blob: e62ed0c1b39c90b8ec0b300cca0f3d967619bf94 [file] [log] [blame]
wdenk5da7f2f2004-01-03 00:43:19 +00001/*
2 * (C) Copyright 2001
3 * Josh Huber <huber@mclx.com>, Mission Critical Linux, Inc.
4 *
5 * See file CREDITS for list of people who contributed to this
6 * project.
7 *
8 * This program is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU General Public License as
10 * published by the Free Software Foundation; either version 2 of
11 * the License, or (at your option) any later version.
12 *
13 * This program is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 * GNU General Public License for more details.
17 *
18 * You should have received a copy of the GNU General Public License
19 * along with this program; if not, write to the Free Software
20 * Foundation, Inc., 59 Temple Place, Suite 330, Boston,
21 * MA 02111-1307 USA
22 */
23
24/*************************************************************************
25 * adaption for the Marvell DB64360 Board
26 * Ingo Assmus (ingo.assmus@keymile.com)
27 ************************************************************************/
28
29
30/* sdram_init.c - automatic memory sizing */
31
32#include <common.h>
33#include <74xx_7xx.h>
34#include "../include/memory.h"
35#include "../include/pci.h"
36#include "../include/mv_gen_reg.h"
37#include <net.h>
38
39#include "eth.h"
40#include "mpsc.h"
41#include "../common/i2c.h"
42#include "64360.h"
43#include "mv_regs.h"
44
Wolfgang Denk6405a152006-03-31 18:32:53 +020045DECLARE_GLOBAL_DATA_PTR;
46
wdenk5da7f2f2004-01-03 00:43:19 +000047#define MAP_PCI
48
wdenk5da7f2f2004-01-03 00:43:19 +000049int set_dfcdlInit (void); /* setup delay line of Mv64360 */
50int mvDmaIsChannelActive (int);
51int mvDmaSetMemorySpace (ulong, ulong, ulong, ulong, ulong);
52int mvDmaTransfer (int, ulong, ulong, ulong, ulong);
53
54/* ------------------------------------------------------------------------- */
55
56int
57memory_map_bank (unsigned int bankNo,
58 unsigned int bankBase, unsigned int bankLength)
59{
60#ifdef MAP_PCI
61 PCI_HOST host;
62#endif
63
64
65#ifdef DEBUG
66 if (bankLength > 0) {
67 printf ("mapping bank %d at %08x - %08x\n",
68 bankNo, bankBase, bankBase + bankLength - 1);
69 } else {
70 printf ("unmapping bank %d\n", bankNo);
71 }
72#endif
73
74 memoryMapBank (bankNo, bankBase, bankLength);
75
76#ifdef MAP_PCI
77 for (host = PCI_HOST0; host <= PCI_HOST1; host++) {
78 const int features =
79 PREFETCH_ENABLE |
80 DELAYED_READ_ENABLE |
81 AGGRESSIVE_PREFETCH |
82 READ_LINE_AGGRESSIVE_PREFETCH |
83 READ_MULTI_AGGRESSIVE_PREFETCH |
84 MAX_BURST_4 | PCI_NO_SWAP;
85
86 pciMapMemoryBank (host, bankNo, bankBase, bankLength);
87
88 pciSetRegionSnoopMode (host, bankNo, PCI_SNOOP_WB, bankBase,
89 bankLength);
90
91 pciSetRegionFeatures (host, bankNo, features, bankBase,
92 bankLength);
93 }
94#endif
95 return 0;
96}
97
98#define GB (1 << 30)
99
100/* much of this code is based on (or is) the code in the pip405 port */
101/* thanks go to the authors of said port - Josh */
102
103/* structure to store the relevant information about an sdram bank */
104typedef struct sdram_info {
105 uchar drb_size;
106 uchar registered, ecc;
107 uchar tpar;
108 uchar tras_clocks;
109 uchar burst_len;
110 uchar banks, slot;
111} sdram_info_t;
112
113/* Typedefs for 'gtAuxilGetDIMMinfo' function */
114
115typedef enum _memoryType { SDRAM, DDR } MEMORY_TYPE;
116
117typedef enum _voltageInterface { TTL_5V_TOLERANT, LVTTL, HSTL_1_5V,
118 SSTL_3_3V, SSTL_2_5V, VOLTAGE_UNKNOWN,
119} VOLTAGE_INTERFACE;
120
121typedef enum _max_CL_supported_DDR { DDR_CL_1 = 1, DDR_CL_1_5 = 2, DDR_CL_2 =
122 4, DDR_CL_2_5 = 8, DDR_CL_3 = 16, DDR_CL_3_5 =
123 32, DDR_CL_FAULT } MAX_CL_SUPPORTED_DDR;
124typedef enum _max_CL_supported_SD { SD_CL_1 =
125 1, SD_CL_2, SD_CL_3, SD_CL_4, SD_CL_5, SD_CL_6, SD_CL_7,
126 SD_FAULT } MAX_CL_SUPPORTED_SD;
127
128
129/* SDRAM/DDR information struct */
130typedef struct _gtMemoryDimmInfo {
131 MEMORY_TYPE memoryType;
132 unsigned int numOfRowAddresses;
133 unsigned int numOfColAddresses;
134 unsigned int numOfModuleBanks;
135 unsigned int dataWidth;
136 VOLTAGE_INTERFACE voltageInterface;
137 unsigned int errorCheckType; /* ECC , PARITY.. */
138 unsigned int sdramWidth; /* 4,8,16 or 32 */ ;
139 unsigned int errorCheckDataWidth; /* 0 - no, 1 - Yes */
140 unsigned int minClkDelay;
141 unsigned int burstLengthSupported;
142 unsigned int numOfBanksOnEachDevice;
143 unsigned int suportedCasLatencies;
144 unsigned int RefreshInterval;
145 unsigned int maxCASlatencySupported_LoP; /* LoP left of point (measured in ns) */
146 unsigned int maxCASlatencySupported_RoP; /* RoP right of point (measured in ns) */
147 MAX_CL_SUPPORTED_DDR maxClSupported_DDR;
148 MAX_CL_SUPPORTED_SD maxClSupported_SD;
149 unsigned int moduleBankDensity;
150 /* module attributes (true for yes) */
151 bool bufferedAddrAndControlInputs;
152 bool registeredAddrAndControlInputs;
153 bool onCardPLL;
154 bool bufferedDQMBinputs;
155 bool registeredDQMBinputs;
156 bool differentialClockInput;
157 bool redundantRowAddressing;
158
159 /* module general attributes */
160 bool suportedAutoPreCharge;
161 bool suportedPreChargeAll;
162 bool suportedEarlyRasPreCharge;
163 bool suportedWrite1ReadBurst;
164 bool suported5PercentLowVCC;
165 bool suported5PercentUpperVCC;
166 /* module timing parameters */
167 unsigned int minRasToCasDelay;
168 unsigned int minRowActiveRowActiveDelay;
169 unsigned int minRasPulseWidth;
170 unsigned int minRowPrechargeTime; /* measured in ns */
171
172 int addrAndCommandHoldTime; /* LoP left of point (measured in ns) */
173 int addrAndCommandSetupTime; /* (measured in ns/100) */
174 int dataInputSetupTime; /* LoP left of point (measured in ns) */
175 int dataInputHoldTime; /* LoP left of point (measured in ns) */
176/* tAC times for highest 2nd and 3rd highest CAS Latency values */
177 unsigned int clockToDataOut_LoP; /* LoP left of point (measured in ns) */
178 unsigned int clockToDataOut_RoP; /* RoP right of point (measured in ns) */
179 unsigned int clockToDataOutMinus1_LoP; /* LoP left of point (measured in ns) */
180 unsigned int clockToDataOutMinus1_RoP; /* RoP right of point (measured in ns) */
181 unsigned int clockToDataOutMinus2_LoP; /* LoP left of point (measured in ns) */
182 unsigned int clockToDataOutMinus2_RoP; /* RoP right of point (measured in ns) */
183
184 unsigned int minimumCycleTimeAtMaxCasLatancy_LoP; /* LoP left of point (measured in ns) */
185 unsigned int minimumCycleTimeAtMaxCasLatancy_RoP; /* RoP right of point (measured in ns) */
186
187 unsigned int minimumCycleTimeAtMaxCasLatancyMinus1_LoP; /* LoP left of point (measured in ns) */
188 unsigned int minimumCycleTimeAtMaxCasLatancyMinus1_RoP; /* RoP right of point (measured in ns) */
189
190 unsigned int minimumCycleTimeAtMaxCasLatancyMinus2_LoP; /* LoP left of point (measured in ns) */
191 unsigned int minimumCycleTimeAtMaxCasLatancyMinus2_RoP; /* RoP right of point (measured in ns) */
192
193 /* Parameters calculated from
194 the extracted DIMM information */
195 unsigned int size;
196 unsigned int deviceDensity; /* 16,64,128,256 or 512 Mbit */
197 unsigned int numberOfDevices;
198 uchar drb_size; /* DRAM size in n*64Mbit */
199 uchar slot; /* Slot Number this module is inserted in */
200 uchar spd_raw_data[128]; /* Content of SPD-EEPROM copied 1:1 */
201#ifdef DEBUG
202 uchar manufactura[8]; /* Content of SPD-EEPROM Byte 64-71 */
203 uchar modul_id[18]; /* Content of SPD-EEPROM Byte 73-90 */
204 uchar vendor_data[27]; /* Content of SPD-EEPROM Byte 99-125 */
205 unsigned long modul_serial_no; /* Content of SPD-EEPROM Byte 95-98 */
206 unsigned int manufac_date; /* Content of SPD-EEPROM Byte 93-94 */
207 unsigned int modul_revision; /* Content of SPD-EEPROM Byte 91-92 */
208 uchar manufac_place; /* Content of SPD-EEPROM Byte 72 */
209
210#endif
211} AUX_MEM_DIMM_INFO;
212
213
214/*
215 * translate ns.ns/10 coding of SPD timing values
216 * into 10 ps unit values
217 */
218static inline unsigned short NS10to10PS (unsigned char spd_byte)
219{
220 unsigned short ns, ns10;
221
222 /* isolate upper nibble */
223 ns = (spd_byte >> 4) & 0x0F;
224 /* isolate lower nibble */
225 ns10 = (spd_byte & 0x0F);
226
227 return (ns * 100 + ns10 * 10);
228}
229
230/*
231 * translate ns coding of SPD timing values
232 * into 10 ps unit values
233 */
234static inline unsigned short NSto10PS (unsigned char spd_byte)
235{
236 return (spd_byte * 100);
237}
238
239/* This code reads the SPD chip on the sdram and populates
240 * the array which is passed in with the relevant information */
241/* static int check_dimm(uchar slot, AUX_MEM_DIMM_INFO *info) */
242static int check_dimm (uchar slot, AUX_MEM_DIMM_INFO * dimmInfo)
243{
wdenk5da7f2f2004-01-03 00:43:19 +0000244 unsigned long spd_checksum;
245
246#ifdef ZUMA_NTL
247 /* zero all the values */
248 memset (info, 0, sizeof (*info));
249
250/*
251 if (!slot) {
252 info->slot = 0;
253 info->banks = 1;
254 info->registered = 0;
255 info->drb_size = 16;*/ /* 16 - 256MBit, 32 - 512MBit */
256/* info->tpar = 3;
257 info->tras_clocks = 5;
258 info->burst_len = 4;
259*/
260#ifdef CONFIG_MV64360_ECC
261 /* check for ECC/parity [0 = none, 1 = parity, 2 = ecc] */
262 dimmInfo->errorCheckType = 2;
263/* info->ecc = 2;*/
264#endif
265}
266
267return 0;
268
269#else
270 uchar addr = slot == 0 ? DIMM0_I2C_ADDR : DIMM1_I2C_ADDR;
271 int ret;
Wolfgang Denk17725802011-11-29 22:17:48 +0000272 unsigned int i, j, density = 1;
wdenk5da7f2f2004-01-03 00:43:19 +0000273
274#ifdef DEBUG
275 unsigned int k;
276#endif
277 unsigned int rightOfPoint = 0, leftOfPoint = 0, mult, div, time_tmp;
278 int sign = 1, shift, maskLeftOfPoint, maskRightOfPoint;
279 uchar supp_cal, cal_val;
280 ulong memclk, tmemclk;
281 ulong tmp;
Wolfgang Denk17725802011-11-29 22:17:48 +0000282 uchar trp_clocks = 0, tras_clocks;
wdenk5da7f2f2004-01-03 00:43:19 +0000283 uchar data[128];
284
285 memclk = gd->bus_clk;
286 tmemclk = 1000000000 / (memclk / 100); /* in 10 ps units */
287
Wolfgang Denk17725802011-11-29 22:17:48 +0000288 debug("before i2c read\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000289
290 ret = i2c_read (addr, 0, 1, data, 128);
291
Wolfgang Denk17725802011-11-29 22:17:48 +0000292 debug("after i2c read\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000293
294 /* zero all the values */
295 memset (dimmInfo, 0, sizeof (*dimmInfo));
296
297 /* copy the SPD content 1:1 into the dimmInfo structure */
298 for (i = 0; i <= 127; i++) {
