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stroese771e05b2004-12-16 18:21:17 +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 * adaption for the cpci750 Board
29 * Reinhard Arlt (reinhard.arlt@esd-electronics.com)
30 *************************************************************************/
31
32
33/* sdram_init.c - automatic memory sizing */
34
35#include <common.h>
36#include <74xx_7xx.h>
37#include "../../Marvell/include/memory.h"
38#include "../../Marvell/include/pci.h"
39#include "../../Marvell/include/mv_gen_reg.h"
40#include <net.h>
41
42#include "eth.h"
43#include "mpsc.h"
44#include "../../Marvell/common/i2c.h"
45#include "64360.h"
46#include "mv_regs.h"
47
Wolfgang Denkd87080b2006-03-31 18:32:53 +020048DECLARE_GLOBAL_DATA_PTR;
stroese771e05b2004-12-16 18:21:17 +000049
50#undef DEBUG
51/* #define DEBUG */
52#ifdef CONFIG_PCI
53#define MAP_PCI
54#endif /* of CONFIG_PCI */
55
56#ifdef DEBUG
57#define DP(x) x
58#else
59#define DP(x)
60#endif
61
62int set_dfcdlInit(void); /* setup delay line of Mv64360 */
63
64/* ------------------------------------------------------------------------- */
65
66int
67memory_map_bank(unsigned int bankNo,
68 unsigned int bankBase,
69 unsigned int bankLength)
70{
71#ifdef MAP_PCI
72 PCI_HOST host;
73#endif
74
75
76#ifdef DEBUG
77 if (bankLength > 0) {
78 printf("mapping bank %d at %08x - %08x\n",
79 bankNo, bankBase, bankBase + bankLength - 1);
80 } else {
81 printf("unmapping bank %d\n", bankNo);
82 }
83#endif
84
85 memoryMapBank(bankNo, bankBase, bankLength);
86
87#ifdef MAP_PCI
88 for (host=PCI_HOST0;host<=PCI_HOST1;host++) {
89 const int features=
90 PREFETCH_ENABLE |
91 DELAYED_READ_ENABLE |
92 AGGRESSIVE_PREFETCH |
93 READ_LINE_AGGRESSIVE_PREFETCH |
94 READ_MULTI_AGGRESSIVE_PREFETCH |
95 MAX_BURST_4 |
96 PCI_NO_SWAP;
97
98 pciMapMemoryBank(host, bankNo, bankBase, bankLength);
99
100 pciSetRegionSnoopMode(host, bankNo, PCI_SNOOP_WB, bankBase,
101 bankLength);
102
103 pciSetRegionFeatures(host, bankNo, features, bankBase, bankLength);
104 }
105#endif
106 return 0;
107}
108
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200109#define GB (1 << 30)
stroese771e05b2004-12-16 18:21:17 +0000110
111/* much of this code is based on (or is) the code in the pip405 port */
112/* thanks go to the authors of said port - Josh */
113
114/* structure to store the relevant information about an sdram bank */
115typedef struct sdram_info {
116 uchar drb_size;
117 uchar registered, ecc;
118 uchar tpar;
119 uchar tras_clocks;
120 uchar burst_len;
121 uchar banks, slot;
122} sdram_info_t;
123
124/* Typedefs for 'gtAuxilGetDIMMinfo' function */
125
126typedef enum _memoryType {SDRAM, DDR} MEMORY_TYPE;
127
128typedef enum _voltageInterface {TTL_5V_TOLERANT, LVTTL, HSTL_1_5V,
wdenkefe2a4d2004-12-16 21:44:03 +0000129 SSTL_3_3V, SSTL_2_5V, VOLTAGE_UNKNOWN,
130 } VOLTAGE_INTERFACE;
stroese771e05b2004-12-16 18:21:17 +0000131
132typedef enum _max_CL_supported_DDR {DDR_CL_1=1, DDR_CL_1_5=2, DDR_CL_2=4, DDR_CL_2_5=8, DDR_CL_3=16, DDR_CL_3_5=32, DDR_CL_FAULT} MAX_CL_SUPPORTED_DDR;
133typedef enum _max_CL_supported_SD {SD_CL_1=1, SD_CL_2, SD_CL_3, SD_CL_4, SD_CL_5, SD_CL_6, SD_CL_7, SD_FAULT} MAX_CL_SUPPORTED_SD;
