1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
|
/*****************************************************************************
*
* Copyright (C) 2012 Advanced Micro Devices, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Advanced Micro Devices, Inc. nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL ADVANCED MICRO DEVICES, INC. BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*
***************************************************************************/
#include "Platform.h"
//Table for class code of SATA Controller in different modes
UINT32 sataIfCodeTable[] = {
0x01018f00, //sata class ID of IDE
0x01040000, //sata class ID of RAID
0x01060100, //sata class ID of AHCI
0x01018a00, //sata class ID of Legacy IDE
0x01018f00, //sata class ID of IDE to AHCI mode
0x01060100, //sata class ID of AMD-AHCI mode
0x01018f00 //sata class ID of IDE to AMD-AHCI mode
};
//Table for device id of SATA Controller in different modes
UINT16 sataDeviceIDTable[] = {
0x4390, //sata device ID of IDE
0x4392, //sata device ID of RAID
0x4391, //sata class ID of AHCI
0x4390, //sata device ID of Legacy IDE
0x4390, //sata device ID of IDE->AHCI mode
0x4394, //sata device ID for AMD-AHCI mode
0x4390 //sata device ID of IDE->AMDAHCI mode
};
void sataInitBeforePciEnum(AMDSBCFG* pConfig){
UINT32 ddValue, *tempptr;
UINT16 *pDeviceIdptr, dwDeviceId;
UINT8 dbValue, dbOrMask, dbAndMask;
dbAndMask=0;
dbOrMask=0;
// Enable/Disable Combined mode & do primary/secondary selections, enable/disable
if (pConfig->SataIdeCombinedMode == CIMX_OPTION_DISABLED) dbAndMask= BIT3; //Clear BIT3
if (pConfig->SataIdeCombMdPriSecOpt == 1) dbOrMask = BIT4; //Set BIT4
if (pConfig->SataSmbus == 0) dbOrMask = BIT1;
RWPCI(((SMBUS_BUS_DEV_FUN << 16) + SB_SMBUS_REGAD), AccWidthUint8 | S3_SAVE, ~(dbAndMask), dbOrMask);
if (pConfig->SataController == 0){
// SATA Controller Disabled & set Power Saving mode to disabled
RWPCI(((SMBUS_BUS_DEV_FUN << 16) + SB_SMBUS_REGAD), AccWidthUint8 | S3_SAVE, ~(UINT32)BIT0, BIT1);
return;
}
restrictSataCapabilities(pConfig);
// Get the appropriate class code from the table and write it to PCI register 08h-0Bh
// Set the appropriate SATA class based on the input parameters
dbValue=pConfig->SataClass;
tempptr= (UINT32 *) FIXUP_PTR (&sataIfCodeTable[0]);
ddValue=tempptr[dbValue];
// BIT0: Enable write access to PCI header (reg 08h-0Bh) by setting SATA PCI register 40h, bit 0
// BIT4:disable fast boot
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40), AccWidthUint8 | S3_SAVE, 0xff, BIT4+BIT0);
// Write the class code to SATA PCI register 08h-0Bh
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG08), AccWidthUint32 | S3_SAVE, 0, ddValue);
if (pConfig->SataClass == LEGACY_IDE_MODE) //SATA = Legacy IDE
//Set PATA controller to native mode
RWPCI(((IDE_BUS_DEV_FUN << 16) + SB_IDE_REG09), AccWidthUint8 | S3_SAVE, 0x00, 0x08F);
//Change the appropriate device id
if (pConfig->SataClass == AMD_AHCI_MODE) {
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40 + 3), AccWidthUint8 | S3_SAVE, 0xff, BIT0);
}
pDeviceIdptr= (UINT16 *) FIXUP_PTR (&sataDeviceIDTable[0]);
ReadPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG02), AccWidthUint16 | S3_SAVE, &dwDeviceId);
if ( !((dwDeviceId==SB750_SATA_DEFAULT_DEVICE_ID) && (pConfig->SataClass == RAID_MODE)) ){
//if not (SB750 & RAID mode), then program the device id
dwDeviceId=pDeviceIdptr[dbValue];
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG02), AccWidthUint16 | S3_SAVE, 0, dwDeviceId);
}
if (pConfig->AcpiS1Supported)
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG34), AccWidthUint8 | S3_SAVE, 00, 0x70);//Disable SATA PM & MSI capability
else
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG60+1), AccWidthUint8 | S3_SAVE, 00, 0x70);//Disable SATA MSI capability