299 dimmInfo->spd_raw_data[i] = data[i];
300 }
301
302 if (ret) {
Wolfgang Denk17725802011-11-29 22:17:48 +0000303 debug("No DIMM in slot %d [err = %x]\n", slot, ret);
wdenk5da7f2f2004-01-03 00:43:19 +0000304 return 0;
305 } else
306 dimmInfo->slot = slot; /* start to fill up dimminfo for this "slot" */
307
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200308#ifdef CONFIG_SYS_DISPLAY_DIMM_SPD_CONTENT
wdenk5da7f2f2004-01-03 00:43:19 +0000309
310 for (i = 0; i <= 127; i++) {
311 printf ("SPD-EEPROM Byte %3d = %3x (%3d)\n", i, data[i],
312 data[i]);
313 }
314
315#endif
316#ifdef DEBUG
317/* find Manufactura of Dimm Module */
318 for (i = 0; i < sizeof (dimmInfo->manufactura); i++) {
319 dimmInfo->manufactura[i] = data[64 + i];
320 }
321 printf ("\nThis RAM-Module is produced by: %s\n",
322 dimmInfo->manufactura);
323
324/* find Manul-ID of Dimm Module */
325 for (i = 0; i < sizeof (dimmInfo->modul_id); i++) {
326 dimmInfo->modul_id[i] = data[73 + i];
327 }
328 printf ("The Module-ID of this RAM-Module is: %s\n",
329 dimmInfo->modul_id);
330
331/* find Vendor-Data of Dimm Module */
332 for (i = 0; i < sizeof (dimmInfo->vendor_data); i++) {
333 dimmInfo->vendor_data[i] = data[99 + i];
334 }
335 printf ("Vendor Data of this RAM-Module is: %s\n",
336 dimmInfo->vendor_data);
337
338/* find modul_serial_no of Dimm Module */
339 dimmInfo->modul_serial_no = (*((unsigned long *) (&data[95])));
340 printf ("Serial No. of this RAM-Module is: %ld (%lx)\n",
341 dimmInfo->modul_serial_no, dimmInfo->modul_serial_no);
342
343/* find Manufac-Data of Dimm Module */
344 dimmInfo->manufac_date = (*((unsigned int *) (&data[93])));
345 printf ("Manufactoring Date of this RAM-Module is: %d.%d\n", data[93], data[94]); /*dimmInfo->manufac_date */
346
347/* find modul_revision of Dimm Module */
348 dimmInfo->modul_revision = (*((unsigned int *) (&data[91])));
349 printf ("Module Revision of this RAM-Module is: %d.%d\n", data[91], data[92]); /* dimmInfo->modul_revision */
350
351/* find manufac_place of Dimm Module */
352 dimmInfo->manufac_place = (*((unsigned char *) (&data[72])));
353 printf ("manufac_place of this RAM-Module is: %d\n",
354 dimmInfo->manufac_place);
355
356#endif
357
358/*------------------------------------------------------------------------------------------------------------------------------*/
359/* calculate SPD checksum */
360/*------------------------------------------------------------------------------------------------------------------------------*/
361 spd_checksum = 0;
362
363 for (i = 0; i <= 62; i++) {
364 spd_checksum += data[i];
365 }
366
367 if ((spd_checksum & 0xff) != data[63]) {
368 printf ("### Error in SPD Checksum !!! Is_value: %2x should value %2x\n", (unsigned int) (spd_checksum & 0xff), data[63]);
369 hang ();
370 }
371
372 else
373 printf ("SPD Checksum ok!\n");
374
375
376/*------------------------------------------------------------------------------------------------------------------------------*/
377 for (i = 2; i <= 35; i++) {
378 switch (i) {
379 case 2: /* Memory type (DDR / SDRAM) */
380 dimmInfo->memoryType = (data[i] == 0x7) ? DDR : SDRAM;
wdenk5da7f2f2004-01-03 00:43:19 +0000381 if (dimmInfo->memoryType == 0)
Wolfgang Denk17725802011-11-29 22:17:48 +0000382 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000383 ("Dram_type in slot %d is: SDRAM\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000384 dimmInfo->slot);
wdenk5da7f2f2004-01-03 00:43:19 +0000385 if (dimmInfo->memoryType == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000386 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000387 ("Dram_type in slot %d is: DDRAM\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000388 dimmInfo->slot);
wdenk5da7f2f2004-01-03 00:43:19 +0000389 break;
390/*------------------------------------------------------------------------------------------------------------------------------*/
391
392 case 3: /* Number Of Row Addresses */
393 dimmInfo->numOfRowAddresses = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000394 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000395 ("Module Number of row addresses: %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000396 dimmInfo->numOfRowAddresses);
wdenk5da7f2f2004-01-03 00:43:19 +0000397 break;
398/*------------------------------------------------------------------------------------------------------------------------------*/
399
400 case 4: /* Number Of Column Addresses */
401 dimmInfo->numOfColAddresses = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000402 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000403 ("Module Number of col addresses: %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000404 dimmInfo->numOfColAddresses);
wdenk5da7f2f2004-01-03 00:43:19 +0000405 break;
406/*------------------------------------------------------------------------------------------------------------------------------*/
407
408 case 5: /* Number Of Module Banks */
409 dimmInfo->numOfModuleBanks = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000410 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000411 ("Number of Banks on Mod. : %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000412 dimmInfo->numOfModuleBanks);
wdenk5da7f2f2004-01-03 00:43:19 +0000413 break;
414/*------------------------------------------------------------------------------------------------------------------------------*/
415
416 case 6: /* Data Width */
417 dimmInfo->dataWidth = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000418 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000419 ("Module Data Width: %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000420 dimmInfo->dataWidth);
wdenk5da7f2f2004-01-03 00:43:19 +0000421 break;
422/*------------------------------------------------------------------------------------------------------------------------------*/
423
424 case 8: /* Voltage Interface */
425 switch (data[i]) {
426 case 0x0:
427 dimmInfo->voltageInterface = TTL_5V_TOLERANT;
Wolfgang Denk17725802011-11-29 22:17:48 +0000428 debug
429 ("Module is TTL_5V_TOLERANT\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000430 break;
431 case 0x1:
432 dimmInfo->voltageInterface = LVTTL;
Wolfgang Denk17725802011-11-29 22:17:48 +0000433 debug
434 ("Module is LVTTL\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000435 break;
436 case 0x2:
437 dimmInfo->voltageInterface = HSTL_1_5V;
Wolfgang Denk17725802011-11-29 22:17:48 +0000438 debug
439 ("Module is TTL_5V_TOLERANT\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000440 break;
441 case 0x3:
442 dimmInfo->voltageInterface = SSTL_3_3V;
Wolfgang Denk17725802011-11-29 22:17:48 +0000443 debug
444 ("Module is HSTL_1_5V\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000445 break;
446 case 0x4:
447 dimmInfo->voltageInterface = SSTL_2_5V;
Wolfgang Denk17725802011-11-29 22:17:48 +0000448 debug
449 ("Module is SSTL_2_5V\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000450 break;
451 default:
452 dimmInfo->voltageInterface = VOLTAGE_UNKNOWN;
Wolfgang Denk17725802011-11-29 22:17:48 +0000453 debug
454 ("Module is VOLTAGE_UNKNOWN\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000455 break;
456 }
457 break;
458/*------------------------------------------------------------------------------------------------------------------------------*/
459
460 case 9: /* Minimum Cycle Time At Max CasLatancy */
461 shift = (dimmInfo->memoryType == DDR) ? 4 : 2;
462 mult = (dimmInfo->memoryType == DDR) ? 10 : 25;
463 maskLeftOfPoint =
464 (dimmInfo->memoryType == DDR) ? 0xf0 : 0xfc;
465 maskRightOfPoint =
466 (dimmInfo->memoryType == DDR) ? 0xf : 0x03;
467 leftOfPoint = (data[i] & maskLeftOfPoint) >> shift;
468 rightOfPoint = (data[i] & maskRightOfPoint) * mult;
469 dimmInfo->minimumCycleTimeAtMaxCasLatancy_LoP =
470 leftOfPoint;
471 dimmInfo->minimumCycleTimeAtMaxCasLatancy_RoP =
472 rightOfPoint;
Wolfgang Denk17725802011-11-29 22:17:48 +0000473 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000474 ("Minimum Cycle Time At Max CasLatancy: %d.%d [ns]\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000475 leftOfPoint, rightOfPoint);
wdenk5da7f2f2004-01-03 00:43:19 +0000476 break;
477/*------------------------------------------------------------------------------------------------------------------------------*/
478
479 case 10: /* Clock To Data Out */
480 div = (dimmInfo->memoryType == DDR) ? 100 : 10;
481 time_tmp =
482 (((data[i] & 0xf0) >> 4) * 10) +
483 ((data[i] & 0x0f));
484 leftOfPoint = time_tmp / div;
485 rightOfPoint = time_tmp % div;
486 dimmInfo->clockToDataOut_LoP = leftOfPoint;
487 dimmInfo->clockToDataOut_RoP = rightOfPoint;
Wolfgang Denk17725802011-11-29 22:17:48 +0000488 debug("Clock To Data Out: %d.%2d [ns]\n", leftOfPoint, rightOfPoint); /*dimmInfo->clockToDataOut */
wdenk5da7f2f2004-01-03 00:43:19 +0000489 break;
490/*------------------------------------------------------------------------------------------------------------------------------*/
491
492/*#ifdef CONFIG_ECC */
493 case 11: /* Error Check Type */
494 dimmInfo->errorCheckType = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000495 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000496 ("Error Check Type (0=NONE): %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000497 dimmInfo->errorCheckType);
wdenk5da7f2f2004-01-03 00:43:19 +0000498 break;
499/* #endif */
500/*------------------------------------------------------------------------------------------------------------------------------*/
501
502 case 12: /* Refresh Interval */
503 dimmInfo->RefreshInterval = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000504 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000505 ("RefreshInterval (80= Self refresh Normal, 15.625us) : %x\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000506 dimmInfo->RefreshInterval);
wdenk5da7f2f2004-01-03 00:43:19 +0000507 break;
508/*------------------------------------------------------------------------------------------------------------------------------*/
509
510 case 13: /* Sdram Width */
511 dimmInfo->sdramWidth = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000512 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000513 ("Sdram Width: %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000514 dimmInfo->sdramWidth);
wdenk5da7f2f2004-01-03 00:43:19 +0000515 break;
516/*------------------------------------------------------------------------------------------------------------------------------*/
