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1 /** @file
2 PCH SPI Common Driver implements the SPI Host Controller Compatibility Interface.
3 
4 Copyright (c) 2013-2015 Intel Corporation.
5 
6 This program and the accompanying materials
7 are licensed and made available under the terms and conditions of the BSD License
8 which accompanies this distribution.  The full text of the license may be found at
9 http://opensource.org/licenses/bsd-license.php
10 
11 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
12 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
13 
14 **/
15 
16 #include "PchSpi.h"
17 
18 VOID
FillOutPublicInfoStruct(SPI_INSTANCE * SpiInstance)19 FillOutPublicInfoStruct (
20   SPI_INSTANCE          *SpiInstance
21   )
22 /*++
23 
24 Routine Description:
25 
26   Fillout SpiInstance->InitInfo;
27 
28 Arguments:
29 
30   SpiInstance   - Pointer to SpiInstance to initialize
31 
32 Returns:
33 
34   NONE
35 
36 --*/
37 {
38   UINT8         Index;
39 
40   SpiInstance->InitInfo.InitTable = &SpiInstance->SpiInitTable;
41 
42   //
43   // Give invalid index in case operation not supported.
44   //
45   SpiInstance->InitInfo.JedecIdOpcodeIndex = 0xff;
46   SpiInstance->InitInfo.OtherOpcodeIndex = 0xff;
47   SpiInstance->InitInfo.WriteStatusOpcodeIndex = 0xff;
48   SpiInstance->InitInfo.ProgramOpcodeIndex = 0xff;
49   SpiInstance->InitInfo.ReadOpcodeIndex = 0xff;
50   SpiInstance->InitInfo.EraseOpcodeIndex = 0xff;
51   SpiInstance->InitInfo.ReadStatusOpcodeIndex = 0xff;
52   SpiInstance->InitInfo.FullChipEraseOpcodeIndex = 0xff;
53   for (Index = 0; Index < SPI_NUM_OPCODE; Index++) {
54     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationJedecId) {
55       SpiInstance->InitInfo.JedecIdOpcodeIndex = Index;
56     }
57     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationOther) {
58       SpiInstance->InitInfo.OtherOpcodeIndex = Index;
59     }
60     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationWriteStatus) {
61       SpiInstance->InitInfo.WriteStatusOpcodeIndex = Index;
62     }
63     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationProgramData_1_Byte ||
64         SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationProgramData_64_Byte) {
65       SpiInstance->InitInfo.ProgramOpcodeIndex = Index;
66     }
67     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationReadData ||
68         SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationFastRead ||
69         SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationDualOutputFastRead) {
70       SpiInstance->InitInfo.ReadOpcodeIndex = Index;
71     }
72     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationErase_256_Byte ||
73         SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationErase_4K_Byte ||
74         SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationErase_8K_Byte ||
75         SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationErase_64K_Byte) {
76       SpiInstance->InitInfo.EraseOpcodeIndex = Index;
77     }
78     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationReadStatus) {
79       SpiInstance->InitInfo.ReadStatusOpcodeIndex = Index;
80     }
81     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationFullChipErase) {
82       SpiInstance->InitInfo.FullChipEraseOpcodeIndex = Index;
83     }
84   }
85 }
86 
87 EFI_STATUS
SpiProtocolConstructor(SPI_INSTANCE * SpiInstance)88 SpiProtocolConstructor (
89   SPI_INSTANCE          *SpiInstance
90   )
91 /*++
92 
93 Routine Description:
94 
95   Initialize an SPI protocol instance.
96   The function will assert in debug if PCH RCBA has not been initialized
97 
98 Arguments:
99 
100   SpiInstance   - Pointer to SpiInstance to initialize
101 
102 Returns:
103 
104   EFI_SUCCESS     The protocol instance was properly initialized
105   EFI_UNSUPPORTED The PCH is not supported by this module
106 
107 --*/
108 {
109   SpiInstance->InitDone = FALSE;  // Indicate NOT READY.
110 
111   //
112   // Check if the current PCH is known and supported by this code
113   //
114   if (!IsQncSupported ()) {
115     DEBUG ((DEBUG_ERROR, "PCH SPI Protocol not supported due to no proper QNC LPC found!\n"));
116     return EFI_UNSUPPORTED;
117   }
118   //
119   // Initialize the SPI protocol instance
120   //
121   SpiInstance->Signature            = PCH_SPI_PRIVATE_DATA_SIGNATURE;
122   SpiInstance->Handle               = NULL;
123   SpiInstance->SpiProtocol.Init     = SpiProtocolInit;
124   SpiInstance->SpiProtocol.Lock     = SpiProtocolLock;
125   SpiInstance->SpiProtocol.Execute  = SpiProtocolExecute;
126   SpiInstance->SpiProtocol.Info     = SpiProtocolInfo;
127 
128   //
129   // Sanity check to ensure PCH RCBA initialization has occurred previously.