134
135
136/* SDRAM/DDR information struct */
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200137typedef struct _gtMemoryDimmInfo {
138 MEMORY_TYPE memoryType;
139 unsigned int numOfRowAddresses;
140 unsigned int numOfColAddresses;
141 unsigned int numOfModuleBanks;
142 unsigned int dataWidth;
143 VOLTAGE_INTERFACE voltageInterface;
144 unsigned int errorCheckType; /* ECC , PARITY.. */
145 unsigned int sdramWidth; /* 4,8,16 or 32 */ ;
146 unsigned int errorCheckDataWidth; /* 0 - no, 1 - Yes */
147 unsigned int minClkDelay;
148 unsigned int burstLengthSupported;
149 unsigned int numOfBanksOnEachDevice;
150 unsigned int suportedCasLatencies;
151 unsigned int RefreshInterval;
152 unsigned int maxCASlatencySupported_LoP; /* LoP left of point (measured in ns) */
153 unsigned int maxCASlatencySupported_RoP; /* RoP right of point (measured in ns) */
154 MAX_CL_SUPPORTED_DDR maxClSupported_DDR;
155 MAX_CL_SUPPORTED_SD maxClSupported_SD;
156 unsigned int moduleBankDensity;
157 /* module attributes (true for yes) */
158 bool bufferedAddrAndControlInputs;
159 bool registeredAddrAndControlInputs;
160 bool onCardPLL;
161 bool bufferedDQMBinputs;
162 bool registeredDQMBinputs;
163 bool differentialClockInput;
164 bool redundantRowAddressing;
stroese771e05b2004-12-16 18:21:17 +0000165
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200166 /* module general attributes */
167 bool suportedAutoPreCharge;
168 bool suportedPreChargeAll;
169 bool suportedEarlyRasPreCharge;
170 bool suportedWrite1ReadBurst;
171 bool suported5PercentLowVCC;
172 bool suported5PercentUpperVCC;
173 /* module timing parameters */
174 unsigned int minRasToCasDelay;
175 unsigned int minRowActiveRowActiveDelay;
176 unsigned int minRasPulseWidth;
177 unsigned int minRowPrechargeTime; /* measured in ns */
stroese771e05b2004-12-16 18:21:17 +0000178
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200179 int addrAndCommandHoldTime; /* LoP left of point (measured in ns) */
180 int addrAndCommandSetupTime; /* (measured in ns/100) */
181 int dataInputSetupTime; /* LoP left of point (measured in ns) */
182 int dataInputHoldTime; /* LoP left of point (measured in ns) */
stroese771e05b2004-12-16 18:21:17 +0000183/* tAC times for highest 2nd and 3rd highest CAS Latency values */
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200184 unsigned int clockToDataOut_LoP; /* LoP left of point (measured in ns) */
185 unsigned int clockToDataOut_RoP; /* RoP right of point (measured in ns) */
186 unsigned int clockToDataOutMinus1_LoP; /* LoP left of point (measured in ns) */
187 unsigned int clockToDataOutMinus1_RoP; /* RoP right of point (measured in ns) */
188 unsigned int clockToDataOutMinus2_LoP; /* LoP left of point (measured in ns) */
189 unsigned int clockToDataOutMinus2_RoP; /* RoP right of point (measured in ns) */
stroese771e05b2004-12-16 18:21:17 +0000190
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200191 unsigned int minimumCycleTimeAtMaxCasLatancy_LoP; /* LoP left of point (measured in ns) */
192 unsigned int minimumCycleTimeAtMaxCasLatancy_RoP; /* RoP right of point (measured in ns) */
stroese771e05b2004-12-16 18:21:17 +0000193