517
518 case 14: /* Error Check Data Width */
519 dimmInfo->errorCheckDataWidth = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000520 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000521 ("Error Check Data Width: %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000522 dimmInfo->errorCheckDataWidth);
wdenk5da7f2f2004-01-03 00:43:19 +0000523 break;
524/*------------------------------------------------------------------------------------------------------------------------------*/
525
526 case 15: /* Minimum Clock Delay */
527 dimmInfo->minClkDelay = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000528 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000529 ("Minimum Clock Delay: %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000530 dimmInfo->minClkDelay);
wdenk5da7f2f2004-01-03 00:43:19 +0000531 break;
532/*------------------------------------------------------------------------------------------------------------------------------*/
533
534 case 16: /* Burst Length Supported */
535 /******-******-******-*******
536 * bit3 | bit2 | bit1 | bit0 *
537 *******-******-******-*******
538 burst length = * 8 | 4 | 2 | 1 *
539 *****************************
540
541 If for example bit0 and bit2 are set, the burst
542 length supported are 1 and 4. */
543
544 dimmInfo->burstLengthSupported = data[i];
545#ifdef DEBUG
Wolfgang Denk17725802011-11-29 22:17:48 +0000546 debug
547 ("Burst Length Supported: ");
wdenk5da7f2f2004-01-03 00:43:19 +0000548 if (dimmInfo->burstLengthSupported & 0x01)
Wolfgang Denk17725802011-11-29 22:17:48 +0000549 debug("1, ");
wdenk5da7f2f2004-01-03 00:43:19 +0000550 if (dimmInfo->burstLengthSupported & 0x02)
Wolfgang Denk17725802011-11-29 22:17:48 +0000551 debug("2, ");
wdenk5da7f2f2004-01-03 00:43:19 +0000552 if (dimmInfo->burstLengthSupported & 0x04)
Wolfgang Denk17725802011-11-29 22:17:48 +0000553 debug("4, ");
wdenk5da7f2f2004-01-03 00:43:19 +0000554 if (dimmInfo->burstLengthSupported & 0x08)
Wolfgang Denk17725802011-11-29 22:17:48 +0000555 debug("8, ");
556 debug(" Bit \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000557#endif
558 break;
559/*------------------------------------------------------------------------------------------------------------------------------*/
560
561 case 17: /* Number Of Banks On Each Device */
562 dimmInfo->numOfBanksOnEachDevice = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +0000563 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000564 ("Number Of Banks On Each Chip: %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000565 dimmInfo->numOfBanksOnEachDevice);
wdenk5da7f2f2004-01-03 00:43:19 +0000566 break;
567/*------------------------------------------------------------------------------------------------------------------------------*/
568
569 case 18: /* Suported Cas Latencies */
570
571 /* DDR:
572 *******-******-******-******-******-******-******-*******
573 * bit7 | bit6 | bit5 | bit4 | bit3 | bit2 | bit1 | bit0 *
574 *******-******-******-******-******-******-******-*******
575 CAS = * TBD | TBD | 3.5 | 3 | 2.5 | 2 | 1.5 | 1 *
576 *********************************************************
577 SDRAM:
578 *******-******-******-******-******-******-******-*******
579 * bit7 | bit6 | bit5 | bit4 | bit3 | bit2 | bit1 | bit0 *
580 *******-******-******-******-******-******-******-*******
581 CAS = * TBD | 7 | 6 | 5 | 4 | 3 | 2 | 1 *
582 ********************************************************/
583 dimmInfo->suportedCasLatencies = data[i];
584#ifdef DEBUG
Wolfgang Denk17725802011-11-29 22:17:48 +0000585 debug
586 ("Suported Cas Latencies: (CL) ");
wdenk5da7f2f2004-01-03 00:43:19 +0000587 if (dimmInfo->memoryType == 0) { /* SDRAM */
588 for (k = 0; k <= 7; k++) {
589 if (dimmInfo->
590 suportedCasLatencies & (1 << k))
Wolfgang Denk17725802011-11-29 22:17:48 +0000591 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000592 ("%d, ",
Wolfgang Denk17725802011-11-29 22:17:48 +0000593 k + 1);
wdenk5da7f2f2004-01-03 00:43:19 +0000594 }
595
596 } else { /* DDR-RAM */
597
598 if (dimmInfo->suportedCasLatencies & 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000599 debug("1, ");
wdenk5da7f2f2004-01-03 00:43:19 +0000600 if (dimmInfo->suportedCasLatencies & 2)
Wolfgang Denk17725802011-11-29 22:17:48 +0000601 debug("1.5, ");
wdenk5da7f2f2004-01-03 00:43:19 +0000602 if (dimmInfo->suportedCasLatencies & 4)
Wolfgang Denk17725802011-11-29 22:17:48 +0000603 debug("2, ");
wdenk5da7f2f2004-01-03 00:43:19 +0000604 if (dimmInfo->suportedCasLatencies & 8)
Wolfgang Denk17725802011-11-29 22:17:48 +0000605 debug("2.5, ");
wdenk5da7f2f2004-01-03 00:43:19 +0000606 if (dimmInfo->suportedCasLatencies & 16)
Wolfgang Denk17725802011-11-29 22:17:48 +0000607 debug("3, ");
wdenk5da7f2f2004-01-03 00:43:19 +0000608 if (dimmInfo->suportedCasLatencies & 32)
Wolfgang Denk17725802011-11-29 22:17:48 +0000609 debug("3.5, ");
wdenk5da7f2f2004-01-03 00:43:19 +0000610
611 }
Wolfgang Denk17725802011-11-29 22:17:48 +0000612 debug("\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000613#endif
614 /* Calculating MAX CAS latency */
615 for (j = 7; j > 0; j--) {
616 if (((dimmInfo->
617 suportedCasLatencies >> j) & 0x1) ==
618 1) {
619 switch (dimmInfo->memoryType) {
620 case DDR:
621 /* CAS latency 1, 1.5, 2, 2.5, 3, 3.5 */
622 switch (j) {
623 case 7:
Wolfgang Denk17725802011-11-29 22:17:48 +0000624 debug
625 ("Max. Cas Latencies (DDR): ERROR !!!\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000626 dimmInfo->
627 maxClSupported_DDR
628 =
629 DDR_CL_FAULT;
630 hang ();
631 break;
632 case 6:
Wolfgang Denk17725802011-11-29 22:17:48 +0000633 debug
634 ("Max. Cas Latencies (DDR): ERROR !!!\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000635 dimmInfo->
636 maxClSupported_DDR
637 =
638 DDR_CL_FAULT;
639 hang ();
640 break;
641 case 5:
Wolfgang Denk17725802011-11-29 22:17:48 +0000642 debug
643 ("Max. Cas Latencies (DDR): 3.5 clk's\n");
wdenk5da7f2f2004-01-03 00:43:19 +0000644 dimmInfo->
645 maxClSupported_DDR
646 = DDR_CL_3_5;
647 break;
648 case 4:
Wolfgang Denk17725802011-11-29 22:17:48 +0000649 debug
650 ("Max. Cas Latencies (DDR): 3 clk's \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000651 dimmInfo->
652 maxClSupported_DDR
653 = DDR_CL_3;
654 break;
655 case 3:
Wolfgang Denk17725802011-11-29 22:17:48 +0000656 debug
657 ("Max. Cas Latencies (DDR): 2.5 clk's \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000658 dimmInfo->
659 maxClSupported_DDR
660 = DDR_CL_2_5;
661 break;
662 case 2:
Wolfgang Denk17725802011-11-29 22:17:48 +0000663 debug
664 ("Max. Cas Latencies (DDR): 2 clk's \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000665 dimmInfo->
666 maxClSupported_DDR
667 = DDR_CL_2;
668 break;
669 case 1:
Wolfgang Denk17725802011-11-29 22:17:48 +0000670 debug
671 ("Max. Cas Latencies (DDR): 1.5 clk's \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000672 dimmInfo->
673 maxClSupported_DDR
674 = DDR_CL_1_5;
675 break;
676 }
677
678 /* ronen - in case we have a DIMM with minimumCycleTimeAtMaxCasLatancy
679 lower then our SDRAM cycle count, we won't be able to support this CAL
680 and we will have to use lower CAL. (minus - means from 3.0 to 2.5) */
681 if ((dimmInfo->
682 minimumCycleTimeAtMaxCasLatancy_LoP
683 <
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200684 CONFIG_SYS_DDR_SDRAM_CYCLE_COUNT_LOP)
wdenk5da7f2f2004-01-03 00:43:19 +0000685 ||
686 ((dimmInfo->
687 minimumCycleTimeAtMaxCasLatancy_LoP
688 ==
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200689 CONFIG_SYS_DDR_SDRAM_CYCLE_COUNT_LOP)
wdenk5da7f2f2004-01-03 00:43:19 +0000690 && (dimmInfo->
691 minimumCycleTimeAtMaxCasLatancy_RoP
692 <
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200693 CONFIG_SYS_DDR_SDRAM_CYCLE_COUNT_ROP)))
wdenk5da7f2f2004-01-03 00:43:19 +0000694 {
695 dimmInfo->
696 maxClSupported_DDR
697 =
698 dimmInfo->
699 maxClSupported_DDR
700 >> 1;
Wolfgang Denk17725802011-11-29 22:17:48 +0000701 debug
702 ("*** Change actual Cas Latencies cause of minimumCycleTime n");
wdenk5da7f2f2004-01-03 00:43:19 +0000703 }
704 /* ronen - checkif the Dimm frequency compared to the Sysclock. */
705 if ((dimmInfo->
706 minimumCycleTimeAtMaxCasLatancy_LoP
707 >
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200708 CONFIG_SYS_DDR_SDRAM_CYCLE_COUNT_LOP)
wdenk5da7f2f2004-01-03 00:43:19 +0000709 ||
710 ((dimmInfo->
711 minimumCycleTimeAtMaxCasLatancy_LoP
712 ==
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200713 CONFIG_SYS_DDR_SDRAM_CYCLE_COUNT_LOP)
wdenk5da7f2f2004-01-03 00:43:19 +0000714 && (dimmInfo->
715 minimumCycleTimeAtMaxCasLatancy_RoP
716 >
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200717 CONFIG_SYS_DDR_SDRAM_CYCLE_COUNT_ROP)))
wdenk5da7f2f2004-01-03 00:43:19 +0000718 {
719 printf ("*********************************************************\n");
720 printf ("*** sysClock is higher than SDRAM's allowed frequency ***\n");
721 printf ("*********************************************************\n");
722 hang ();
723 }
724
725 dimmInfo->
726 maxCASlatencySupported_LoP
727 =
728 1 +
729 (int) (5 * j / 10);
730 if (((5 * j) % 10) != 0)
731 dimmInfo->
732 maxCASlatencySupported_RoP
733 = 5;
734 else
735 dimmInfo->
736 maxCASlatencySupported_RoP
737 = 0;
Wolfgang Denk17725802011-11-29 22:17:48 +0000738 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000739 ("Max. Cas Latencies (DDR LoP.RoP Notation): %d.%d \n",
740 dimmInfo->
741 maxCASlatencySupported_LoP,
742 dimmInfo->
Wolfgang Denk17725802011-11-29 22:17:48 +0000743 maxCASlatencySupported_RoP);
wdenk5da7f2f2004-01-03 00:43:19 +0000744 break;
745 case SDRAM:
746 /* CAS latency 1, 2, 3, 4, 5, 6, 7 */
747 dimmInfo->maxClSupported_SD = j; /* Cas Latency DDR-RAM Coded */
Wolfgang Denk17725802011-11-29 22:17:48 +0000748 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000749 ("Max. Cas Latencies (SD): %d\n",
750 dimmInfo->
Wolfgang Denk17725802011-11-29 22:17:48 +0000751 maxClSupported_SD);
wdenk5da7f2f2004-01-03 00:43:19 +0000752 dimmInfo->
753 maxCASlatencySupported_LoP
754 = j;
755 dimmInfo->
756 maxCASlatencySupported_RoP
757 = 0;
Wolfgang Denk17725802011-11-29 22:17:48 +0000758 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000759 ("Max. Cas Latencies (DDR LoP.RoP Notation): %d.%d \n",
760 dimmInfo->
761 maxCASlatencySupported_LoP,
762 dimmInfo->
Wolfgang Denk17725802011-11-29 22:17:48 +0000763 maxCASlatencySupported_RoP);