130   //
131   SpiInstance->PchRootComplexBar = MmioRead32 (
132                                     PciDeviceMmBase (PCI_BUS_NUMBER_QNC,
133                                     PCI_DEVICE_NUMBER_QNC_LPC,
134                                     PCI_FUNCTION_NUMBER_QNC_LPC) + R_QNC_LPC_RCBA
135                                     ) & B_QNC_LPC_RCBA_MASK;
136   ASSERT (SpiInstance->PchRootComplexBar != 0);
137 
138   return EFI_SUCCESS;
139 }
140 
141 EFI_STATUS
142 EFIAPI
UnlockFlashComponents(IN EFI_SPI_PROTOCOL * This,IN UINT8 UnlockCmdOpcodeIndex)143 UnlockFlashComponents (
144   IN      EFI_SPI_PROTOCOL      *This,
145   IN      UINT8                 UnlockCmdOpcodeIndex
146   )
147 /*++
148 
149 Routine Description:
150 
151   Issue unlock command to disable block protection, this only needs to be done once per SPI power on
152 
153 Arguments:
154 
155   This                      A pointer to "EFI_SPI_PROTOCOL" for issuing commands
156   UnlockCmdOpcodeIndex      The index of the Unlock command
157 
158 Returns:
159 
160   EFI_SUCCESS               UnLock operation succeed.
161   EFI_DEVICE_ERROR          Device error, operation failed.
162 
163 --*/
164 {
165   EFI_STATUS    Status;
166   SPI_INSTANCE  *SpiInstance;
167   UINT8         SpiStatus;
168 
169   if (UnlockCmdOpcodeIndex >= SPI_NUM_OPCODE) {
170     return EFI_UNSUPPORTED;
171   }
172 
173   SpiInstance = SPI_INSTANCE_FROM_SPIPROTOCOL (This);
174 
175   //
176   // Issue unlock command to disable block protection, this only needs to be done once per SPI power on
177   //
178   SpiStatus = 0;
179   //
180   // Issue unlock command to the flash component 1 at first
181   //
182   Status = SpiProtocolExecute (
183             This,
184             UnlockCmdOpcodeIndex,
185             SpiInstance->SpiInitTable.PrefixOpcode[0] == PCH_SPI_COMMAND_WRITE_ENABLE ? 0 : 1,
186             TRUE,
187             TRUE,
188             TRUE,
189             (UINTN) 0,
190             sizeof (SpiStatus),
191             &SpiStatus,
192             EnumSpiRegionAll
193             );
194   if (EFI_ERROR (Status)) {
195     DEBUG ((EFI_D_ERROR, "Unlock flash component 1 fail!\n"));
196     return Status;
197   }
198 
199   return EFI_SUCCESS;
200 }
201 
202 EFI_STATUS
203 EFIAPI
SpiProtocolInit(IN EFI_SPI_PROTOCOL * This,IN SPI_INIT_TABLE * InitTable)204 SpiProtocolInit (
205   IN EFI_SPI_PROTOCOL       *This,
206   IN SPI_INIT_TABLE         *InitTable
207   )
208 /*++
209 
210 Routine Description:
211 
212   Initialize the host controller to execute SPI command.
213 
214 Arguments:
215 
216   This                    Pointer to the EFI_SPI_PROTOCOL instance.
217   InitTable               Initialization data to be programmed into the SPI host controller.
218 
219 Returns:
220 
221   EFI_SUCCESS             Initialization completed.
222   EFI_ACCESS_DENIED       The SPI static configuration interface has been locked-down.
223   EFI_INVALID_PARAMETER   Bad input parameters.
224   EFI_UNSUPPORTED         Can't get Descriptor mode VSCC values
225 --*/
226 {
227   EFI_STATUS    Status;
228   UINT8         Index;
229   UINT16        OpcodeType;
230   SPI_INSTANCE  *SpiInstance;
231   UINTN         PchRootComplexBar;
232   UINT8         UnlockCmdOpcodeIndex;
233   UINT8         FlashPartId[3];
234 
235   SpiInstance       = SPI_INSTANCE_FROM_SPIPROTOCOL (This);
236   PchRootComplexBar = SpiInstance->PchRootComplexBar;
237 
238   if (InitTable != NULL) {
239     //
240     // Copy table into SPI driver Private data structure
241     //
242     CopyMem (
243       &SpiInstance->SpiInitTable,
244       InitTable,
245       sizeof (SPI_INIT_TABLE)
246       );
247   } else {
248     return EFI_INVALID_PARAMETER;
249   }
250   //
251   // Check if the SPI interface has been locked-down.
252   //
253   if ((MmioRead16 (PchRootComplexBar + R_QNC_RCRB_SPIS) & B_QNC_RCRB_SPIS_SCL) != 0) {
254     ASSERT_EFI_ERROR (EFI_ACCESS_DENIED);
255     return EFI_ACCESS_DENIED;
256   }
257   //
258   // Clear all the status bits for status regs.
259   //
260   MmioOr16 (
261     (UINTN) (PchRootComplexBar + R_QNC_RCRB_SPIS),
262     (UINT16) ((B_QNC_RCRB_SPIS_CDS | B_QNC_RCRB_SPIS_BAS))
263     );
264   MmioRead16 (PchRootComplexBar + R_QNC_RCRB_SPIS);
265 
266   //
267   // Set the Prefix Opcode registers.
268   //
269   MmioWrite16 (
270     PchRootComplexBar + R_QNC_RCRB_SPIPREOP,
271     (SpiInstance->SpiInitTable.PrefixOpcode[1] << 8) | InitTable->PrefixOpcode[0]
272     );
273   MmioRead16 (PchRootComplexBar + R_QNC_RCRB_SPIPREOP);
274 
275   //
276   // Set Opcode Type Configuration registers.