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200194 unsigned int minimumCycleTimeAtMaxCasLatancyMinus1_LoP; /* LoP left of point (measured in ns) */
195 unsigned int minimumCycleTimeAtMaxCasLatancyMinus1_RoP; /* RoP right of point (measured in ns) */
stroese771e05b2004-12-16 18:21:17 +0000196
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200197 unsigned int minimumCycleTimeAtMaxCasLatancyMinus2_LoP; /* LoP left of point (measured in ns) */
198 unsigned int minimumCycleTimeAtMaxCasLatancyMinus2_RoP; /* RoP right of point (measured in ns) */
stroese771e05b2004-12-16 18:21:17 +0000199
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200200 /* Parameters calculated from
201 the extracted DIMM information */
202 unsigned int size;
203 unsigned int deviceDensity; /* 16,64,128,256 or 512 Mbit */
204 unsigned int numberOfDevices;
205 uchar drb_size; /* DRAM size in n*64Mbit */
206 uchar slot; /* Slot Number this module is inserted in */
207 uchar spd_raw_data[128]; /* Content of SPD-EEPROM copied 1:1 */
stroese771e05b2004-12-16 18:21:17 +0000208#ifdef DEBUG
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200209 uchar manufactura[8]; /* Content of SPD-EEPROM Byte 64-71 */
210 uchar modul_id[18]; /* Content of SPD-EEPROM Byte 73-90 */
211 uchar vendor_data[27]; /* Content of SPD-EEPROM Byte 99-125 */
212 unsigned long modul_serial_no; /* Content of SPD-EEPROM Byte 95-98 */
213 unsigned int manufac_date; /* Content of SPD-EEPROM Byte 93-94 */
214 unsigned int modul_revision; /* Content of SPD-EEPROM Byte 91-92 */
215 uchar manufac_place; /* Content of SPD-EEPROM Byte 72 */
stroese771e05b2004-12-16 18:21:17 +0000216
217#endif
218} AUX_MEM_DIMM_INFO;
219
220
221/*
222 * translate ns.ns/10 coding of SPD timing values
223 * into 10 ps unit values
224 */
225static inline unsigned short
226NS10to10PS(unsigned char spd_byte)
227{
228 unsigned short ns, ns10;
229
230 /* isolate upper nibble */
231 ns = (spd_byte >> 4) & 0x0F;
232 /* isolate lower nibble */
233 ns10 = (spd_byte & 0x0F);
234
235 return(ns*100 + ns10*10);
236}
237
238/*
239 * translate ns coding of SPD timing values
240 * into 10 ps unit values
241 */
242static inline unsigned short
243NSto10PS(unsigned char spd_byte)
244{
245 return(spd_byte*100);
246}
247
248/* This code reads the SPD chip on the sdram and populates
249 * the array which is passed in with the relevant information */
250/* static int check_dimm(uchar slot, AUX_MEM_DIMM_INFO *info) */
wdenkefe2a4d2004-12-16 21:44:03 +0000251static int check_dimm (uchar slot, AUX_MEM_DIMM_INFO * dimmInfo)
stroese771e05b2004-12-16 18:21:17 +0000252{
wdenkefe2a4d2004-12-16 21:44:03 +0000253 unsigned long spd_checksum;
stroese771e05b2004-12-16 18:21:17 +0000254
255 uchar addr = slot == 0 ? DIMM0_I2C_ADDR : DIMM1_I2C_ADDR;
256 int ret;
wdenkefe2a4d2004-12-16 21:44:03 +0000257 unsigned int i, j, density = 1, devicesForErrCheck = 0;
258
stroese771e05b2004-12-16 18:21:17 +0000259#ifdef DEBUG
wdenkefe2a4d2004-12-16 21:44:03 +0000260 unsigned int k;
stroese771e05b2004-12-16 18:21:17 +0000261#endif
wdenkefe2a4d2004-12-16 21:44:03 +0000262 unsigned int rightOfPoint = 0, leftOfPoint = 0, mult, div, time_tmp;
263 int sign = 1, shift, maskLeftOfPoint, maskRightOfPoint;