wdenk5da7f2f2004-01-03 00:43:19 +0000764 break;
765 }
766 break;
767 }
768 }
769 break;
770/*------------------------------------------------------------------------------------------------------------------------------*/
771
772 case 21: /* Buffered Address And Control Inputs */
Wolfgang Denk17725802011-11-29 22:17:48 +0000773 debug("\nModul Attributes (SPD Byte 21): \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000774 dimmInfo->bufferedAddrAndControlInputs =
775 data[i] & BIT0;
776 dimmInfo->registeredAddrAndControlInputs =
777 (data[i] & BIT1) >> 1;
778 dimmInfo->onCardPLL = (data[i] & BIT2) >> 2;
779 dimmInfo->bufferedDQMBinputs = (data[i] & BIT3) >> 3;
780 dimmInfo->registeredDQMBinputs =
781 (data[i] & BIT4) >> 4;
782 dimmInfo->differentialClockInput =
783 (data[i] & BIT5) >> 5;
784 dimmInfo->redundantRowAddressing =
785 (data[i] & BIT6) >> 6;
786#ifdef DEBUG
787 if (dimmInfo->bufferedAddrAndControlInputs == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000788 debug
789 (" - Buffered Address/Control Input: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000790 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000791 debug
792 (" - Buffered Address/Control Input: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000793
794 if (dimmInfo->registeredAddrAndControlInputs == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000795 debug
796 (" - Registered Address/Control Input: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000797 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000798 debug
799 (" - Registered Address/Control Input: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000800
801 if (dimmInfo->onCardPLL == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000802 debug
803 (" - On-Card PLL (clock): Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000804 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000805 debug
806 (" - On-Card PLL (clock): No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000807
808 if (dimmInfo->bufferedDQMBinputs == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000809 debug
810 (" - Bufferd DQMB Inputs: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000811 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000812 debug
813 (" - Bufferd DQMB Inputs: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000814
815 if (dimmInfo->registeredDQMBinputs == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000816 debug
817 (" - Registered DQMB Inputs: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000818 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000819 debug
820 (" - Registered DQMB Inputs: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000821
822 if (dimmInfo->differentialClockInput == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000823 debug
824 (" - Differential Clock Input: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000825 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000826 debug
827 (" - Differential Clock Input: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000828
829 if (dimmInfo->redundantRowAddressing == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000830 debug
831 (" - redundant Row Addressing: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000832 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000833 debug
834 (" - redundant Row Addressing: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000835
836#endif
837 break;
838/*------------------------------------------------------------------------------------------------------------------------------*/
839
840 case 22: /* Suported AutoPreCharge */
Wolfgang Denk17725802011-11-29 22:17:48 +0000841 debug("\nModul Attributes (SPD Byte 22): \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000842 dimmInfo->suportedEarlyRasPreCharge = data[i] & BIT0;
843 dimmInfo->suportedAutoPreCharge =
844 (data[i] & BIT1) >> 1;
845 dimmInfo->suportedPreChargeAll =
846 (data[i] & BIT2) >> 2;
847 dimmInfo->suportedWrite1ReadBurst =
848 (data[i] & BIT3) >> 3;
849 dimmInfo->suported5PercentLowVCC =
850 (data[i] & BIT4) >> 4;
851 dimmInfo->suported5PercentUpperVCC =
852 (data[i] & BIT5) >> 5;
853#ifdef DEBUG
854 if (dimmInfo->suportedEarlyRasPreCharge == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000855 debug
856 (" - Early Ras Precharge: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000857 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000858 debug
859 (" - Early Ras Precharge: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000860
861 if (dimmInfo->suportedAutoPreCharge == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000862 debug
863 (" - AutoPreCharge: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000864 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000865 debug
866 (" - AutoPreCharge: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000867
868 if (dimmInfo->suportedPreChargeAll == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000869 debug
870 (" - Precharge All: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000871 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000872 debug
873 (" - Precharge All: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000874
875 if (dimmInfo->suportedWrite1ReadBurst == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000876 debug
877 (" - Write 1/ReadBurst: Yes \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000878 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000879 debug
880 (" - Write 1/ReadBurst: No \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000881
882 if (dimmInfo->suported5PercentLowVCC == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000883 debug
884 (" - lower VCC tolerance: 5 Percent \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000885 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000886 debug
887 (" - lower VCC tolerance: 10 Percent \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000888
889 if (dimmInfo->suported5PercentUpperVCC == 1)
Wolfgang Denk17725802011-11-29 22:17:48 +0000890 debug
891 (" - upper VCC tolerance: 5 Percent \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000892 else
Wolfgang Denk17725802011-11-29 22:17:48 +0000893 debug
894 (" - upper VCC tolerance: 10 Percent \n");
wdenk5da7f2f2004-01-03 00:43:19 +0000895
896#endif
897 break;
898/*------------------------------------------------------------------------------------------------------------------------------*/
899
900 case 23: /* Minimum Cycle Time At Maximum Cas Latancy Minus 1 (2nd highest CL) */
901 shift = (dimmInfo->memoryType == DDR) ? 4 : 2;
902 mult = (dimmInfo->memoryType == DDR) ? 10 : 25;
903 maskLeftOfPoint =
904 (dimmInfo->memoryType == DDR) ? 0xf0 : 0xfc;
905 maskRightOfPoint =
906 (dimmInfo->memoryType == DDR) ? 0xf : 0x03;
907 leftOfPoint = (data[i] & maskLeftOfPoint) >> shift;
908 rightOfPoint = (data[i] & maskRightOfPoint) * mult;
909 dimmInfo->minimumCycleTimeAtMaxCasLatancyMinus1_LoP =
910 leftOfPoint;
911 dimmInfo->minimumCycleTimeAtMaxCasLatancyMinus1_RoP =
912 rightOfPoint;
Wolfgang Denk17725802011-11-29 22:17:48 +0000913 debug("Minimum Cycle Time At 2nd highest CasLatancy (0 = Not supported): %d.%d [ns]\n", leftOfPoint, rightOfPoint); /*dimmInfo->minimumCycleTimeAtMaxCasLatancy */
wdenk5da7f2f2004-01-03 00:43:19 +0000914 break;
915/*------------------------------------------------------------------------------------------------------------------------------*/
916
917 case 24: /* Clock To Data Out 2nd highest Cas Latency Value */
918 div = (dimmInfo->memoryType == DDR) ? 100 : 10;
919 time_tmp =
920 (((data[i] & 0xf0) >> 4) * 10) +
921 ((data[i] & 0x0f));
922 leftOfPoint = time_tmp / div;
923 rightOfPoint = time_tmp % div;
924 dimmInfo->clockToDataOutMinus1_LoP = leftOfPoint;
925 dimmInfo->clockToDataOutMinus1_RoP = rightOfPoint;
Wolfgang Denk17725802011-11-29 22:17:48 +0000926 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000927 ("Clock To Data Out (2nd CL value): %d.%2d [ns]\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000928 leftOfPoint, rightOfPoint);
wdenk5da7f2f2004-01-03 00:43:19 +0000929 break;
930/*------------------------------------------------------------------------------------------------------------------------------*/
931
932 case 25: /* Minimum Cycle Time At Maximum Cas Latancy Minus 2 (3rd highest CL) */
933 shift = (dimmInfo->memoryType == DDR) ? 4 : 2;
934 mult = (dimmInfo->memoryType == DDR) ? 10 : 25;
935 maskLeftOfPoint =
936 (dimmInfo->memoryType == DDR) ? 0xf0 : 0xfc;
937 maskRightOfPoint =
938 (dimmInfo->memoryType == DDR) ? 0xf : 0x03;
939 leftOfPoint = (data[i] & maskLeftOfPoint) >> shift;
940 rightOfPoint = (data[i] & maskRightOfPoint) * mult;
941 dimmInfo->minimumCycleTimeAtMaxCasLatancyMinus2_LoP =
942 leftOfPoint;
943 dimmInfo->minimumCycleTimeAtMaxCasLatancyMinus2_RoP =
944 rightOfPoint;
Wolfgang Denk17725802011-11-29 22:17:48 +0000945 debug("Minimum Cycle Time At 3rd highest CasLatancy (0 = Not supported): %d.%d [ns]\n", leftOfPoint, rightOfPoint); /*dimmInfo->minimumCycleTimeAtMaxCasLatancy */
wdenk5da7f2f2004-01-03 00:43:19 +0000946 break;
947/*------------------------------------------------------------------------------------------------------------------------------*/
948
949 case 26: /* Clock To Data Out 3rd highest Cas Latency Value */
950 div = (dimmInfo->memoryType == DDR) ? 100 : 10;
951 time_tmp =
952 (((data[i] & 0xf0) >> 4) * 10) +
953 ((data[i] & 0x0f));
954 leftOfPoint = time_tmp / div;
955 rightOfPoint = time_tmp % div;
956 dimmInfo->clockToDataOutMinus2_LoP = leftOfPoint;
957 dimmInfo->clockToDataOutMinus2_RoP = rightOfPoint;
Wolfgang Denk17725802011-11-29 22:17:48 +0000958 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000959 ("Clock To Data Out (3rd CL value): %d.%2d [ns]\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000960 leftOfPoint, rightOfPoint);
wdenk5da7f2f2004-01-03 00:43:19 +0000961 break;
962/*------------------------------------------------------------------------------------------------------------------------------*/
963
964 case 27: /* Minimum Row Precharge Time */
965 shift = (dimmInfo->memoryType == DDR) ? 2 : 0;
966 maskLeftOfPoint =
967 (dimmInfo->memoryType == DDR) ? 0xfc : 0xff;
968 maskRightOfPoint =
969 (dimmInfo->memoryType == DDR) ? 0x03 : 0x00;
970 leftOfPoint = ((data[i] & maskLeftOfPoint) >> shift);
971 rightOfPoint = (data[i] & maskRightOfPoint) * 25;
972