if (getRevisionID() >= SB700_A13){
//Enable test/enhancement mode for A13
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40+3), AccWidthUint8 | S3_SAVE, ~(UINT32)BIT5, 00);
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG48), AccWidthUint32 | S3_SAVE, ~(UINT32)(BIT24+BIT21), 0xBF80);
}
if (getRevisionID() >= SB700_A14){
//Fix for TT SB01352 - LED Stays On When ODD Attached To Slave Port In IDE Mode
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG48), AccWidthUint8 | S3_SAVE, 0xFF, BIT6);
}
// Disable write access to PCI header
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40), AccWidthUint8 | S3_SAVE, ~(UINT32)BIT0, 0);
// RPR 6.5 SATA PHY Programming Sequence
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG86, AccWidthUint16 | S3_SAVE, 0x00, 0x2C00);
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG88, AccWidthUint32 | S3_SAVE, 0x00, 0x01B48016);
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG8C, AccWidthUint32 | S3_SAVE, 0x00, 0x01B48016);
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG90, AccWidthUint32 | S3_SAVE, 0x00, 0x01B48016);
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG94, AccWidthUint32 | S3_SAVE, 0x00, 0x01B48016);
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG98, AccWidthUint32 | S3_SAVE, 0x00, 0x01B48016);
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG9C, AccWidthUint32 | S3_SAVE, 0x00, 0x01B48016);
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REGA0, AccWidthUint32 | S3_SAVE, 0x00, 0xA07AA07A);
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REGA4, AccWidthUint32 | S3_SAVE, 0x00, 0xA07AA07A);
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REGA8, AccWidthUint32 | S3_SAVE, 0x00, 0xA07AA07A);
CallBackToOEM(SATA_PHY_PROGRAMMING, NULL, pConfig);
}
void sataInitAfterPciEnum(AMDSBCFG* pConfig){
UINT32 ddAndMask=0, ddOrMask=0, ddBar5=0;
UINT8 dbVar, dbPortNum;
if (pConfig->SataController == 0) return; //return if SATA controller is disabled.
//Enable write access to pci header, pm capabilities
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40), AccWidthUint8 | S3_SAVE, 0xFF, BIT0);
//Disable AHCI enhancement function (RPR 7.2)
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40 + 2), AccWidthUint8 | S3_SAVE, 0xFF, BIT7);
restrictSataCapabilities(pConfig);
ReadPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG24), AccWidthUint32, &ddBar5);
if ( (ddBar5 == 0) || (ddBar5 == -1) ) {
//assign temporary BAR5
if ( (pConfig->TempMMIO == 0) || (pConfig->TempMMIO == -1))
ddBar5 = 0xFEC01000;
else
ddBar5=pConfig->TempMMIO;
WritePCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG24), AccWidthUint32, &ddBar5);
}
ReadPCI( ((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG04), AccWidthUint8, &dbVar);
RWPCI( ((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG04), AccWidthUint8,0xFF, 0x03); //memory and io access enable
ddBar5 &= 0xFFFFFC00; //Clear Bits 9:0
if (!pConfig->SataPortMultCap)
ddAndMask |= BIT12;
if (!pConfig->SataAggrLinkPmCap)
ddAndMask |= BIT11;
if (pConfig->SataSscPscCap)
ddOrMask |= BIT1;
RWMEM((ddBar5 + SB_SATA_BAR5_REGFC),AccWidthUint32 | S3_SAVE, ~ddAndMask, ddOrMask);
//Clear HPCP and ESP by default
RWMEM((ddBar5 + SB_SATA_BAR5_REGF8),AccWidthUint32 | S3_SAVE, 0xFFFC0FC0, 0);
if (pConfig->SataHpcpButNonESP !=0) {
RWMEM((ddBar5 + SB_SATA_BAR5_REGF8),AccWidthUint32 | S3_SAVE, 0xFFFFFFC0, pConfig->SataHpcpButNonESP);
}
// SATA ESP port setting
// These config bits are set for SATA driver to identify which ports are external SATA ports and need to
// support hotplug. If a port is set as an external SATA port and need to support hotplug, then driver will
// not enable power management(HIPM & DIPM) for these ports.