277   //
278   for (Index = 0, OpcodeType = 0; Index < SPI_NUM_OPCODE; Index++) {
279     switch (SpiInstance->SpiInitTable.OpcodeMenu[Index].Type) {
280     case EnumSpiOpcodeRead:
281       OpcodeType |= (UINT16) (B_QNC_RCRB_SPIOPTYPE_ADD_READ << (Index * 2));
282       break;
283     case EnumSpiOpcodeWrite:
284       OpcodeType |= (UINT16) (B_QNC_RCRB_SPIOPTYPE_ADD_WRITE << (Index * 2));
285       break;
286     case EnumSpiOpcodeWriteNoAddr:
287       OpcodeType |= (UINT16) (B_QNC_RCRB_SPIOPTYPE_NOADD_WRITE << (Index * 2));
288       break;
289     default:
290       OpcodeType |= (UINT16) (B_QNC_RCRB_SPIOPTYPE_NOADD_READ << (Index * 2));
291       break;
292     }
293   }
294   MmioWrite16 (PchRootComplexBar + R_QNC_RCRB_SPIOPTYPE, OpcodeType);
295   MmioRead16 (PchRootComplexBar + R_QNC_RCRB_SPIOPTYPE);
296 
297   //
298   // Setup the Opcode Menu registers.
299   //
300   UnlockCmdOpcodeIndex = SPI_NUM_OPCODE;
301   for (Index = 0; Index < SPI_NUM_OPCODE; Index++) {
302     MmioWrite8 (
303       PchRootComplexBar + R_QNC_RCRB_SPIOPMENU + Index,
304       SpiInstance->SpiInitTable.OpcodeMenu[Index].Code
305       );
306     MmioRead8 (PchRootComplexBar + R_QNC_RCRB_SPIOPMENU + Index);
307     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationJedecId) {
308       Status = SpiProtocolExecute (
309                 This,
310                 Index,
311                 0,
312                 TRUE,
313                 TRUE,
314                 FALSE,
315                 (UINTN) 0,
316                 3,
317                 FlashPartId,
318                 EnumSpiRegionDescriptor
319                 );
320       if (EFI_ERROR (Status)) {
321         return Status;
322       }
323       if (FlashPartId[0] != SpiInstance->SpiInitTable.VendorId  ||
324           FlashPartId[1] != SpiInstance->SpiInitTable.DeviceId0 ||
325           FlashPartId[2] != SpiInstance->SpiInitTable.DeviceId1) {
326         return EFI_INVALID_PARAMETER;
327       }
328     }
329 
330     if (SpiInstance->SpiInitTable.OpcodeMenu[Index].Operation == EnumSpiOperationWriteStatus) {
331       UnlockCmdOpcodeIndex = Index;
332     }
333   }
334 
335   Status = UnlockFlashComponents (
336             This,
337             UnlockCmdOpcodeIndex
338             );
339   if (EFI_ERROR (Status)) {
340     DEBUG ((EFI_D_ERROR, "Unlock flash components fail!\n"));
341   }
342 
343   SpiPhaseInit ();
344   FillOutPublicInfoStruct (SpiInstance);
345   SpiInstance->InitDone = TRUE;
346   return EFI_SUCCESS;
347 }
348 
349 EFI_STATUS
350 EFIAPI
SpiProtocolLock(IN EFI_SPI_PROTOCOL * This)351 SpiProtocolLock (
352   IN EFI_SPI_PROTOCOL     *This
353   )
354 /*++
355 
356 Routine Description:
357 
358   Lock the SPI Static Configuration Interface.
359   Once locked, the interface can not be changed and can only be clear by system reset.
360 
361 Arguments:
362 
363   This      Pointer to the EFI_SPI_PROTOCOL instance.
364 
365 Returns:
366 
367   EFI_SUCCESS             Lock operation succeed.
368   EFI_DEVICE_ERROR        Device error, operation failed.
369   EFI_ACCESS_DENIED       The interface has already been locked.
370 
371 --*/
372 {
373   SPI_INSTANCE  *SpiInstance;
374   UINTN         PchRootComplexBar;
375 
376   SpiInstance       = SPI_INSTANCE_FROM_SPIPROTOCOL (This);
377   PchRootComplexBar = SpiInstance->PchRootComplexBar;
378 
379   //
380   // Check if the SPI interface has been locked-down.
381   //
382   if ((MmioRead16 (PchRootComplexBar + R_QNC_RCRB_SPIS) & B_QNC_RCRB_SPIS_SCL) != 0) {
383     return EFI_ACCESS_DENIED;
384   }
385 
386   //
387   // Lock-down the configuration interface.
388   //
389   MmioOr16 ((UINTN) (PchRootComplexBar + R_QNC_RCRB_SPIS), (UINT16) (B_QNC_RCRB_SPIS_SCL));
390 
391   //
392   // Verify if it's really locked.
393   //
394   if ((MmioRead16 (PchRootComplexBar + R_QNC_RCRB_SPIS) & B_QNC_RCRB_SPIS_SCL) == 0) {
395     return EFI_DEVICE_ERROR;
396   } else {
397     //
398     // Save updated register in S3 Boot script.