973 dimmInfo->minRowPrechargeTime = ((leftOfPoint * 100) + rightOfPoint); /* measured in n times 10ps Intervals */
974 trp_clocks =
975 (dimmInfo->minRowPrechargeTime +
976 (tmemclk - 1)) / tmemclk;
Wolfgang Denk17725802011-11-29 22:17:48 +0000977 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000978 ("*** 1 clock cycle = %ld 10ps intervalls = %ld.%ld ns****\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000979 tmemclk, tmemclk / 100, tmemclk % 100);
980 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000981 ("Minimum Row Precharge Time [ns]: %d.%2d = in Clk cycles %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000982 leftOfPoint, rightOfPoint, trp_clocks);
wdenk5da7f2f2004-01-03 00:43:19 +0000983 break;
984/*------------------------------------------------------------------------------------------------------------------------------*/
985
986 case 28: /* Minimum Row Active to Row Active Time */
987 shift = (dimmInfo->memoryType == DDR) ? 2 : 0;
988 maskLeftOfPoint =
989 (dimmInfo->memoryType == DDR) ? 0xfc : 0xff;
990 maskRightOfPoint =
991 (dimmInfo->memoryType == DDR) ? 0x03 : 0x00;
992 leftOfPoint = ((data[i] & maskLeftOfPoint) >> shift);
993 rightOfPoint = (data[i] & maskRightOfPoint) * 25;
994
995 dimmInfo->minRowActiveRowActiveDelay = ((leftOfPoint * 100) + rightOfPoint); /* measured in 100ns Intervals */
Wolfgang Denk17725802011-11-29 22:17:48 +0000996 debug
wdenk5da7f2f2004-01-03 00:43:19 +0000997 ("Minimum Row Active -To- Row Active Delay [ns]: %d.%2d = in Clk cycles %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +0000998 leftOfPoint, rightOfPoint, trp_clocks);
wdenk5da7f2f2004-01-03 00:43:19 +0000999 break;
1000/*------------------------------------------------------------------------------------------------------------------------------*/
1001
1002 case 29: /* Minimum Ras-To-Cas Delay */
1003 shift = (dimmInfo->memoryType == DDR) ? 2 : 0;
1004 maskLeftOfPoint =
1005 (dimmInfo->memoryType == DDR) ? 0xfc : 0xff;
1006 maskRightOfPoint =
1007 (dimmInfo->memoryType == DDR) ? 0x03 : 0x00;
1008 leftOfPoint = ((data[i] & maskLeftOfPoint) >> shift);
1009 rightOfPoint = (data[i] & maskRightOfPoint) * 25;
1010
1011 dimmInfo->minRowActiveRowActiveDelay = ((leftOfPoint * 100) + rightOfPoint); /* measured in 100ns Intervals */
Wolfgang Denk17725802011-11-29 22:17:48 +00001012 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001013 ("Minimum Ras-To-Cas Delay [ns]: %d.%2d = in Clk cycles %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001014 leftOfPoint, rightOfPoint, trp_clocks);
wdenk5da7f2f2004-01-03 00:43:19 +00001015 break;
1016/*------------------------------------------------------------------------------------------------------------------------------*/
1017
1018 case 30: /* Minimum Ras Pulse Width */
1019 dimmInfo->minRasPulseWidth = data[i];
1020 tras_clocks =
1021 (NSto10PS (data[i]) +
1022 (tmemclk - 1)) / tmemclk;
Wolfgang Denk17725802011-11-29 22:17:48 +00001023 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001024 ("Minimum Ras Pulse Width [ns]: %d = in Clk cycles %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001025 dimmInfo->minRasPulseWidth, tras_clocks);
wdenk5da7f2f2004-01-03 00:43:19 +00001026
1027 break;
1028/*------------------------------------------------------------------------------------------------------------------------------*/
1029
1030 case 31: /* Module Bank Density */
1031 dimmInfo->moduleBankDensity = data[i];
Wolfgang Denk17725802011-11-29 22:17:48 +00001032 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001033 ("Module Bank Density: %d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001034 dimmInfo->moduleBankDensity);
wdenk5da7f2f2004-01-03 00:43:19 +00001035#ifdef DEBUG
Wolfgang Denk17725802011-11-29 22:17:48 +00001036 debug
1037 ("*** Offered Densities (more than 1 = Multisize-Module): ");
wdenk5da7f2f2004-01-03 00:43:19 +00001038 {
1039 if (dimmInfo->moduleBankDensity & 1)
Wolfgang Denk17725802011-11-29 22:17:48 +00001040 debug("4MB, ");
wdenk5da7f2f2004-01-03 00:43:19 +00001041 if (dimmInfo->moduleBankDensity & 2)
Wolfgang Denk17725802011-11-29 22:17:48 +00001042 debug("8MB, ");
wdenk5da7f2f2004-01-03 00:43:19 +00001043 if (dimmInfo->moduleBankDensity & 4)
Wolfgang Denk17725802011-11-29 22:17:48 +00001044 debug("16MB, ");
wdenk5da7f2f2004-01-03 00:43:19 +00001045 if (dimmInfo->moduleBankDensity & 8)
Wolfgang Denk17725802011-11-29 22:17:48 +00001046 debug("32MB, ");
wdenk5da7f2f2004-01-03 00:43:19 +00001047 if (dimmInfo->moduleBankDensity & 16)
Wolfgang Denk17725802011-11-29 22:17:48 +00001048 debug("64MB, ");
wdenk5da7f2f2004-01-03 00:43:19 +00001049 if (dimmInfo->moduleBankDensity & 32)
Wolfgang Denk17725802011-11-29 22:17:48 +00001050 debug("128MB, ");
wdenk5da7f2f2004-01-03 00:43:19 +00001051 if ((dimmInfo->moduleBankDensity & 64)
1052 || (dimmInfo->moduleBankDensity & 128)) {
Wolfgang Denk17725802011-11-29 22:17:48 +00001053 debug("ERROR, ");
wdenk5da7f2f2004-01-03 00:43:19 +00001054 hang ();
1055 }
1056 }
Wolfgang Denk17725802011-11-29 22:17:48 +00001057 debug("\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001058#endif
1059 break;
1060/*------------------------------------------------------------------------------------------------------------------------------*/
1061
1062 case 32: /* Address And Command Setup Time (measured in ns/1000) */
1063 sign = 1;
1064 switch (dimmInfo->memoryType) {
1065 case DDR:
1066 time_tmp =
1067 (((data[i] & 0xf0) >> 4) * 10) +
1068 ((data[i] & 0x0f));
1069 leftOfPoint = time_tmp / 100;
1070 rightOfPoint = time_tmp % 100;
1071 break;
1072 case SDRAM:
1073 leftOfPoint = (data[i] & 0xf0) >> 4;
1074 if (leftOfPoint > 7) {
1075 leftOfPoint = data[i] & 0x70 >> 4;
1076 sign = -1;
1077 }
1078 rightOfPoint = (data[i] & 0x0f);
1079 break;
1080 }
1081 dimmInfo->addrAndCommandSetupTime =
1082 (leftOfPoint * 100 + rightOfPoint) * sign;
Wolfgang Denk17725802011-11-29 22:17:48 +00001083 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001084 ("Address And Command Setup Time [ns]: %d.%d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001085 sign * leftOfPoint, rightOfPoint);
wdenk5da7f2f2004-01-03 00:43:19 +00001086 break;
1087/*------------------------------------------------------------------------------------------------------------------------------*/
1088
1089 case 33: /* Address And Command Hold Time */
1090 sign = 1;
1091 switch (dimmInfo->memoryType) {
1092 case DDR:
1093 time_tmp =
1094 (((data[i] & 0xf0) >> 4) * 10) +
1095 ((data[i] & 0x0f));
1096 leftOfPoint = time_tmp / 100;
1097 rightOfPoint = time_tmp % 100;
1098 break;
1099 case SDRAM:
1100 leftOfPoint = (data[i] & 0xf0) >> 4;
1101 if (leftOfPoint > 7) {
1102 leftOfPoint = data[i] & 0x70 >> 4;
1103 sign = -1;
1104 }
1105 rightOfPoint = (data[i] & 0x0f);
1106 break;
1107 }
1108 dimmInfo->addrAndCommandHoldTime =
1109 (leftOfPoint * 100 + rightOfPoint) * sign;
Wolfgang Denk17725802011-11-29 22:17:48 +00001110 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001111 ("Address And Command Hold Time [ns]: %d.%d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001112 sign * leftOfPoint, rightOfPoint);
wdenk5da7f2f2004-01-03 00:43:19 +00001113 break;
1114/*------------------------------------------------------------------------------------------------------------------------------*/
1115
1116 case 34: /* Data Input Setup Time */
1117 sign = 1;
1118 switch (dimmInfo->memoryType) {
1119 case DDR:
1120 time_tmp =
1121 (((data[i] & 0xf0) >> 4) * 10) +
1122 ((data[i] & 0x0f));
1123 leftOfPoint = time_tmp / 100;
1124 rightOfPoint = time_tmp % 100;
1125 break;
1126 case SDRAM:
1127 leftOfPoint = (data[i] & 0xf0) >> 4;
1128 if (leftOfPoint > 7) {
1129 leftOfPoint = data[i] & 0x70 >> 4;
1130 sign = -1;
1131 }
1132 rightOfPoint = (data[i] & 0x0f);
1133 break;
1134 }
1135 dimmInfo->dataInputSetupTime =
1136 (leftOfPoint * 100 + rightOfPoint) * sign;
Wolfgang Denk17725802011-11-29 22:17:48 +00001137 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001138 ("Data Input Setup Time [ns]: %d.%d\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001139 sign * leftOfPoint, rightOfPoint);
wdenk5da7f2f2004-01-03 00:43:19 +00001140 break;
1141/*------------------------------------------------------------------------------------------------------------------------------*/
1142
1143 case 35: /* Data Input Hold Time */
1144 sign = 1;
1145 switch (dimmInfo->memoryType) {
1146 case DDR:
1147 time_tmp =
1148 (((data[i] & 0xf0) >> 4) * 10) +
1149 ((data[i] & 0x0f));
1150 leftOfPoint = time_tmp / 100;
1151 rightOfPoint = time_tmp % 100;
1152 break;
1153 case SDRAM:
1154 leftOfPoint = (data[i] & 0xf0) >> 4;
1155 if (leftOfPoint > 7) {
1156 leftOfPoint = data[i] & 0x70 >> 4;
1157 sign = -1;
1158 }
1159 rightOfPoint = (data[i] & 0x0f);
1160 break;
1161 }
1162 dimmInfo->dataInputHoldTime =
1163 (leftOfPoint * 100 + rightOfPoint) * sign;
Wolfgang Denk17725802011-11-29 22:17:48 +00001164 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001165 ("Data Input Hold Time [ns]: %d.%d\n\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001166 sign * leftOfPoint, rightOfPoint);
wdenk5da7f2f2004-01-03 00:43:19 +00001167 break;
1168/*------------------------------------------------------------------------------------------------------------------------------*/
1169 }
1170 }
1171 /* calculating the sdram density */
1172 for (i = 0;
1173 i < dimmInfo->numOfRowAddresses + dimmInfo->numOfColAddresses;
1174 i++) {
1175 density = density * 2;
1176 }
1177 dimmInfo->deviceDensity = density * dimmInfo->numOfBanksOnEachDevice *
1178 dimmInfo->sdramWidth;
1179 dimmInfo->numberOfDevices =
1180 (dimmInfo->dataWidth / dimmInfo->sdramWidth) *
1181 dimmInfo->numOfModuleBanks;
wdenk5da7f2f2004-01-03 00:43:19 +00001182 if ((dimmInfo->errorCheckType == 0x1)
1183 || (dimmInfo->errorCheckType == 0x2)
1184 || (dimmInfo->errorCheckType == 0x3)) {
1185 dimmInfo->size =
1186 (dimmInfo->deviceDensity / 8) *
1187 (dimmInfo->numberOfDevices -
1188 /* ronen on the 1G dimm we get wrong value. (was devicesForErrCheck) */
1189 dimmInfo->numberOfDevices / 8);
1190 } else {
1191 dimmInfo->size =
1192 (dimmInfo->deviceDensity / 8) *
1193 dimmInfo->numberOfDevices;
1194 }
1195
1196 /* compute the module DRB size */
1197 tmp = (1 <<
1198 (dimmInfo->numOfRowAddresses + dimmInfo->numOfColAddresses));
1199 tmp *= dimmInfo->numOfModuleBanks;
1200 tmp *= dimmInfo->sdramWidth;
1201 tmp = tmp >> 24; /* div by 0x4000000 (64M) */
1202 dimmInfo->drb_size = (uchar) tmp;