if (pConfig->SataEspPort !=0) {
RWMEM((ddBar5 + SB_SATA_BAR5_REGFC),AccWidthUint32 | S3_SAVE, 0xFFFFFFFF, BIT20);
RWMEM((ddBar5 + SB_SATA_BAR5_REGF8),AccWidthUint32 | S3_SAVE, ~(pConfig->SataEspPort), 0);
RWMEM((ddBar5 + SB_SATA_BAR5_REGF8),AccWidthUint32 | S3_SAVE, ~(UINT32)(BIT17+BIT16+BIT15+BIT14+BIT13+BIT12),(pConfig->SataEspPort << 12));
}
if ( ((pConfig->SataClass) != NATIVE_IDE_MODE) && ((pConfig->SataClass) != LEGACY_IDE_MODE) )
RWPCI( ((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG50+2), AccWidthUint8, ~(UINT32)(BIT3+BIT2+BIT1), BIT2+BIT1); //set MSI to 8 messages
if ( ((pConfig->SataClass) != NATIVE_IDE_MODE) && ((pConfig->SataClass) != LEGACY_IDE_MODE) && ((pConfig->SataIdeCombinedMode) == CIMX_OPTION_DISABLED) ){
RWMEM((ddBar5 + SB_SATA_BAR5_REG00),AccWidthUint8 | S3_SAVE, ~(UINT32)(BIT2+BIT1+BIT0), BIT2+BIT0);
RWMEM((ddBar5 + SB_SATA_BAR5_REG0C),AccWidthUint8 | S3_SAVE, 0xC0, 0x3F);
}
for (dbPortNum=0;dbPortNum<=5;dbPortNum++){
if (pConfig->SataPortMode & (1 << dbPortNum)){
//downgrade to GEN1
RWMEM(ddBar5+ SB_SATA_BAR5_REG12C + dbPortNum * 0x80, AccWidthUint8, 0x0F, 0x10);
RWMEM(ddBar5+ SB_SATA_BAR5_REG12C + dbPortNum * 0x80, AccWidthUint8, 0xFF, 0x01);
Stall(1000);
RWMEM(ddBar5+ SB_SATA_BAR5_REG12C + dbPortNum * 0x80, AccWidthUint8, 0xFE, 0x00);
}
}
//If this is not S3 resume and also if SATA set to one of IDE mode, then implement drive detection workaround.
if ( !(pConfig->S3Resume) && ( ((pConfig->SataClass) != AHCI_MODE) && ((pConfig->SataClass) != RAID_MODE) && ((pConfig->SataClass) != AMD_AHCI_MODE) ) )
sataDriveDetection(pConfig, ddBar5);
if ( (pConfig->SataPhyWorkaround==1) || ( (pConfig->SataPhyWorkaround==0) && (getRevisionID() < SB700_A13)) )
sataPhyWorkaround(pConfig, ddBar5);
// Set the handshake bit for IDE driver to detect the disabled IDE channel correctly.