399     //
400     S3BootScriptSaveMemWrite (
401       S3BootScriptWidthUint16,
402         (UINTN) (PchRootComplexBar + R_QNC_RCRB_SPIS),
403         1,
404         (VOID *) (UINTN) (PchRootComplexBar + R_QNC_RCRB_SPIS)
405         );
406   }
407 
408   return EFI_SUCCESS;
409 }
410 
411 EFI_STATUS
412 EFIAPI
SpiProtocolExecute(IN EFI_SPI_PROTOCOL * This,IN UINT8 OpcodeIndex,IN UINT8 PrefixOpcodeIndex,IN BOOLEAN DataCycle,IN BOOLEAN Atomic,IN BOOLEAN ShiftOut,IN UINTN Address,IN UINT32 DataByteCount,IN OUT UINT8 * Buffer,IN SPI_REGION_TYPE SpiRegionType)413 SpiProtocolExecute (
414   IN     EFI_SPI_PROTOCOL   *This,
415   IN     UINT8              OpcodeIndex,
416   IN     UINT8              PrefixOpcodeIndex,
417   IN     BOOLEAN            DataCycle,
418   IN     BOOLEAN            Atomic,
419   IN     BOOLEAN            ShiftOut,
420   IN     UINTN              Address,
421   IN     UINT32             DataByteCount,
422   IN OUT UINT8              *Buffer,
423   IN     SPI_REGION_TYPE    SpiRegionType
424   )
425 /*++
426 
427 Routine Description:
428 
429   Execute SPI commands from the host controller.
430   This function would be called by runtime driver, please do not use any MMIO marco here
431 
432 Arguments:
433 
434   This              Pointer to the EFI_SPI_PROTOCOL instance.
435   OpcodeIndex       Index of the command in the OpCode Menu.
436   PrefixOpcodeIndex Index of the first command to run when in an atomic cycle sequence.
437   DataCycle         TRUE if the SPI cycle contains data
438   Atomic            TRUE if the SPI cycle is atomic and interleave cycles are not allowed.
439   ShiftOut          If DataByteCount is not zero, TRUE to shift data out and FALSE to shift data in.
440   Address           In Descriptor Mode, for Descriptor Region, GbE Region, ME Region and Platform
441                     Region, this value specifies the offset from the Region Base; for BIOS Region,
442                     this value specifies the offset from the start of the BIOS Image. In Non
443                     Descriptor Mode, this value specifies the offset from the start of the BIOS Image.
444                     Please note BIOS Image size may be smaller than BIOS Region size (in Descriptor
445                     Mode) or the flash size (in Non Descriptor Mode), and in this case, BIOS Image is
446                     supposed to be placed at the top end of the BIOS Region (in Descriptor Mode) or
447                     the flash (in Non Descriptor Mode)
448   DataByteCount     Number of bytes in the data portion of the SPI cycle. This function may break the
449                     data transfer into multiple operations. This function ensures each operation does
450                     not cross 256 byte flash address boundary.
451                     *NOTE: if there is some SPI chip that has a stricter address boundary requirement
452                     (e.g., its write page size is < 256 byte), then the caller cannot rely on this
453                     function to cut the data transfer at proper address boundaries, and it's the
454                     caller's reponsibility to pass in a properly cut DataByteCount parameter.
455   Buffer            Pointer to caller-allocated buffer containing the dada received or sent during the
456                     SPI cycle.
457   SpiRegionType     SPI Region type. Values EnumSpiRegionBios, EnumSpiRegionGbE, EnumSpiRegionMe,
458                     EnumSpiRegionDescriptor, and EnumSpiRegionPlatformData are only applicable in
459                     Descriptor mode. Value EnumSpiRegionAll is applicable to both Descriptor Mode
460                     and Non Descriptor Mode, which indicates "SpiRegionOffset" is actually relative
461                     to base of the 1st flash device (i.e., it is a Flash Linear Address).
462 
463 Returns:
464 
465   EFI_SUCCESS             Command succeed.
466   EFI_INVALID_PARAMETER   The parameters specified are not valid.
467   EFI_UNSUPPORTED         Command not supported.
468   EFI_DEVICE_ERROR        Device error, command aborts abnormally.
469 
470 --*/
471 {
472   EFI_STATUS  Status;
473   UINT16      BiosCtlSave;
474   UINT32      SmiEnSave;
475 
476   BiosCtlSave = 0;
477   SmiEnSave   = 0;
478 
479   //
480   // Check if the parameters are valid.
481   //
482   if ((OpcodeIndex >= SPI_NUM_OPCODE) || (PrefixOpcodeIndex >= SPI_NUM_PREFIX_OPCODE)) {
483     return EFI_INVALID_PARAMETER;
484   }
485   //
486   // Make sure it's safe to program the command.
487   //
488   if (!WaitForSpiCycleComplete (This, FALSE)) {
489     return EFI_DEVICE_ERROR;
490   }
491 
492   //
493   // Acquire access to the SPI interface is not required any more.
