } else if (BusLogic_ParseKeyword(&OptionsString, "NoProbeISA")) 3434 BusLogic_ProbeOptions.NoProbeISA = true; 3435 else if (BusLogic_ParseKeyword(&OptionsString, "NoProbePCI")) 3436 BusLogic_ProbeOptions.NoProbePCI = true; 3437 else if (BusLogic_ParseKeyword(&OptionsString, "NoProbe")) 3438 BusLogic_ProbeOptions.NoProbe = true; 3439 else if (BusLogic_ParseKeyword(&OptionsString, "NoSortPCI")) 3440 BusLogic_ProbeOptions.NoSortPCI = true; 3441 else if (BusLogic_ParseKeyword(&OptionsString, "MultiMasterFirst")) 3442 BusLogic_ProbeOptions.MultiMasterFirst = true; 3443 else if (BusLogic_ParseKeyword(&OptionsString, "FlashPointFirst")) 3444 BusLogic_ProbeOptions.FlashPointFirst = true; 3445 /* Tagged Queuing Options. */ 3446 else if (BusLogic_ParseKeyword(&OptionsString, "QueueDepth:[") || BusLogic_ParseKeyword(&OptionsString, "QD:[")) { 3447 for (TargetID = 0; TargetID < BusLogic_MaxTargetDevices; TargetID++) { 3448 unsigned short QueueDepth = simple_strtoul(OptionsString, &OptionsString, 0); 3449 if (QueueDepth > BusLogic_MaxTaggedQueueDepth) { 3450 BusLogic_Error("BusLogic: Invalid Driver Options " "(invalid Queue Depth %d)\n", NULL, QueueDepth); 3451 return 0; 3452 } 3453 DriverOptions->QueueDepth[TargetID] = QueueDepth; 3454 if (*OptionsString == ',') 3455 OptionsString++; 3456 else if (*OptionsString == ']') 3457 break; 3458 else { 3459 BusLogic_Error("BusLogic: Invalid Driver Options " "(',' or ']' expected at '%s')\n", NULL, OptionsString); 3460 return 0; 3461 } 3462 } 3463 if (*OptionsString != ']') { 3464 BusLogic_Error("BusLogic: Invalid Driver Options " "(']' expected at '%s')\n", NULL, OptionsString); 3465 return 0; 3466 } else 3467 OptionsString++; 3468 } else if (BusLogic_ParseKeyword(&OptionsString, "QueueDepth:") || BusLogic_ParseKeyword(&OptionsString, "QD:")) { 3469 unsigned short QueueDepth = simple_strtoul(OptionsString, &OptionsString, 0); 3470 if (QueueDepth == 0 || QueueDepth > BusLogic_MaxTaggedQueueDepth) { 3471 BusLogic_Error("BusLogic: Invalid Driver Options " "(invalid Queue Depth %d)\n", NULL, QueueDepth); 3472 return 0; 3473 } 3474 DriverOptions->CommonQueueDepth = QueueDepth; 3475 for (TargetID = 0; TargetID < BusLogic_MaxTargetDevices; TargetID++) 3476 DriverOptions->QueueDepth[TargetID] = QueueDepth; 3477 } else if (BusLogic_ParseKeyword(&OptionsString, "TaggedQueuing:") || BusLogic_ParseKeyword(&OptionsString, "TQ:")) { 3478 if (BusLogic_ParseKeyword(&OptionsString, "Default")) { 3479 DriverOptions->TaggedQueuingPermitted = 0x0000; 3480 DriverOptions->TaggedQueuingPermittedMask = 0x0000; 3481 } else if (BusLogic_ParseKeyword(&OptionsString, "Enable")) { 3482 DriverOptions->TaggedQueuingPermitted = 0xFFFF; 3483 DriverOptions->TaggedQueuingPermittedMask = 0xFFFF; 3484 } else if (BusLogic_ParseKeyword(&OptionsString, "Disable")) { 3485 DriverOptions->TaggedQueuingPermitted = 0x0000; 3486 DriverOptions->TaggedQueuingPermittedMask = 0xFFFF; 3487 } else { 3488 unsigned short TargetBit; 3489 for (TargetID = 0, TargetBit = 1; TargetID < BusLogic_MaxTargetDevices; TargetID++, TargetBit <<= 1) 3490 switch (*OptionsString++) { 3491 case 'Y': 3492 DriverOptions->TaggedQueuingPermitted |= TargetBit; 3493 DriverOptions->TaggedQueuingPermittedMask |= TargetBit; 3494 break; 3495 case 'N': 3496 DriverOptions->TaggedQueuingPermitted &= ~TargetBit; 3497 DriverOptions->TaggedQueuingPermittedMask |= TargetBit; 3498 break; 3499 case 'X': 3500 break; 3501 default: 3502 OptionsString--; 3503 TargetID = BusLogic_MaxTargetDevices; 3504 break; 3505 } 3506 } 3507 } 3508 /* Miscellaneous Options. */ 3509 else if (BusLogic_ParseKeyword(&OptionsString, "BusSettleTime:") || BusLogic_ParseKeyword(&OptionsString, "BST:")) { 3510 unsigned short BusSettleTime = simple_strtoul(OptionsString, &OptionsString, 0); 3511 if (BusSettleTime > 5 * 60) { 3512 BusLogic_Error("BusLogic: Invalid Driver Options " "(invalid Bus Settle Time %d)\n", NULL, BusSettleTime); 3513 return 0; 3514 } 3515 DriverOptions->BusSettleTime = BusSettleTime; 3516 } else if (BusLogic_ParseKeyword(&OptionsString, "InhibitTargetInquiry")) 