// Set IDE PCI Config 0x63 [3] if primary channel disabled, [4] if secondary channel disabled.
if (pConfig->SataIdeCombinedMode == CIMX_OPTION_DISABLED)
RWPCI( ((IDE_BUS_DEV_FUN << 16) + SB_IDE_REG63), AccWidthUint8 , 0xF9, (0x02 << (pConfig->SataIdeCombMdPriSecOpt)) );
WritePCI( ((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG04), AccWidthUint8, &dbVar);
//Disable write access to pci header, pm capabilities
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40), AccWidthUint8 | S3_SAVE, ~(UINT32)BIT0, 0);
}
void sataDriveDetection(AMDSBCFG* pConfig, UINT32 ddBar5){
UINT32 ddVar0;
UINT8 dbPortNum, dbVar0;
UINT16 dwIoBase, dwVar0;
TRACE((DMSG_SB_TRACE, "CIMx - Entering sata drive detection procedure\n\n"));
TRACE((DMSG_SB_TRACE, "SATA BAR5 is %X \n", ddBar5));
if ( (pConfig->SataClass == NATIVE_IDE_MODE) || (pConfig->SataClass == LEGACY_IDE_MODE) || (pConfig->SataClass == IDE_TO_AHCI_MODE) || (pConfig->SataClass == IDE_TO_AMD_AHCI_MODE) ){
for (dbPortNum=0;dbPortNum<4;dbPortNum++){
ReadMEM(ddBar5+ SB_SATA_BAR5_REG128 + dbPortNum * 0x80, AccWidthUint32, &ddVar0);
if ( ( ddVar0 & 0x0F ) == 0x03){
if ( dbPortNum & BIT0)
//this port belongs to secondary channel
ReadPCI( ((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG18), AccWidthUint16, &dwIoBase);
else
//this port belongs to primary channel
ReadPCI( ((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG10), AccWidthUint16, &dwIoBase);
//if legacy ide mode, then the bar registers don't contain the correct values. So we need to hardcode them
if (pConfig->SataClass == LEGACY_IDE_MODE)
dwIoBase = ( (0x170) | ( (~((dbPortNum & BIT0) << 7)) & 0x80 ) );
if ( dbPortNum & BIT1)
//this port is slave
dbVar0=0xB0;
else
//this port is master
dbVar0=0xA0;
dwIoBase &= 0xFFF8;
WriteIO(dwIoBase+6, AccWidthUint8, &dbVar0);
//Wait in loop for 30s for the drive to become ready
for (dwVar0=0;dwVar0<3000;dwVar0++){
ReadIO(dwIoBase+7, AccWidthUint8, &dbVar0);
if ( (dbVar0 & 0x88) == 0)
break;
Stall(10000);
}
} //end of if ( ( ddVar0 & 0x0F ) == 0x03)
} //for (dbPortNum=0;dbPortNum<4;dbPortNum++)
} //if ( (pConfig->SataClass == NATIVE_IDE_MODE) || (pConfig->SataClass == LEGACY_IDE_MODE) || (pConfig->SataClass == IDE_TO_AHCI_MODE) || (pConfig->SataClass == IDE_TO_AMD_AHCI_MODE) )
}
//This patch is to workaround the SATA PHY logic hardware issue in the SB700.