494   //
495   //
496   // Disable SMIs to make sure normal mode flash access is not interrupted by an SMI
497   // whose SMI handler accesses flash (e.g. for error logging)
498   //
499   SmiEnSave = QNCPortRead (QUARK_NC_HOST_BRIDGE_SB_PORT_ID, QNC_MSG_FSBIC_REG_HMISC);
500   QNCPortWrite (QUARK_NC_HOST_BRIDGE_SB_PORT_ID, QNC_MSG_FSBIC_REG_HMISC, (SmiEnSave & ~SMI_EN));
501 
502   //
503   // Save BIOS Ctrl register
504   //
505   BiosCtlSave = PciRead16 (
506                   PCI_LIB_ADDRESS (PCI_BUS_NUMBER_QNC,
507                   PCI_DEVICE_NUMBER_QNC_LPC,
508                   PCI_FUNCTION_NUMBER_QNC_LPC,
509                   R_QNC_LPC_BIOS_CNTL)
510                   ) & (B_QNC_LPC_BIOS_CNTL_BCD | B_QNC_LPC_BIOS_CNTL_PFE | B_QNC_LPC_BIOS_CNTL_BIOSWE | B_QNC_LPC_BIOS_CNTL_SMM_BWP);
511 
512   //
513   // Enable flash writing
514   //
515   PciOr16 (
516     PCI_LIB_ADDRESS (PCI_BUS_NUMBER_QNC,
517     PCI_DEVICE_NUMBER_QNC_LPC,
518     PCI_FUNCTION_NUMBER_QNC_LPC,
519     R_QNC_LPC_BIOS_CNTL),
520     (UINT16) (B_QNC_LPC_BIOS_CNTL_BIOSWE | B_QNC_LPC_BIOS_CNTL_SMM_BWP)
521     );
522 
523   //
524   // If shifts the data out, disable Prefetching and Caching.
525   //
526   if (ShiftOut) {
527     PciAndThenOr16 (
528       PCI_LIB_ADDRESS (PCI_BUS_NUMBER_QNC,
529       PCI_DEVICE_NUMBER_QNC_LPC,
530       PCI_FUNCTION_NUMBER_QNC_LPC,
531       R_QNC_LPC_BIOS_CNTL),
532       (UINT16) (~(B_QNC_LPC_BIOS_CNTL_BCD | B_QNC_LPC_BIOS_CNTL_PFE)),
533       (UINT16) ((B_QNC_LPC_BIOS_CNTL_BCD))
534       );
535   }
536   //
537   // Sends the command to the SPI interface to execute.
538   //
539   Status = SendSpiCmd (
540             This,
541             OpcodeIndex,
542             PrefixOpcodeIndex,
543             DataCycle,
544             Atomic,
545             ShiftOut,
546             Address,
547             DataByteCount,
548             Buffer,
549             SpiRegionType
550             );
551 
552   //
553   // Restore BIOS Ctrl register
554   //
555   PciAndThenOr16 (
556     PCI_LIB_ADDRESS (PCI_BUS_NUMBER_QNC,
557     PCI_DEVICE_NUMBER_QNC_LPC,
558     PCI_FUNCTION_NUMBER_QNC_LPC,
559     R_QNC_LPC_BIOS_CNTL),
560     (UINT16) (~(B_QNC_LPC_BIOS_CNTL_BCD | B_QNC_LPC_BIOS_CNTL_PFE | B_QNC_LPC_BIOS_CNTL_BIOSWE | B_QNC_LPC_BIOS_CNTL_SMM_BWP)),
561     (UINT16) (BiosCtlSave)
562       );
563   //
564   // Restore SMIs.
565   //
566   QNCPortWrite (QUARK_NC_HOST_BRIDGE_SB_PORT_ID, QNC_MSG_FSBIC_REG_HMISC, SmiEnSave);
567 
568   return Status;
569 }
570 
571 VOID
SpiOffset2Physical(IN EFI_SPI_PROTOCOL * This,IN UINTN SpiRegionOffset,IN SPI_REGION_TYPE SpiRegionType,OUT UINTN * HardwareSpiAddress,OUT UINTN * BaseAddress,OUT UINTN * LimitAddress)572 SpiOffset2Physical (
573   IN      EFI_SPI_PROTOCOL  *This,
574   IN      UINTN             SpiRegionOffset,
575   IN      SPI_REGION_TYPE   SpiRegionType,
576   OUT     UINTN             *HardwareSpiAddress,
577   OUT     UINTN             *BaseAddress,
578   OUT     UINTN             *LimitAddress
579   )
580 /*++
581 
582 Routine Description:
583 
584   Convert SPI offset to Physical address of SPI hardware
585 
586 Arguments:
587 
588   This               Pointer to the EFI_SPI_PROTOCOL instance.
589   SpiRegionOffset    In Descriptor Mode, for Descriptor Region, GbE Region, ME Region and Platform
590                      Region, this value specifies the offset from the Region Base; for BIOS Region,
591                      this value specifies the offset from the start of the BIOS Image. In Non
592                      Descriptor Mode, this value specifies the offset from the start of the BIOS Image.
593                      Please note BIOS Image size may be smaller than BIOS Region size (in Descriptor
594                      Mode) or the flash size (in Non Descriptor Mode), and in this case, BIOS Image is
595                      supposed to be placed at the top end of the BIOS Region (in Descriptor Mode) or
596                      the flash (in Non Descriptor Mode)
597   BaseAddress        Base Address of the region.
598   SpiRegionType      SPI Region type. Values EnumSpiRegionBios, EnumSpiRegionGbE, EnumSpiRegionMe,
599                      EnumSpiRegionDescriptor, and EnumSpiRegionPlatformData are only applicable in
600                      Descriptor mode. Value EnumSpiRegionAll is applicable to both Descriptor Mode
601                      and Non Descriptor Mode, which indicates "SpiRegionOffset" is actually relative
602                      to base of the 1st flash device (i.e., it is a Flash Linear Address).