3517 DriverOptions->LocalOptions.InhibitTargetInquiry = true; 3518 /* Debugging Options. */ 3519 else if (BusLogic_ParseKeyword(&OptionsString, "TraceProbe")) 3520 BusLogic_GlobalOptions.TraceProbe = true; 3521 else if (BusLogic_ParseKeyword(&OptionsString, "TraceHardwareReset")) 3522 BusLogic_GlobalOptions.TraceHardwareReset = true; 3523 else if (BusLogic_ParseKeyword(&OptionsString, "TraceConfiguration")) 3524 BusLogic_GlobalOptions.TraceConfiguration = true; 3525 else if (BusLogic_ParseKeyword(&OptionsString, "TraceErrors")) 3526 BusLogic_GlobalOptions.TraceErrors = true; 3527 else if (BusLogic_ParseKeyword(&OptionsString, "Debug")) { 3528 BusLogic_GlobalOptions.TraceProbe = true; 3529 BusLogic_GlobalOptions.TraceHardwareReset = true; 3530 BusLogic_GlobalOptions.TraceConfiguration = true; 3531 BusLogic_GlobalOptions.TraceErrors = true; 3532 } 3533 if (*OptionsString == ',') 3534 OptionsString++; 3535 else if (*OptionsString != ';' && *OptionsString != '\0') { 3536 BusLogic_Error("BusLogic: Unexpected Driver Option '%s' " "ignored\n", NULL, OptionsString); 3537 *OptionsString = '\0'; 3538 } 3539 } 3540 if (!(BusLogic_DriverOptionsCount == 0 || BusLogic_ProbeInfoCount == 0 || BusLogic_DriverOptionsCount == BusLogic_ProbeInfoCount)) { 3541 BusLogic_Error("BusLogic: Invalid Driver Options " "(all or no I/O Addresses must be specified)\n", NULL); 3542 return 0; 3543 } 3544 /* 3545 Tagged Queuing is disabled when the Queue Depth is 1 since queuing 3546 multiple commands is not possible. 3547 */ 3548 for (TargetID = 0; TargetID < BusLogic_MaxTargetDevices; TargetID++) 3549 if (DriverOptions->QueueDepth[TargetID] == 1) { 3550 unsigned short TargetBit = 1 << TargetID; 3551 DriverOptions->TaggedQueuingPermitted &= ~TargetBit; 3552 DriverOptions->TaggedQueuingPermittedMask |= TargetBit; 3553 } 3554 if (*OptionsString == ';') 3555 OptionsString++; 3556 if (*OptionsString == '\0') 3557 return 0; 3558 } 3559 return 1; 3560 } 3561 3562 /* 3563 Get it all started 3564 */ 3565 3566 static struct scsi_host_template Bus_Logic_template = { 3567 .module = THIS_MODULE, 3568 .proc_name = "BusLogic", 3569 .proc_info = BusLogic_ProcDirectoryInfo, 3570 .name = "BusLogic", 3571 .info = BusLogic_DriverInfo, 3572 .queuecommand = BusLogic_QueueCommand, 3573 .slave_configure = BusLogic_SlaveConfigure, 3574 .bios_param = BusLogic_BIOSDiskParameters, 3575 .eh_host_reset_handler = BusLogic_host_reset, 3576 #if 0 3577 .eh_abort_handler = BusLogic_AbortCommand, 3578 #endif 3579 .unchecked_isa_dma = 1, 3580 .max_sectors = 128, 3581 .use_clustering = ENABLE_CLUSTERING, 3582 }; 3583 3584 /* 3585 BusLogic_Setup handles processing of Kernel Command Line Arguments. 3586 */ 3587 3588 static int __init BusLogic_Setup(char *str) 3589 { 3590 int ints[3]; 3591 3592 (void) get_options(str, ARRAY_SIZE(ints), ints); 3593 3594 if (ints[0] != 0) { 3595 BusLogic_Error("BusLogic: Obsolete Command Line Entry " "Format Ignored\n", NULL); 3596 return 0; 3597 } 3598 if (str == NULL || *str == '\0') 3599 return 0; 3600 return BusLogic_ParseDriverOptions(str); 3601 } 3602 3603 /* 3604 * Exit function. Deletes all hosts associated with this driver. 3605 */ 3606 3607 static void __exit BusLogic_exit(void) 3608 { 3609 struct BusLogic_HostAdapter *ha, *next; 3610 3611 list_for_each_entry_safe(ha, next, &BusLogic_host_list, host_list) 3612 BusLogic_ReleaseHostAdapter(ha); 3613 } 3614 3615 __setup("BusLogic=", BusLogic_Setup); 3616 3617 #ifdef MODULE 3618 static struct pci_device_id BusLogic_pci_tbl[] __devinitdata = { 3619 { PCI_VENDOR_ID_BUSLOGIC, PCI_DEVICE_ID_BUSLOGIC_MULTIMASTER, 3620 PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0}, 3621 { PCI_VENDOR_ID_BUSLOGIC, PCI_DEVICE_ID_BUSLOGIC_MULTIMASTER_NC, 3622 PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0}, 3623 { PCI_VENDOR_ID_BUSLOGIC, PCI_DEVICE_ID_BUSLOGIC_FLASHPOINT, 3624 PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0}, 3625 { } 3626 }; 3627 #endif 3628 MODULE_DEVICE_TABLE(pci, BusLogic_pci_tbl); 3629 3630 module_init(BusLogic_init); 3631 module_exit(BusLogic_exit); 3632