//Internally this workaround is called as 7NewA
void sataPhyWorkaround(AMDSBCFG* pConfig, UINT32 ddBar5){
UINT8 dbPortNum, dbVar0;
if (pConfig->Gen1DeviceShutdownDuringPhyWrknd == 0x01){
for (dbPortNum=0;dbPortNum<=5;dbPortNum++){
ReadMEM(ddBar5+ SB_SATA_BAR5_REG128 + dbPortNum * 0x80, AccWidthUint8, &dbVar0);
if ( (dbVar0 & 0xF0) == 0x10){
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40+2, AccWidthUint8 | S3_SAVE, 0xFF, (01 << dbPortNum));
}
}
}
RWPMIO(SB_PMIO_REGD0, AccWidthUint8, ~(UINT32)(BIT4+BIT3), BIT4+BIT3);//set PMIO_D0[4:3] = 11b // this is to tell SATA PHY to use the internal 100MHz clock
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG86, AccWidthUint8 | S3_SAVE, 0x00, 0x40);// set SATA PCI_CFG 0x86[7:0] = 0x40 //after the reset is done, perform this to turn on the diff clock path into SATA PHY
Stall(2000);// Wait for 2ms
RWPMIO(SB_PMIO_REGD0, AccWidthUint8, ~(UINT32)(BIT4+BIT3), 00);//13. set PMIO_D0[4:3] = 00b
Stall(20000);// Wait 20ms
forceOOB(ddBar5);// Force OOB
RWPCI((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40+2, AccWidthUint8 | S3_SAVE, ~(0x03F), 00);
}
void forceOOB(UINT32 ddBar5){
UINT8 dbPortNum;
for (dbPortNum=0;dbPortNum<=5;dbPortNum++)
RWMEM(ddBar5+ SB_SATA_BAR5_REG12C + dbPortNum * 0x80, AccWidthUint8, 0xFF, 0x01);
Stall(2000);
for (dbPortNum=0;dbPortNum<=5;dbPortNum++)
RWMEM(ddBar5+ SB_SATA_BAR5_REG12C + dbPortNum * 0x80, AccWidthUint8, 0xFE, 0x00);
Stall(2000);// Wait for 2ms
}
/*++
Routine Description:
SATA Late Configuration
if the mode is selected as IDE->AHCI
{ 1. Set class ID to AHCI
2. Enable AHCI interrupt
}
Arguments:
pConfig - SBconfiguration
Returns:
void
--*/
void sataInitLatePost(AMDSBCFG* pConfig){
UINT32 ddBar5;
UINT8 dbVar;
//Return immediately is sata controller is not enabled
if (pConfig->SataController == 0) return;
restrictSataCapabilities(pConfig);
//Get BAR5 value
ReadPCI( ((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG24), AccWidthUint32, &ddBar5);
//Assign temporary BAR if is not already assigned
if ( (ddBar5 == 0) || (ddBar5 == -1) ){
//assign temporary BAR5
if ( (pConfig->TempMMIO == 0) || (pConfig->TempMMIO == -1))
ddBar5 = 0xFEC01000;
else
ddBar5=pConfig->TempMMIO;
WritePCI( ((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG24), AccWidthUint32, &ddBar5);
}
ReadPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG04), AccWidthUint8, &dbVar);
//Enable memory and io access
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG04), AccWidthUint8, 0xFF, 0x03);
//Enable write access to pci header, pm capabilities
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40), AccWidthUint8 | S3_SAVE, 0xff, BIT0);
shutdownUnconnectedSataPortClock(pConfig, ddBar5);
if ( (pConfig->SataClass == IDE_TO_AHCI_MODE) || (pConfig->SataClass == IDE_TO_AMD_AHCI_MODE)){
//program the AHCI class code
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG08), AccWidthUint32 | S3_SAVE, 0, 0x01060100);
//Set interrupt enable bit
RWMEM((ddBar5 + 0x04),AccWidthUint8,~(UINT32)0,BIT1);
//program the correct device id for AHCI mode
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG02), AccWidthUint16 | S3_SAVE, 0, 0x4391);
if (pConfig->SataClass == IDE_TO_AMD_AHCI_MODE)