603   HardwareSpiAddress Return absolution SPI address (i.e., Flash Linear Address)
604   BaseAddress        Return base address of the region type
605   LimitAddress       Return limit address of the region type
606 
607 Returns:
608 
609   EFI_SUCCESS             Command succeed.
610 
611 --*/
612 {
613   SPI_INSTANCE  *SpiInstance;
614 
615   SpiInstance       = SPI_INSTANCE_FROM_SPIPROTOCOL (This);
616 
617   if (SpiRegionType == EnumSpiRegionAll) {
618     //
619     // EnumSpiRegionAll indicates address is relative to flash device (i.e., address is Flash
620     // Linear Address)
621     //
622     *HardwareSpiAddress = SpiRegionOffset;
623   } else {
624     //
625     // Otherwise address is relative to BIOS image
626     //
627     *HardwareSpiAddress = SpiRegionOffset + SpiInstance->SpiInitTable.BiosStartOffset;
628   }
629 }
630 
631 EFI_STATUS
SendSpiCmd(IN EFI_SPI_PROTOCOL * This,IN UINT8 OpcodeIndex,IN UINT8 PrefixOpcodeIndex,IN BOOLEAN DataCycle,IN BOOLEAN Atomic,IN BOOLEAN ShiftOut,IN UINTN Address,IN UINT32 DataByteCount,IN OUT UINT8 * Buffer,IN SPI_REGION_TYPE SpiRegionType)632 SendSpiCmd (
633   IN     EFI_SPI_PROTOCOL   *This,
634   IN     UINT8              OpcodeIndex,
635   IN     UINT8              PrefixOpcodeIndex,
636   IN     BOOLEAN            DataCycle,
637   IN     BOOLEAN            Atomic,
638   IN     BOOLEAN            ShiftOut,
639   IN     UINTN              Address,
640   IN     UINT32             DataByteCount,
641   IN OUT UINT8              *Buffer,
642   IN     SPI_REGION_TYPE    SpiRegionType
643   )
644 /*++
645 
646 Routine Description:
647 
648   This function sends the programmed SPI command to the slave device.
649 
650 Arguments:
651 
652   OpcodeIndex       Index of the command in the OpCode Menu.
653   PrefixOpcodeIndex Index of the first command to run when in an atomic cycle sequence.
654   DataCycle         TRUE if the SPI cycle contains data
655   Atomic            TRUE if the SPI cycle is atomic and interleave cycles are not allowed.
656   ShiftOut          If DataByteCount is not zero, TRUE to shift data out and FALSE to shift data in.
657   Address           In Descriptor Mode, for Descriptor Region, GbE Region, ME Region and Platform
658                     Region, this value specifies the offset from the Region Base; for BIOS Region,
659                     this value specifies the offset from the start of the BIOS Image. In Non
660                     Descriptor Mode, this value specifies the offset from the start of the BIOS Image.
661                     Please note BIOS Image size may be smaller than BIOS Region size (in Descriptor
662                     Mode) or the flash size (in Non Descriptor Mode), and in this case, BIOS Image is
663                     supposed to be placed at the top end of the BIOS Region (in Descriptor Mode) or
664                     the flash (in Non Descriptor Mode)
665   DataByteCount     Number of bytes in the data portion of the SPI cycle. This function may break the
666                     data transfer into multiple operations. This function ensures each operation does
667                     not cross 256 byte flash address boundary.
668                     *NOTE: if there is some SPI chip that has a stricter address boundary requirement
669                     (e.g., its write page size is < 256 byte), then the caller cannot rely on this
670                     function to cut the data transfer at proper address boundaries, and it's the
671                     caller's reponsibility to pass in a properly cut DataByteCount parameter.
672   Buffer            Data received or sent during the SPI cycle.
673   SpiRegionType     SPI Region type. Values EnumSpiRegionBios, EnumSpiRegionGbE, EnumSpiRegionMe,
674                     EnumSpiRegionDescriptor, and EnumSpiRegionPlatformData are only applicable in
675                     Descriptor mode. Value EnumSpiRegionAll is applicable to both Descriptor Mode
676                     and Non Descriptor Mode, which indicates "SpiRegionOffset" is actually relative
677                     to base of the 1st flash device (i.e., it is a Flash Linear Address).