Wolfgang Denk17725802011-11-29 22:17:48 +00001203 debug("Module DRB size (n*64Mbit): %d\n", dimmInfo->drb_size);
wdenk5da7f2f2004-01-03 00:43:19 +00001204
1205 /* try a CAS latency of 3 first... */
1206
1207 /* bit 1 is CL2, bit 2 is CL3 */
1208 supp_cal = (dimmInfo->suportedCasLatencies & 0x6) >> 1;
1209
1210 cal_val = 0;
1211 if (supp_cal & 3) {
1212 if (NS10to10PS (data[9]) <= tmemclk)
1213 cal_val = 3;
1214 }
1215
1216 /* then 2... */
1217 if (supp_cal & 2) {
1218 if (NS10to10PS (data[23]) <= tmemclk)
1219 cal_val = 2;
1220 }
1221
Wolfgang Denk17725802011-11-29 22:17:48 +00001222 debug("cal_val = %d\n", cal_val);
wdenk5da7f2f2004-01-03 00:43:19 +00001223
1224 /* bummer, did't work... */
1225 if (cal_val == 0) {
Wolfgang Denk17725802011-11-29 22:17:48 +00001226 debug("Couldn't find a good CAS latency\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001227 hang ();
1228 return 0;
1229 }
1230
1231 return true;
1232
1233#endif
1234}
1235
1236/* sets up the GT properly with information passed in */
1237int setup_sdram (AUX_MEM_DIMM_INFO * info)
1238{
1239 ulong tmp, check;
1240 ulong tmp_sdram_mode = 0; /* 0x141c */
1241 ulong tmp_dunit_control_low = 0; /* 0x1404 */
1242 int i;
1243
1244 /* added 8/21/2003 P. Marchese */
1245 unsigned int sdram_config_reg;
1246
1247 /* added 10/10/2003 P. Marchese */
1248 ulong sdram_chip_size;
1249
1250 /* sanity checking */
1251 if (!info->numOfModuleBanks) {
1252 printf ("setup_sdram called with 0 banks\n");
1253 return 1;
1254 }
1255
1256 /* delay line */
1257 set_dfcdlInit (); /* may be its not needed */
Wolfgang Denk17725802011-11-29 22:17:48 +00001258 debug("Delay line set done\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001259
1260 /* set SDRAM mode NOP */ /* To_do check it */
1261 GT_REG_WRITE (SDRAM_OPERATION, 0x5);
1262 while (GTREGREAD (SDRAM_OPERATION) != 0) {
Wolfgang Denk17725802011-11-29 22:17:48 +00001263 debug
1264 ("\n*** SDRAM_OPERATION 1418: Module still busy ... please wait... ***\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001265 }
1266
1267 /* SDRAM configuration */
1268/* added 8/21/2003 P. Marchese */
1269/* code allows usage of registered DIMMS */
1270
1271 /* figure out the memory refresh internal */
1272 switch (info->RefreshInterval) {
1273 case 0x0:
1274 case 0x80: /* refresh period is 15.625 usec */
1275 sdram_config_reg =
Wolfgang Denk7329f252010-06-13 18:38:23 +02001276 (unsigned int) (((float) 15.625 * (float) CONFIG_SYS_BUS_CLK)
wdenk5da7f2f2004-01-03 00:43:19 +00001277 / (float) 1000000.0);
1278 break;
1279 case 0x1:
1280 case 0x81: /* refresh period is 3.9 usec */
1281 sdram_config_reg =
Wolfgang Denk7329f252010-06-13 18:38:23 +02001282 (unsigned int) (((float) 3.9 * (float) CONFIG_SYS_BUS_CLK) /
wdenk5da7f2f2004-01-03 00:43:19 +00001283 (float) 1000000.0);
1284 break;
1285 case 0x2:
1286 case 0x82: /* refresh period is 7.8 usec */
1287 sdram_config_reg =
Wolfgang Denk7329f252010-06-13 18:38:23 +02001288 (unsigned int) (((float) 7.8 * (float) CONFIG_SYS_BUS_CLK) /
wdenk5da7f2f2004-01-03 00:43:19 +00001289 (float) 1000000.0);
1290 break;
1291 case 0x3:
1292 case 0x83: /* refresh period is 31.3 usec */
1293 sdram_config_reg =
Wolfgang Denk7329f252010-06-13 18:38:23 +02001294 (unsigned int) (((float) 31.3 * (float) CONFIG_SYS_BUS_CLK) /
wdenk5da7f2f2004-01-03 00:43:19 +00001295 (float) 1000000.0);
1296 break;
1297 case 0x4:
1298 case 0x84: /* refresh period is 62.5 usec */
1299 sdram_config_reg =
Wolfgang Denk7329f252010-06-13 18:38:23 +02001300 (unsigned int) (((float) 62.5 * (float) CONFIG_SYS_BUS_CLK) /
wdenk5da7f2f2004-01-03 00:43:19 +00001301 (float) 1000000.0);
1302 break;
1303 case 0x5:
1304 case 0x85: /* refresh period is 125 usec */
1305 sdram_config_reg =
Wolfgang Denk7329f252010-06-13 18:38:23 +02001306 (unsigned int) (((float) 125 * (float) CONFIG_SYS_BUS_CLK) /
wdenk5da7f2f2004-01-03 00:43:19 +00001307 (float) 1000000.0);
1308 break;
1309 default: /* refresh period undefined */
1310 printf ("DRAM refresh period is unknown!\n");
1311 printf ("Aborting DRAM setup with an error\n");
1312 hang ();
1313 break;
1314 }
Wolfgang Denk17725802011-11-29 22:17:48 +00001315 debug("calculated refresh interval %0x\n", sdram_config_reg);
wdenk5da7f2f2004-01-03 00:43:19 +00001316
1317 /* make sure the refresh value is only 14 bits */
1318 if (sdram_config_reg > 0x1fff)
1319 sdram_config_reg = 0x1fff;
Wolfgang Denk17725802011-11-29 22:17:48 +00001320 debug("adjusted refresh interval %0x\n", sdram_config_reg);
wdenk5da7f2f2004-01-03 00:43:19 +00001321
1322 /* we want physical bank interleaving and */
1323 /* virtual bank interleaving enabled so do nothing */
1324 /* since these bits need to be zero to enable the interleaving */
1325
1326 /* registered DRAM ? */
1327 if (info->registeredAddrAndControlInputs == 1) {
1328 /* it's registered DRAM, so set the reg. DRAM bit */
1329 sdram_config_reg = sdram_config_reg | BIT17;
Wolfgang Denk17725802011-11-29 22:17:48 +00001330 debug("Enabling registered DRAM bit\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001331 }
1332 /* turn on DRAM ECC? */
1333#ifdef CONFIG_MV64360_ECC
1334 if (info->errorCheckType == 0x2) {
1335 /* DRAM has ECC, so turn it on */
1336 sdram_config_reg = sdram_config_reg | BIT18;
Wolfgang Denk17725802011-11-29 22:17:48 +00001337 debug("Enabling ECC\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001338 }
1339#endif
1340 /* set the data DQS pin configuration */
1341 switch (info->sdramWidth) {
1342 case 0x4: /* memory is x4 */
1343 sdram_config_reg = sdram_config_reg | BIT20 | BIT21;
Wolfgang Denk17725802011-11-29 22:17:48 +00001344 debug("Data DQS pins set for 16 pins\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001345 break;
1346 case 0x8: /* memory is x8 or x16 */
1347 case 0x10:
1348 sdram_config_reg = sdram_config_reg | BIT21;
Wolfgang Denk17725802011-11-29 22:17:48 +00001349 debug("Data DQS pins set for 8 pins\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001350 break;
1351 case 0x20: /* memory is x32 */
1352 /* both bits are cleared for x32 so nothing to do */
Wolfgang Denk17725802011-11-29 22:17:48 +00001353 debug("Data DQS pins set for 2 pins\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001354 break;
1355 default: /* memory width unsupported */
1356 printf ("DRAM chip width is unknown!\n");
1357 printf ("Aborting DRAM setup with an error\n");
1358 hang ();
1359 break;
1360 }
1361
1362 /* perform read buffer assignments */
1363 /* we are going to use the Power-up defaults */
1364 /* bit 26 = CPU = buffer 1 */
1365 /* bit 27 = PCI bus #0 = buffer 0 */
1366 /* bit 28 = PCI bus #1 = buffer 0 */
1367 /* bit 29 = MPSC = buffer 0 */
1368 /* bit 30 = IDMA = buffer 0 */
1369 /* bit 31 = Gigabit = buffer 0 */
1370 sdram_config_reg = sdram_config_reg | BIT26;
1371 /* sdram_config_reg = sdram_config_reg | 0x58000000; */
1372 /* sdram_config_reg = sdram_config_reg & 0xffffff00; */
1373
1374 /* write the value into the SDRAM configuration register */
1375 GT_REG_WRITE (SDRAM_CONFIG, sdram_config_reg);
Wolfgang Denk17725802011-11-29 22:17:48 +00001376 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001377 ("OOOOOOOOO sdram_conf 0x1400: %08x\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001378 GTREGREAD (SDRAM_CONFIG));
wdenk5da7f2f2004-01-03 00:43:19 +00001379
1380 /* SDRAM open pages control keep open as much as I can */
1381 GT_REG_WRITE (SDRAM_OPEN_PAGES_CONTROL, 0x0);
Wolfgang Denk17725802011-11-29 22:17:48 +00001382 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001383 ("sdram_open_pages_controll 0x1414: %08x\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001384 GTREGREAD (SDRAM_OPEN_PAGES_CONTROL));
wdenk5da7f2f2004-01-03 00:43:19 +00001385
1386 /* SDRAM D_UNIT_CONTROL_LOW 0x1404 */
1387 tmp = (GTREGREAD (D_UNIT_CONTROL_LOW) & 0x01); /* Clock Domain Sync from power on reset */
1388 if (tmp == 0)
Wolfgang Denk17725802011-11-29 22:17:48 +00001389 debug("Core Signals are sync (by HW-Setting)!!!\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001390 else
Wolfgang Denk17725802011-11-29 22:17:48 +00001391 debug
1392 ("Core Signals syncs. are bypassed (by HW-Setting)!!!\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001393
1394 /* SDRAM set CAS Latency according to SPD information */
1395 switch (info->memoryType) {
1396 case SDRAM:
1397 printf ("### SD-RAM not supported !!!\n");
1398 printf ("Aborting!!!\n");
1399 hang ();
1400 /* ToDo fill SD-RAM if needed !!!!! */
1401 break;
1402 /* Calculate the settings for SDRAM mode and Dunit control low registers */
1403 /* Values set according to technical bulletin TB-92 rev. c */
1404 case DDR:
Wolfgang Denk17725802011-11-29 22:17:48 +00001405 debug("### SET-CL for DDR-RAM\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001406 switch (info->maxClSupported_DDR) {
1407 case DDR_CL_3:
1408 tmp_sdram_mode = 0x32; /* CL=3 Burstlength = 4 */
1409 if (tmp == 1) { /* clocks sync */
1410 if (info->registeredAddrAndControlInputs == 1) /* registerd DDR SDRAM? */
1411 tmp_dunit_control_low = 0x05110051;
1412 else
1413 tmp_dunit_control_low = 0x24110051;
Wolfgang Denk17725802011-11-29 22:17:48 +00001414 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001415 ("Max. CL is 3 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001416 tmp_sdram_mode, tmp_dunit_control_low);
wdenk5da7f2f2004-01-03 00:43:19 +00001417 } else { /* clk sync. bypassed */
1418
1419 if (info->registeredAddrAndControlInputs == 1) /* registerd DDR SDRAM? */
1420 tmp_dunit_control_low = 0x2C1107F2;
1421 else
1422 tmp_dunit_control_low = 0x3C1107d2;
Wolfgang Denk17725802011-11-29 22:17:48 +00001423 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001424 ("Max. CL is 3 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001425 tmp_sdram_mode, tmp_dunit_control_low);
wdenk5da7f2f2004-01-03 00:43:19 +00001426 }
1427 break;
1428 case DDR_CL_2_5:
1429 tmp_sdram_mode = 0x62; /* CL=2.5 Burstlength = 4 */
1430 if (tmp == 1) { /* clocks sync */
1431 if (info->registeredAddrAndControlInputs == 1) /* registerd DDR SDRAM? */
1432 tmp_dunit_control_low = 0x25110051;
1433 else
1434 tmp_dunit_control_low = 0x24110051;
Wolfgang Denk17725802011-11-29 22:17:48 +00001435 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001436 ("Max. CL is 2.5 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001437 tmp_sdram_mode, tmp_dunit_control_low);
wdenk5da7f2f2004-01-03 00:43:19 +00001438 } else { /* clk sync. bypassed */
1439