//program the correct device id for AMD-AHCI mode
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40 + 3), AccWidthUint8 | S3_SAVE, 0xFF, BIT0);
}
//Disable write access to pci header and pm capabilities
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40), AccWidthUint8 | S3_SAVE, ~(UINT32)BIT0, 0);
//Clear error status
RWMEM((ddBar5 + SB_SATA_BAR5_REG130),AccWidthUint32 | S3_SAVE, 0xFFFFFFFF, 0xFFFFFFFF);
RWMEM((ddBar5 + SB_SATA_BAR5_REG1B0),AccWidthUint32 | S3_SAVE, 0xFFFFFFFF, 0xFFFFFFFF);
RWMEM((ddBar5 + SB_SATA_BAR5_REG230),AccWidthUint32 | S3_SAVE, 0xFFFFFFFF, 0xFFFFFFFF);
RWMEM((ddBar5 + SB_SATA_BAR5_REG2B0),AccWidthUint32 | S3_SAVE, 0xFFFFFFFF, 0xFFFFFFFF);
//Restore memory and io access bits
WritePCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG04), AccWidthUint8, &dbVar );
}
void shutdownUnconnectedSataPortClock(AMDSBCFG* pConfig, UINT32 ddBar5){
UINT8 dbPortNum, dbPortSataStatus, NumOfPorts=0;
UINT8 UnusedPortBitMap;
UINT8 SataType;
UINT8 ClockOffEnabled ;
UnusedPortBitMap = 0;
// First scan for all unused SATA ports
for (dbPortNum = 5; dbPortNum <= 5; dbPortNum--) {
ReadMEM (ddBar5 + SB_SATA_BAR5_REG128 + (dbPortNum * 0x80), AccWidthUint8, &dbPortSataStatus);
if ((!(dbPortSataStatus & 0x01)) && (!((pConfig->SataEspPort) & (1 << dbPortNum)))) {
UnusedPortBitMap |= (1 << dbPortNum);
}
}
// Decide if we need to shutdown the clock for all unused ports
SataType = pConfig->SataClass;
ClockOffEnabled = (pConfig->SataClkAutoOff && ((SataType == NATIVE_IDE_MODE) || (SataType == LEGACY_IDE_MODE) || \
(SataType == IDE_TO_AHCI_MODE) || (SataType == IDE_TO_AMD_AHCI_MODE))) || \
(pConfig->SataClkAutoOffAhciMode && ((SataType == AHCI_MODE) || (SataType == AMD_AHCI_MODE)));
if (ClockOffEnabled) {
//Shutdown the clock for the port and do the necessary port reporting changes.
TRACE((DMSG_SB_TRACE, "Shutting down clock for SATA ports %X \n", UnusedPortBitMap));
RWPCI(((SATA_BUS_DEV_FUN << 16) + SB_SATA_REG40 + 2), AccWidthUint8, 0xFF, UnusedPortBitMap);
RWMEM(ddBar5 + SB_SATA_BAR5_REG0C, AccWidthUint8, ~UnusedPortBitMap, 00);
}
// If all ports are in disabled state, report at least one
ReadMEM (ddBar5 + SB_SATA_BAR5_REG0C, AccWidthUint8, &dbPortSataStatus);
if ( (dbPortSataStatus & 0x3F) == 0) {
dbPortSataStatus = 1;
RWMEM (ddBar5 + SB_SATA_BAR5_REG0C, AccWidthUint8, ~(0x3F), dbPortSataStatus);
}
// Decide if we need to hide unused ports from being seen by OS (this saves OS startup time)
if (pConfig->SataHideUnusedPort && ClockOffEnabled) {
dbPortSataStatus &= ~UnusedPortBitMap; // Mask off unused ports
for (dbPortNum = 0; dbPortNum <= 6; dbPortNum++) {
if (dbPortSataStatus & (1 << dbPortNum))
NumOfPorts++;
}
if (NumOfPorts == 0 ) {
NumOfPorts = 0x01;
}
RWMEM (ddBar5 + SB_SATA_BAR5_REG00, AccWidthUint8, 0xE0, NumOfPorts - 1);
}
}
void restrictSataCapabilities(AMDSBCFG* pConfig){
//Restrict capabilities
if ( ((getSbCapability(Sb_Raid0_1_Capability)== 0x02) && (pConfig->SataClass == RAID_MODE)) || \
((getSbCapability(Sb_Raid5_Capability)== 0x02) && (pConfig->SataClass == RAID_MODE)) || \
((getSbCapability(Sb_Ahci_Capability)== 0x02) && ((pConfig->SataClass == AHCI_MODE) || (pConfig->SataClass == IDE_TO_AHCI_MODE)))){
pConfig->SataClass = NATIVE_IDE_MODE;
}
}
|