stroese771e05b2004-12-16 18:21:17 +0000264 uchar supp_cal, cal_val;
265 ulong memclk, tmemclk;
266 ulong tmp;
wdenkefe2a4d2004-12-16 21:44:03 +0000267 uchar trp_clocks = 0, trcd_clocks, tras_clocks, trrd_clocks;
stroese771e05b2004-12-16 18:21:17 +0000268 uchar data[128];
269
270 memclk = gd->bus_clk;
wdenkefe2a4d2004-12-16 21:44:03 +0000271 tmemclk = 1000000000 / (memclk / 100); /* in 10 ps units */
stroese771e05b2004-12-16 18:21:17 +0000272
wdenkefe2a4d2004-12-16 21:44:03 +0000273 memset (data, 0, sizeof (data));
stroese771e05b2004-12-16 18:21:17 +0000274
275
276 ret = 0;
277
wdenkefe2a4d2004-12-16 21:44:03 +0000278 DP (puts ("before i2c read\n"));
stroese771e05b2004-12-16 18:21:17 +0000279
wdenkefe2a4d2004-12-16 21:44:03 +0000280 ret = i2c_read (addr, 0, 2, data, 128);
stroese771e05b2004-12-16 18:21:17 +0000281
wdenkefe2a4d2004-12-16 21:44:03 +0000282 DP (puts ("after i2c read\n"));
stroese771e05b2004-12-16 18:21:17 +0000283
wdenkefe2a4d2004-12-16 21:44:03 +0000284 if ((data[64] != 'e') || (data[65] != 's') || (data[66] != 'd')
285 || (data[67] != '-') || (data[68] != 'g') || (data[69] != 'm')
286 || (data[70] != 'b') || (data[71] != 'h')) {
287 ret = -1;
288 }
stroese771e05b2004-12-16 18:21:17 +0000289
wdenkefe2a4d2004-12-16 21:44:03 +0000290 if ((ret != 0) && (slot == 0)) {
291 memset (data, 0, sizeof (data));
292 data[0] = 0x80;
293 data[1] = 0x08;
294 data[2] = 0x07;
295 data[3] = 0x0c;
296 data[4] = 0x09;
297 data[5] = 0x01;
298 data[6] = 0x48;
299 data[7] = 0x00;
300 data[8] = 0x04;
301 data[9] = 0x75;
302 data[10] = 0x80;
303 data[11] = 0x02;
304 data[12] = 0x80;
305 data[13] = 0x10;
306 data[14] = 0x08;
307 data[15] = 0x01;
308 data[16] = 0x0e;
309 data[17] = 0x04;
310 data[18] = 0x0c;
311 data[19] = 0x01;
312 data[20] = 0x02;
313 data[21] = 0x20;
314 data[22] = 0x00;
315 data[23] = 0xa0;
316 data[24] = 0x80;
317 data[25] = 0x00;
318 data[26] = 0x00;
319 data[27] = 0x50;
320 data[28] = 0x3c;
321 data[29] = 0x50;
322 data[30] = 0x32;
323 data[31] = 0x10;
324 data[32] = 0xb0;
325 data[33] = 0xb0;
326 data[34] = 0x60;
327 data[35] = 0x60;
328 data[64] = 'e';
329 data[65] = 's';
330 data[66] = 'd';
331 data[67] = '-';
332 data[68] = 'g';
333 data[69] = 'm';
334 data[70] = 'b';
335 data[71] = 'h';
336 ret = 0;
337 }
stroese771e05b2004-12-16 18:21:17 +0000338
339 /* zero all the values */
wdenkefe2a4d2004-12-16 21:44:03 +0000340 memset (dimmInfo, 0, sizeof (*dimmInfo));
stroese771e05b2004-12-16 18:21:17 +0000341
wdenkefe2a4d2004-12-16 21:44:03 +0000342 /* copy the SPD content 1:1 into the dimmInfo structure */
343 for (i = 0; i <= 127; i++) {
344 dimmInfo->spd_raw_data[i] = data[i];
345 }
stroese771e05b2004-12-16 18:21:17 +0000346
347 if (ret) {
wdenkefe2a4d2004-12-16 21:44:03 +0000348 DP (printf ("No DIMM in slot %d [err = %x]\n", slot, ret));
stroese771e05b2004-12-16 18:21:17 +0000349 return 0;
wdenkefe2a4d2004-12-16 21:44:03 +0000350 } else
351 dimmInfo->slot = slot; /* start to fill up dimminfo for this "slot" */
stroese771e05b2004-12-16 18:21:17 +0000352
Jean-Christophe PLAGNIOL-VILLARD6d0f6bc2008-10-16 15:01:15 +0200353#ifdef CONFIG_SYS_DISPLAY_DIMM_SPD_CONTENT
stroese771e05b2004-12-16 18:21:17 +0000354