678 
679 Returns:
680 
681   EFI_SUCCESS             SPI command completes successfully.
682   EFI_DEVICE_ERROR        Device error, the command aborts abnormally.
683   EFI_ACCESS_DENIED       Some unrecognized command encountered in hardware sequencing mode
684   EFI_INVALID_PARAMETER   The parameters specified are not valid.
685 
686 --*/
687 {
688   UINT32        Index;
689   SPI_INSTANCE  *SpiInstance;
690   UINTN         HardwareSpiAddr;
691   UINTN         SpiBiosSize;
692   UINTN         BaseAddress;
693   UINTN         LimitAddress;
694   UINT32        SpiDataCount;
695   UINT8         OpCode;
696   UINTN         PchRootComplexBar;
697 
698   SpiInstance       = SPI_INSTANCE_FROM_SPIPROTOCOL (This);
699   PchRootComplexBar = SpiInstance->PchRootComplexBar;
700   SpiBiosSize       = SpiInstance->SpiInitTable.BiosSize;
701   OpCode            = MmioRead8 (PchRootComplexBar + R_QNC_RCRB_SPIOPMENU + OpcodeIndex);
702 
703   //
704   // Check if the value of opcode register is 0 or the BIOS Size of SpiInitTable is 0
705   //
706   if (OpCode == 0 || SpiBiosSize == 0) {
707     ASSERT (FALSE);
708     return EFI_INVALID_PARAMETER;
709   }
710 
711   SpiOffset2Physical (This, Address, SpiRegionType, &HardwareSpiAddr, &BaseAddress, &LimitAddress);
712   //
713   // Have direct access to BIOS region in Descriptor mode,
714   //
715   if (SpiInstance->SpiInitTable.OpcodeMenu[OpcodeIndex].Type == EnumSpiOpcodeRead &&
716       SpiRegionType == EnumSpiRegionBios) {
717     CopyMem (
718       Buffer,
719       (UINT8 *) ((HardwareSpiAddr - BaseAddress) + (UINT32) (~(SpiBiosSize - 1))),
720       DataByteCount
721       );
722     return EFI_SUCCESS;
723   }
724   //
725   // DEBUG((EFI_D_ERROR, "SPIADDR %x, %x, %x, %x\n", Address, HardwareSpiAddr, BaseAddress,
726   // LimitAddress));
727   //
728   if ((DataCycle == FALSE) && (DataByteCount > 0)) {
729     DataByteCount = 0;
730   }
731 
732   do {
733     //
734     // Trim at 256 byte boundary per operation,
735     // - PCH SPI controller requires trimming at 4KB boundary
736     // - Some SPI chips require trimming at 256 byte boundary for write operation
737     // - Trimming has limited performance impact as we can read / write atmost 64 byte
738     //   per operation
739     //
740     if (HardwareSpiAddr + DataByteCount > ((HardwareSpiAddr + BIT8) &~(BIT8 - 1))) {
741       SpiDataCount = (((UINT32) (HardwareSpiAddr) + BIT8) &~(BIT8 - 1)) - (UINT32) (HardwareSpiAddr);
742     } else {
743       SpiDataCount = DataByteCount;
744     }
745     //
746     // Calculate the number of bytes to shift in/out during the SPI data cycle.
747     // Valid settings for the number of bytes duing each data portion of the
748     // PCH SPI cycles are: 0, 1, 2, 3, 4, 5, 6, 7, 8, 16, 24, 32, 40, 48, 56, 64
749     //
750     if (SpiDataCount >= 64) {
751       SpiDataCount = 64;
752     } else if ((SpiDataCount &~0x07) != 0) {
753       SpiDataCount = SpiDataCount &~0x07;
754     }
755     //
756     // If shifts data out, load data into the SPI data buffer.
757     //
758     if (ShiftOut) {
759       for (Index = 0; Index < SpiDataCount; Index++) {
760         MmioWrite8 (PchRootComplexBar + R_QNC_RCRB_SPID0 + Index, Buffer[Index]);
761         MmioRead8 (PchRootComplexBar + R_QNC_RCRB_SPID0 + Index);
762       }
763     }
764 
765     MmioWrite32 (
766       (PchRootComplexBar + R_QNC_RCRB_SPIA),
767       (UINT32) (HardwareSpiAddr & B_QNC_RCRB_SPIA_MASK)
768       );
769     MmioRead32 (PchRootComplexBar + R_QNC_RCRB_SPIA);
770 
771     //
772     // Execute the command on the SPI compatible mode
773     //
774 
775     //
776     // Clear error flags
777     //
778     MmioOr16 ((PchRootComplexBar + R_QNC_RCRB_SPIS), B_QNC_RCRB_SPIS_BAS);
779 
780     //
781     // Initialte the SPI cycle
782     //
783     if (DataCycle) {
784       MmioWrite16 (
785         (PchRootComplexBar + R_QNC_RCRB_SPIC),
786         ( (UINT16) (B_QNC_RCRB_SPIC_DC) | (UINT16) (((SpiDataCount - 1) << 8) & B_QNC_RCRB_SPIC_DBC) |
787           (UINT16) ((OpcodeIndex << 4) & B_QNC_RCRB_SPIC_COP) |
788           (UINT16) ((PrefixOpcodeIndex << 3) & B_QNC_RCRB_SPIC_SPOP) |
789           (UINT16) (Atomic ? B_QNC_RCRB_SPIC_ACS : 0) |
790           (UINT16) (B_QNC_RCRB_SPIC_SCGO)));
791     } else {
792       MmioWrite16 (
793         (PchRootComplexBar + R_QNC_RCRB_SPIC),
794         ( (UINT16) ((OpcodeIndex << 4) & B_QNC_RCRB_SPIC_COP) |
795           (UINT16) ((PrefixOpcodeIndex << 3) & B_QNC_RCRB_SPIC_SPOP) |
796           (UINT16) (Atomic ? B_QNC_RCRB_SPIC_ACS : 0) |
797           (UINT16) (B_QNC_RCRB_SPIC_SCGO)));
798     }
799 
800     MmioRead16 (PchRootComplexBar + R_QNC_RCRB_SPIC);
801 
802     //
803     // end of command execution
804     //
805     // Wait the SPI cycle to complete.