1440 if (info->registeredAddrAndControlInputs == 1) { /* registerd DDR SDRAM? */
1441 printf ("CL = 2.5, Clock Unsync'ed, Dunit Control Low register setting undefined\n");
1442 printf ("Aborting!!!\n");
1443 hang ();
1444 } else
1445 tmp_dunit_control_low = 0x1B1107d2;
Wolfgang Denk17725802011-11-29 22:17:48 +00001446 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001447 ("Max. CL is 2.5 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001448 tmp_sdram_mode, tmp_dunit_control_low);
wdenk5da7f2f2004-01-03 00:43:19 +00001449 }
1450 break;
1451 case DDR_CL_2:
1452 tmp_sdram_mode = 0x22; /* CL=2 Burstlength = 4 */
1453 if (tmp == 1) { /* clocks sync */
1454 if (info->registeredAddrAndControlInputs == 1) /* registerd DDR SDRAM? */
1455 tmp_dunit_control_low = 0x04110051;
1456 else
1457 tmp_dunit_control_low = 0x03110051;
Wolfgang Denk17725802011-11-29 22:17:48 +00001458 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001459 ("Max. CL is 2 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001460 tmp_sdram_mode, tmp_dunit_control_low);
wdenk5da7f2f2004-01-03 00:43:19 +00001461 } else { /* clk sync. bypassed */
1462
1463 if (info->registeredAddrAndControlInputs == 1) { /* registerd DDR SDRAM? */
1464 printf ("CL = 2, Clock Unsync'ed, Dunit Control Low register setting undefined\n");
1465 printf ("Aborting!!!\n");
1466 hang ();
1467 } else
1468 tmp_dunit_control_low = 0x3B1107d2;
Wolfgang Denk17725802011-11-29 22:17:48 +00001469 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001470 ("Max. CL is 2 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001471 tmp_sdram_mode, tmp_dunit_control_low);
wdenk5da7f2f2004-01-03 00:43:19 +00001472 }
1473 break;
1474 case DDR_CL_1_5:
1475 tmp_sdram_mode = 0x52; /* CL=1.5 Burstlength = 4 */
1476 if (tmp == 1) { /* clocks sync */
1477 if (info->registeredAddrAndControlInputs == 1) /* registerd DDR SDRAM? */
1478 tmp_dunit_control_low = 0x24110051;
1479 else
1480 tmp_dunit_control_low = 0x23110051;
Wolfgang Denk17725802011-11-29 22:17:48 +00001481 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001482 ("Max. CL is 1.5 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001483 tmp_sdram_mode, tmp_dunit_control_low);
wdenk5da7f2f2004-01-03 00:43:19 +00001484 } else { /* clk sync. bypassed */
1485
1486 if (info->registeredAddrAndControlInputs == 1) { /* registerd DDR SDRAM? */
1487 printf ("CL = 1.5, Clock Unsync'ed, Dunit Control Low register setting undefined\n");
1488 printf ("Aborting!!!\n");
1489 hang ();
1490 } else
1491 tmp_dunit_control_low = 0x1A1107d2;
Wolfgang Denk17725802011-11-29 22:17:48 +00001492 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001493 ("Max. CL is 1.5 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001494 tmp_sdram_mode, tmp_dunit_control_low);
wdenk5da7f2f2004-01-03 00:43:19 +00001495 }
1496 break;
1497
1498 default:
1499 printf ("Max. CL is out of range %d\n",
1500 info->maxClSupported_DDR);
1501 hang ();
1502 break;
1503 } /* end DDR switch */
1504 break;
1505 } /* end CL switch */
1506
1507 /* Write results of CL detection procedure */
1508 /* set SDRAM mode reg. 0x141c */
1509 GT_REG_WRITE (SDRAM_MODE, tmp_sdram_mode);
1510
1511 /* set SDRAM mode SetCommand 0x1418 */
1512 GT_REG_WRITE (SDRAM_OPERATION, 0x3);
1513 while (GTREGREAD (SDRAM_OPERATION) != 0) {
Wolfgang Denk17725802011-11-29 22:17:48 +00001514 debug
1515 ("\n*** SDRAM_OPERATION 0x1418 after SDRAM_MODE: Module still busy ... please wait... ***\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001516 }
1517
1518 /* SDRAM D_UNIT_CONTROL_LOW 0x1404 */
1519 GT_REG_WRITE (D_UNIT_CONTROL_LOW, tmp_dunit_control_low);
1520
1521 /* set SDRAM mode SetCommand 0x1418 */
1522 GT_REG_WRITE (SDRAM_OPERATION, 0x3);
1523 while (GTREGREAD (SDRAM_OPERATION) != 0) {
Wolfgang Denk17725802011-11-29 22:17:48 +00001524 debug
1525 ("\n*** SDRAM_OPERATION 1418 after D_UNIT_CONTROL_LOW: Module still busy ... please wait... ***\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001526 }
1527
1528/*------------------------------------------------------------------------------ */
1529
1530 /* bank parameters */
1531 /* SDRAM address decode register 0x1410 */
1532 /* program this with the default value */
1533 tmp = 0x02; /* power-up default address select decoding value */
1534
Wolfgang Denk17725802011-11-29 22:17:48 +00001535 debug("drb_size (n*64Mbit): %d\n", info->drb_size);
wdenk5da7f2f2004-01-03 00:43:19 +00001536/* figure out the DRAM chip size */
1537 sdram_chip_size =
1538 (1 << (info->numOfRowAddresses + info->numOfColAddresses));
1539 sdram_chip_size *= info->sdramWidth;
1540 sdram_chip_size *= 4;
Wolfgang Denk17725802011-11-29 22:17:48 +00001541 debug("computed sdram chip size is %#lx\n", sdram_chip_size);
wdenk5da7f2f2004-01-03 00:43:19 +00001542 /* divide sdram chip size by 64 Mbits */
1543 sdram_chip_size = sdram_chip_size / 0x4000000;
1544 switch (sdram_chip_size) {
1545 case 1: /* 64 Mbit */
1546 case 2: /* 128 Mbit */
Wolfgang Denk17725802011-11-29 22:17:48 +00001547 debug("RAM-Device_size 64Mbit or 128Mbit)\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001548 tmp |= (0x00 << 4);
1549 break;
1550 case 4: /* 256 Mbit */
1551 case 8: /* 512 Mbit */
Wolfgang Denk17725802011-11-29 22:17:48 +00001552 debug("RAM-Device_size 256Mbit or 512Mbit)\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001553 tmp |= (0x01 << 4);
1554 break;
1555 case 16: /* 1 Gbit */
1556 case 32: /* 2 Gbit */
Wolfgang Denk17725802011-11-29 22:17:48 +00001557 debug("RAM-Device_size 1Gbit or 2Gbit)\n");
wdenk5da7f2f2004-01-03 00:43:19 +00001558 tmp |= (0x02 << 4);
1559 break;
1560 default:
1561 printf ("Error in dram size calculation\n");
1562 printf ("RAM-Device_size is unsupported\n");
1563 hang ();
1564 }
1565
1566 /* SDRAM address control */
1567 GT_REG_WRITE (SDRAM_ADDR_CONTROL, tmp);
Wolfgang Denk17725802011-11-29 22:17:48 +00001568 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001569 ("setting up sdram address control (0x1410) with: %08lx \n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001570 tmp);
wdenk5da7f2f2004-01-03 00:43:19 +00001571
1572/* ------------------------------------------------------------------------------ */
1573/* same settings for registerd & non-registerd DDR SDRAM */
Wolfgang Denk17725802011-11-29 22:17:48 +00001574 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001575 ("setting up sdram_timing_control_low (0x1408) with: %08x \n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001576 0x11511220);
wdenk5da7f2f2004-01-03 00:43:19 +00001577 GT_REG_WRITE (SDRAM_TIMING_CONTROL_LOW, 0x11511220);
1578
1579
1580/* ------------------------------------------------------------------------------ */
1581
1582 /* SDRAM configuration */
1583 tmp = GTREGREAD (SDRAM_CONFIG);
1584
1585 if (info->registeredAddrAndControlInputs
1586 || info->registeredDQMBinputs) {
1587 tmp |= (1 << 17);
Wolfgang Denk17725802011-11-29 22:17:48 +00001588 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001589 ("SPD says: registered Addr. and Cont.: %d; registered DQMBinputs: %d\n",
1590 info->registeredAddrAndControlInputs,
Wolfgang Denk17725802011-11-29 22:17:48 +00001591 info->registeredDQMBinputs);
wdenk5da7f2f2004-01-03 00:43:19 +00001592 }
1593
1594 /* Use buffer 1 to return read data to the CPU
1595 * Page 426 MV64360 */
1596 tmp |= (1 << 26);
Wolfgang Denk17725802011-11-29 22:17:48 +00001597 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001598 ("Before Buffer assignment - sdram_conf (0x1400): %08x\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001599 GTREGREAD (SDRAM_CONFIG));
1600 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001601 ("After Buffer assignment - sdram_conf (0x1400): %08x\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001602 GTREGREAD (SDRAM_CONFIG));
wdenk5da7f2f2004-01-03 00:43:19 +00001603
1604 /* SDRAM timing To_do: */
1605/* ------------------------------------------------------------------------------ */
1606
Wolfgang Denk17725802011-11-29 22:17:48 +00001607 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001608 ("setting up sdram_timing_control_high (0x140c) with: %08x \n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001609 0x9);
wdenk5da7f2f2004-01-03 00:43:19 +00001610 GT_REG_WRITE (SDRAM_TIMING_CONTROL_HIGH, 0x9);
1611
Wolfgang Denk17725802011-11-29 22:17:48 +00001612 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001613 ("setting up sdram address pads control (0x14c0) with: %08x \n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001614 0x7d5014a);
wdenk5da7f2f2004-01-03 00:43:19 +00001615 GT_REG_WRITE (SDRAM_ADDR_CTRL_PADS_CALIBRATION, 0x7d5014a);
1616
Wolfgang Denk17725802011-11-29 22:17:48 +00001617 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001618 ("setting up sdram data pads control (0x14c4) with: %08x \n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001619 0x7d5014a);
wdenk5da7f2f2004-01-03 00:43:19 +00001620 GT_REG_WRITE (SDRAM_DATA_PADS_CALIBRATION, 0x7d5014a);
1621
1622/* ------------------------------------------------------------------------------ */
1623
1624 /* set the SDRAM configuration for each bank */
1625
1626/* for (i = info->slot * 2; i < ((info->slot * 2) + info->banks); i++) */
1627 {
1628 i = info->slot;
Wolfgang Denk17725802011-11-29 22:17:48 +00001629 debug
1630 ("\n*** Running a MRS cycle for bank %d ***\n", i);
wdenk5da7f2f2004-01-03 00:43:19 +00001631
1632 /* map the bank */
1633 memory_map_bank (i, 0, GB / 4);
1634
1635 /* set SDRAM mode */ /* To_do check it */
1636 GT_REG_WRITE (SDRAM_OPERATION, 0x3);
1637 check = GTREGREAD (SDRAM_OPERATION);
Wolfgang Denk17725802011-11-29 22:17:48 +00001638 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001639 ("\n*** SDRAM_OPERATION 1418 (0 = Normal Operation) = %08lx ***\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001640 check);
wdenk5da7f2f2004-01-03 00:43:19 +00001641
1642
1643 /* switch back to normal operation mode */
1644 GT_REG_WRITE (SDRAM_OPERATION, 0);
1645 check = GTREGREAD (SDRAM_OPERATION);
Wolfgang Denk17725802011-11-29 22:17:48 +00001646 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001647 ("\n*** SDRAM_OPERATION 1418 (0 = Normal Operation) = %08lx ***\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001648 check);
wdenk5da7f2f2004-01-03 00:43:19 +00001649
1650 /* unmap the bank */
1651 memory_map_bank (i, 0, 0);
1652 }
1653
1654 return 0;
1655
1656}
1657
1658/*
1659 * Check memory range for valid RAM. A simple memory test determines