wdenkefe2a4d2004-12-16 21:44:03 +0000355 for (i = 0; i <= 127; i++) {
356 printf ("SPD-EEPROM Byte %3d = %3x (%3d)\n", i, data[i],
357 data[i]);
358 }
stroese771e05b2004-12-16 18:21:17 +0000359
360#endif
361#ifdef DEBUG
wdenkefe2a4d2004-12-16 21:44:03 +0000362 /* find Manufacturer of Dimm Module */
363 for (i = 0; i < sizeof (dimmInfo->manufactura); i++) {
364 dimmInfo->manufactura[i] = data[64 + i];
365 }
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200366 printf ("\nThis RAM-Module is produced by: %s\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000367 dimmInfo->manufactura);
stroese771e05b2004-12-16 18:21:17 +0000368
wdenkefe2a4d2004-12-16 21:44:03 +0000369 /* find Manul-ID of Dimm Module */
370 for (i = 0; i < sizeof (dimmInfo->modul_id); i++) {
371 dimmInfo->modul_id[i] = data[73 + i];
372 }
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200373 printf ("The Module-ID of this RAM-Module is: %s\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000374 dimmInfo->modul_id);
stroese771e05b2004-12-16 18:21:17 +0000375
wdenkefe2a4d2004-12-16 21:44:03 +0000376 /* find Vendor-Data of Dimm Module */
377 for (i = 0; i < sizeof (dimmInfo->vendor_data); i++) {
378 dimmInfo->vendor_data[i] = data[99 + i];
379 }
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200380 printf ("Vendor Data of this RAM-Module is: %s\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000381 dimmInfo->vendor_data);
stroese771e05b2004-12-16 18:21:17 +0000382
wdenkefe2a4d2004-12-16 21:44:03 +0000383 /* find modul_serial_no of Dimm Module */
384 dimmInfo->modul_serial_no = (*((unsigned long *) (&data[95])));
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200385 printf ("Serial No. of this RAM-Module is: %ld (%lx)\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000386 dimmInfo->modul_serial_no, dimmInfo->modul_serial_no);
stroese771e05b2004-12-16 18:21:17 +0000387
wdenkefe2a4d2004-12-16 21:44:03 +0000388 /* find Manufac-Data of Dimm Module */
389 dimmInfo->manufac_date = (*((unsigned int *) (&data[93])));
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200390 printf ("Manufactoring Date of this RAM-Module is: %d.%d\n", data[93], data[94]); /*dimmInfo->manufac_date */
stroese771e05b2004-12-16 18:21:17 +0000391
wdenkefe2a4d2004-12-16 21:44:03 +0000392 /* find modul_revision of Dimm Module */
393 dimmInfo->modul_revision = (*((unsigned int *) (&data[91])));
394 printf ("Module Revision of this RAM-Module is: %d.%d\n", data[91], data[92]); /* dimmInfo->modul_revision */
stroese771e05b2004-12-16 18:21:17 +0000395
wdenkefe2a4d2004-12-16 21:44:03 +0000396 /* find manufac_place of Dimm Module */
397 dimmInfo->manufac_place = (*((unsigned char *) (&data[72])));
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200398 printf ("manufac_place of this RAM-Module is: %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000399 dimmInfo->manufac_place);
stroese771e05b2004-12-16 18:21:17 +0000400
401#endif
402/*------------------------------------------------------------------------------------------------------------------------------*/
403/* calculate SPD checksum */
404/*------------------------------------------------------------------------------------------------------------------------------*/