806     //
807     if (!WaitForSpiCycleComplete (This, TRUE)) {
808       return EFI_DEVICE_ERROR;
809     }
810     //
811     // If shifts data in, get data from the SPI data buffer.
812     //
813     if (!ShiftOut) {
814       for (Index = 0; Index < SpiDataCount; Index++) {
815         Buffer[Index] = MmioRead8 (PchRootComplexBar + R_QNC_RCRB_SPID0 + Index);
816       }
817     }
818 
819     HardwareSpiAddr += SpiDataCount;
820     Buffer += SpiDataCount;
821     DataByteCount -= SpiDataCount;
822   } while (DataByteCount > 0);
823 
824   return EFI_SUCCESS;
825 }
826 
827 BOOLEAN
WaitForSpiCycleComplete(IN EFI_SPI_PROTOCOL * This,IN BOOLEAN ErrorCheck)828 WaitForSpiCycleComplete (
829   IN     EFI_SPI_PROTOCOL   *This,
830   IN     BOOLEAN            ErrorCheck
831   )
832 /*++
833 
834 Routine Description:
835 
836   Wait execution cycle to complete on the SPI interface. Check both Hardware
837   and Software Sequencing status registers
838 
839 Arguments:
840 
841   This                - The SPI protocol instance
842   UseSoftwareSequence - TRUE if this is a Hardware Sequencing operation
843   ErrorCheck          - TRUE if the SpiCycle needs to do the error check
844 
845 Returns:
846 
847   TRUE       SPI cycle completed on the interface.
848   FALSE      Time out while waiting the SPI cycle to complete.
849              It's not safe to program the next command on the SPI interface.
850 
851 --*/
852 {
853   UINT64        WaitTicks;
854   UINT64        WaitCount;
855   UINT16        Data16;
856   SPI_INSTANCE  *SpiInstance;
857   UINTN         PchRootComplexBar;
858 
859   SpiInstance       = SPI_INSTANCE_FROM_SPIPROTOCOL (This);
860   PchRootComplexBar = SpiInstance->PchRootComplexBar;
861 
862   //
863   // Convert the wait period allowed into to tick count
864   //
865   WaitCount = WAIT_TIME / WAIT_PERIOD;
866 
867   //
868   // Wait for the SPI cycle to complete.
869   //
870   for (WaitTicks = 0; WaitTicks < WaitCount; WaitTicks++) {
871     Data16 = MmioRead16 (PchRootComplexBar + R_QNC_RCRB_SPIS);
872     if ((Data16 & B_QNC_RCRB_SPIS_SCIP) == 0) {
873       MmioWrite16 (PchRootComplexBar + R_QNC_RCRB_SPIS, (B_QNC_RCRB_SPIS_BAS | B_QNC_RCRB_SPIS_CDS));
874       if ((Data16 & B_QNC_RCRB_SPIS_BAS) && (ErrorCheck == TRUE)) {
875         return FALSE;
876       } else {
877         return TRUE;
878       }
879     }
880 
881     MicroSecondDelay (WAIT_PERIOD);
882   }
883 
884   return FALSE;
885 }
886 
887 EFI_STATUS
888 EFIAPI
SpiProtocolInfo(IN EFI_SPI_PROTOCOL * This,OUT SPI_INIT_INFO ** InitInfoPtr)889 SpiProtocolInfo (
890   IN EFI_SPI_PROTOCOL     *This,
891   OUT SPI_INIT_INFO      **InitInfoPtr
892   )
893 /*++
894 
895 Routine Description:
896 
897   Return info about SPI host controller, to help callers usage of Execute
898   service.
899 
900   If 0xff is returned as an opcode index in init info struct
901   then device does not support the operation.
902 
903 Arguments:
904 
905   This                    Pointer to the EFI_SPI_PROTOCOL instance.
906   InitInfoPtr             Pointer to init info written to this memory location.
907 
908 Returns:
909 
910   EFI_SUCCESS             Information returned.
911   EFI_INVALID_PARAMETER   Invalid parameter.
912   EFI_NOT_READY           Required resources not setup.
913   Others                  Unexpected error happened.
914 
915 --*/
916 {
917   SPI_INSTANCE  *SpiInstance;
918 
919   if (This == NULL || InitInfoPtr == NULL) {
920     return EFI_INVALID_PARAMETER;
921   }
922   SpiInstance       = SPI_INSTANCE_FROM_SPIPROTOCOL (This);
923   if (SpiInstance->Signature != PCH_SPI_PRIVATE_DATA_SIGNATURE) {
924     return EFI_INVALID_PARAMETER;
925   }
926 
927   if (!SpiInstance->InitDone) {
928     *InitInfoPtr = NULL;
929     return EFI_NOT_READY;
930   }
931   *InitInfoPtr = &SpiInstance->InitInfo;
932   return EFI_SUCCESS;
933 }
934