1660 * the actually available RAM size between addresses `base' and
1661 * `base + maxsize'. Some (not all) hardware errors are detected:
1662 * - short between address lines
1663 * - short between data lines
1664 */
1665long int dram_size (long int *base, long int maxsize)
1666{
1667 volatile long int *addr, *b = base;
1668 long int cnt, val, save1, save2;
1669
1670#define STARTVAL (1<<20) /* start test at 1M */
1671 for (cnt = STARTVAL / sizeof (long); cnt < maxsize / sizeof (long);
1672 cnt <<= 1) {
1673 addr = base + cnt; /* pointer arith! */
1674
1675 save1 = *addr; /* save contents of addr */
1676 save2 = *b; /* save contents of base */
1677
1678 *addr = cnt; /* write cnt to addr */
1679 *b = 0; /* put null at base */
1680
1681 /* check at base address */
1682 if ((*b) != 0) {
1683 *addr = save1; /* restore *addr */
1684 *b = save2; /* restore *b */
1685 return (0);
1686 }
1687 val = *addr; /* read *addr */
1688 val = *addr; /* read *addr */
1689
1690 *addr = save1;
1691 *b = save2;
1692
1693 if (val != cnt) {
Wolfgang Denk17725802011-11-29 22:17:48 +00001694 debug
wdenk5da7f2f2004-01-03 00:43:19 +00001695 ("Found %08x at Address %08x (failure)\n",
Wolfgang Denk17725802011-11-29 22:17:48 +00001696 (unsigned int) val, (unsigned int) addr);
wdenk5da7f2f2004-01-03 00:43:19 +00001697 /* fix boundary condition.. STARTVAL means zero */
1698 if (cnt == STARTVAL / sizeof (long))
1699 cnt = 0;
1700 return (cnt * sizeof (long));
1701 }
1702 }
1703 return maxsize;
1704}
1705
1706/* ------------------------------------------------------------------------- */
1707
1708/* ppcboot interface function to SDRAM init - this is where all the
1709 * controlling logic happens */
Becky Brucebd99ae72008-06-09 16:03:40 -05001710phys_size_t initdram (int board_type)
wdenk5da7f2f2004-01-03 00:43:19 +00001711{
wdenk5da7f2f2004-01-03 00:43:19 +00001712 int checkbank[4] = {[0 ... 3] = 0 };
Wolfgang Denk17725802011-11-29 22:17:48 +00001713 ulong realsize, total;
wdenk5da7f2f2004-01-03 00:43:19 +00001714 AUX_MEM_DIMM_INFO dimmInfo1;
1715 AUX_MEM_DIMM_INFO dimmInfo2;
1716 int nhr, bank_no;
1717 ulong dest, memSpaceAttr;
1718
1719 /* first, use the SPD to get info about the SDRAM/ DDRRAM */
1720
1721 /* check the NHR bit and skip mem init if it's already done */
1722 nhr = get_hid0 () & (1 << 16);
1723
1724 if (nhr) {
1725 printf ("Skipping SD- DDRRAM setup due to NHR bit being set\n");
1726 } else {
1727 /* DIMM0 */
Wolfgang Denk17725802011-11-29 22:17:48 +00001728 check_dimm (0, &dimmInfo1);
wdenk5da7f2f2004-01-03 00:43:19 +00001729
1730 /* DIMM1 */
Wolfgang Denk17725802011-11-29 22:17:48 +00001731 check_dimm (1, &dimmInfo2);
wdenk5da7f2f2004-01-03 00:43:19 +00001732
1733 memory_map_bank (0, 0, 0);
1734 memory_map_bank (1, 0, 0);
1735 memory_map_bank (2, 0, 0);
1736 memory_map_bank (3, 0, 0);
1737
1738 /* ronen check correct set of DIMMS */
1739 if (dimmInfo1.numOfModuleBanks && dimmInfo2.numOfModuleBanks) {
1740 if (dimmInfo1.errorCheckType !=
1741 dimmInfo2.errorCheckType)
1742 printf ("***WARNNING***!!!! different ECC support of the DIMMS\n");
1743 if (dimmInfo1.maxClSupported_DDR !=
1744 dimmInfo2.maxClSupported_DDR)
1745 printf ("***WARNNING***!!!! different CAL setting of the DIMMS\n");
1746 if (dimmInfo1.registeredAddrAndControlInputs !=
1747 dimmInfo2.registeredAddrAndControlInputs)
1748 printf ("***WARNNING***!!!! different Registration setting of the DIMMS\n");
1749 }
1750
1751 if (dimmInfo1.numOfModuleBanks && setup_sdram (&dimmInfo1)) {
1752 printf ("Setup for DIMM1 failed.\n");
1753 }
1754
1755 if (dimmInfo2.numOfModuleBanks && setup_sdram (&dimmInfo2)) {
1756 printf ("Setup for DIMM2 failed.\n");
1757 }
1758
1759 /* set the NHR bit */
1760 set_hid0 (get_hid0 () | (1 << 16));
1761 }
1762 /* next, size the SDRAM banks */
1763
1764 realsize = total = 0;
wdenk5da7f2f2004-01-03 00:43:19 +00001765 if (dimmInfo1.numOfModuleBanks > 0) {
1766 checkbank[0] = 1;
1767 }
1768 if (dimmInfo1.numOfModuleBanks > 1) {
1769 checkbank[1] = 1;
1770 }
1771 if (dimmInfo1.numOfModuleBanks > 2)
1772 printf ("Error, SPD claims DIMM1 has >2 banks\n");
1773
1774 printf ("-- DIMM1 has %d banks\n", dimmInfo1.numOfModuleBanks);
1775
1776 if (dimmInfo2.numOfModuleBanks > 0) {
1777 checkbank[2] = 1;
1778 }
1779 if (dimmInfo2.numOfModuleBanks > 1) {
1780 checkbank[3] = 1;
1781 }
1782 if (dimmInfo2.numOfModuleBanks > 2)
1783 printf ("Error, SPD claims DIMM2 has >2 banks\n");
1784
1785 printf ("-- DIMM2 has %d banks\n", dimmInfo2.numOfModuleBanks);
1786
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +02001787 for (bank_no = 0; bank_no < CONFIG_SYS_DRAM_BANKS; bank_no++) {
wdenk5da7f2f2004-01-03 00:43:19 +00001788 /* skip over banks that are not populated */
1789 if (!checkbank[bank_no])
1790 continue;
1791
1792 /* ronen - realsize = dram_size((long int *)total, check); */
1793 if (bank_no == 0 || bank_no == 1) {
1794 if (checkbank[1] == 1)
1795 realsize = dimmInfo1.size / 2;
1796 else
1797 realsize = dimmInfo1.size;
1798 }
1799 if (bank_no == 2 || bank_no == 3) {
1800 if (checkbank[3] == 1)
1801 realsize = dimmInfo2.size / 2;
1802 else
1803 realsize = dimmInfo2.size;
1804 }
1805 memory_map_bank (bank_no, total, realsize);
1806
1807 /* ronen - initialize the DRAM for ECC */
1808#ifdef CONFIG_MV64360_ECC
1809 if ((dimmInfo1.errorCheckType != 0) &&
1810 ((dimmInfo2.errorCheckType != 0)
1811 || (dimmInfo2.numOfModuleBanks == 0))) {
1812 printf ("ECC Initialization of Bank %d:", bank_no);
1813 memSpaceAttr = ((~(BIT0 << bank_no)) & 0xf) << 8;
1814 mvDmaSetMemorySpace (0, 0, memSpaceAttr, total,
1815 realsize);
1816 for (dest = total; dest < total + realsize;
1817 dest += _8M) {
1818 mvDmaTransfer (0, total, dest, _8M,
1819 BIT8 /*DMA_DTL_128BYTES */ |
1820 BIT3 /*DMA_HOLD_SOURCE_ADDR */
1821 |
1822 BIT11
1823 /*DMA_BLOCK_TRANSFER_MODE */ );
1824 while (mvDmaIsChannelActive (0));
1825 }
1826 printf (" PASS\n");
1827 }
1828#endif
1829
1830 total += realsize;
1831 }
1832
1833 /* ronen- add DRAM conf prints */
1834 switch ((GTREGREAD (0x141c) >> 4) & 0x7) {
1835 case 0x2:
1836 printf ("CAS Latency = 2");
1837 break;
1838 case 0x3:
1839 printf ("CAS Latency = 3");
1840 break;
1841 case 0x5:
1842 printf ("CAS Latency = 1.5");
1843 break;
1844 case 0x6:
1845 printf ("CAS Latency = 2.5");
1846 break;
1847 }
1848 printf (" tRP = %d tRAS = %d tRCD=%d\n",
1849 ((GTREGREAD (0x1408) >> 8) & 0xf) + 1,
1850 ((GTREGREAD (0x1408) >> 20) & 0xf) + 1,
1851 ((GTREGREAD (0x1408) >> 4) & 0xf) + 1);
1852
1853/* Setup Ethernet DMA Adress window to DRAM Area */
1854 if (total > _256M)
1855 printf ("*** ONLY the first 256MB DRAM memory are used out of the ");
1856 else
1857 printf ("Total SDRAM memory is ");
1858 /* (cause all the 4 BATS are taken) */
1859 return (total);
1860}
1861
1862
1863/* ronen- add Idma functions for usage of the ecc dram init. */
1864/*******************************************************************************
1865* mvDmaIsChannelActive - Checks if a engine is busy.
1866********************************************************************************/
1867int mvDmaIsChannelActive (int engine)
1868{
1869 ulong data;
1870
1871 data = GTREGREAD (MV64360_DMA_CHANNEL0_CONTROL + 4 * engine);
1872 if (data & BIT14 /*activity status */ ) {
1873 return 1;
1874 }
1875 return 0;
1876}
1877
1878/*******************************************************************************
1879* mvDmaSetMemorySpace - Set a DMA memory window for the DMA's address decoding
1880* map.
1881*******************************************************************************/
1882int mvDmaSetMemorySpace (ulong memSpace,
1883 ulong memSpaceTarget,
1884 ulong memSpaceAttr, ulong baseAddress, ulong size)
1885{
1886 ulong temp;
1887
1888 /* The base address must be aligned to the size. */
1889 if (baseAddress % size != 0) {
1890 return 0;
1891 }
1892 if (size >= 0x10000 /*64K */ ) {
1893 size &= 0xffff0000;
1894 baseAddress = (baseAddress & 0xffff0000);
1895 /* Set the new attributes */
1896 GT_REG_WRITE (MV64360_DMA_BASE_ADDR_REG0 + memSpace * 8,
1897 (baseAddress | memSpaceTarget | memSpaceAttr));
1898 GT_REG_WRITE ((MV64360_DMA_SIZE_REG0 + memSpace * 8),
1899 (size - 1) & 0xffff0000);
1900 temp = GTREGREAD (MV64360_DMA_BASE_ADDR_ENABLE_REG);
1901 GT_REG_WRITE (DMA_BASE_ADDR_ENABLE_REG,
1902 (temp & ~(BIT0 << memSpace)));
1903 return 1;
1904 }
1905 return 0;
1906}
1907
1908
1909/*******************************************************************************
1910* mvDmaTransfer - Transfer data from sourceAddr to destAddr on one of the 4
1911* DMA channels.
1912********************************************************************************/
1913int mvDmaTransfer (int engine, ulong sourceAddr,
1914 ulong destAddr, ulong numOfBytes, ulong command)
1915{
1916 ulong engOffReg = 0; /* Engine Offset Register */
1917
1918 if (numOfBytes > 0xffff) {
1919 command = command | BIT31 /*DMA_16M_DESCRIPTOR_MODE */ ;
1920 }
1921 command = command | ((command >> 6) & 0x7);
1922 engOffReg = engine * 4;
1923 GT_REG_WRITE (MV64360_DMA_CHANNEL0_BYTE_COUNT + engOffReg,
1924 numOfBytes);
1925 GT_REG_WRITE (MV64360_DMA_CHANNEL0_SOURCE_ADDR + engOffReg,
1926 sourceAddr);
1927 GT_REG_WRITE (MV64360_DMA_CHANNEL0_DESTINATION_ADDR + engOffReg,
1928 destAddr);
1929 command =
1930 command | BIT12 /*DMA_CHANNEL_ENABLE */ | BIT9
1931 /*DMA_NON_CHAIN_MODE */ ;
1932 /* Activate DMA engine By writting to mvDmaControlRegister */
1933 GT_REG_WRITE (MV64360_DMA_CHANNEL0_CONTROL + engOffReg, command);
1934 return 1;
1935}
1936
1937/****************************************************************************************
1938 * SDRAM INIT *
1939 * This procedure detect all Sdram types: 64, 128, 256, 512 Mbit, 1Gbit and 2Gb *
1940 * This procedure fits only the Atlantis *
1941 * *
1942 ***************************************************************************************/
1943
1944
1945/****************************************************************************************
1946 * DFCDL initialize MV643xx Design Considerations *
1947 * *
1948 ***************************************************************************************/
1949int set_dfcdlInit (void)
1950{
1951 int i;
1952 unsigned int dfcdl_word = 0x391; /* 0x14f; ronen new dfcdl */
1953
1954 for (i = 0; i < 64; i++) {
1955 GT_REG_WRITE (SRAM_DATA0, dfcdl_word);
1956/* dfcdl_word += 0x41; - ronen new dfcdl */
1957 }
1958 GT_REG_WRITE (DFCDL_CONFIG0, 0x00300000); /* enable dynamic delay line updating */
1959
1960 return (0);
1961}