wdenkefe2a4d2004-12-16 21:44:03 +0000405 spd_checksum = 0;
406#if 0 /* test-only */
407 for (i = 0; i <= 62; i++) {
408 spd_checksum += data[i];
409 }
stroese771e05b2004-12-16 18:21:17 +0000410
wdenkefe2a4d2004-12-16 21:44:03 +0000411 if ((spd_checksum & 0xff) != data[63]) {
412 printf ("### Error in SPD Checksum !!! Is_value: %2x should value %2x\n", (unsigned int) (spd_checksum & 0xff), data[63]);
413 hang ();
414 }
stroese771e05b2004-12-16 18:21:17 +0000415
wdenkefe2a4d2004-12-16 21:44:03 +0000416 else
417 printf ("SPD Checksum ok!\n");
stroese771e05b2004-12-16 18:21:17 +0000418#endif /* test-only */
419
420/*------------------------------------------------------------------------------------------------------------------------------*/
wdenkefe2a4d2004-12-16 21:44:03 +0000421 for (i = 2; i <= 35; i++) {
422 switch (i) {
423 case 2: /* Memory type (DDR / SDRAM) */
424 dimmInfo->memoryType = (data[i] == 0x7) ? DDR : SDRAM;
425#ifdef DEBUG
426 if (dimmInfo->memoryType == 0)
427 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200428 ("Dram_type in slot %d is: SDRAM\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000429 dimmInfo->slot));
430 if (dimmInfo->memoryType == 1)
431 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200432 ("Dram_type in slot %d is: DDRAM\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000433 dimmInfo->slot));
434#endif
435 break;
stroese771e05b2004-12-16 18:21:17 +0000436/*------------------------------------------------------------------------------------------------------------------------------*/
437
wdenkefe2a4d2004-12-16 21:44:03 +0000438 case 3: /* Number Of Row Addresses */
439 dimmInfo->numOfRowAddresses = data[i];
440 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200441 ("Module Number of row addresses: %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000442 dimmInfo->numOfRowAddresses));
443 break;
stroese771e05b2004-12-16 18:21:17 +0000444/*------------------------------------------------------------------------------------------------------------------------------*/
445
wdenkefe2a4d2004-12-16 21:44:03 +0000446 case 4: /* Number Of Column Addresses */
447 dimmInfo->numOfColAddresses = data[i];
448 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200449 ("Module Number of col addresses: %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000450 dimmInfo->numOfColAddresses));
451 break;
stroese771e05b2004-12-16 18:21:17 +0000452/*------------------------------------------------------------------------------------------------------------------------------*/
453
wdenkefe2a4d2004-12-16 21:44:03 +0000454 case 5: /* Number Of Module Banks */
455 dimmInfo->numOfModuleBanks = data[i];
456 DP (printf
457 ("Number of Banks on Mod. : %d\n",
458 dimmInfo->numOfModuleBanks));
459 break;
stroese771e05b2004-12-16 18:21:17 +0000460/*------------------------------------------------------------------------------------------------------------------------------*/
461
wdenkefe2a4d2004-12-16 21:44:03 +0000462 case 6: /* Data Width */
463 dimmInfo->dataWidth = data[i];
464 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200465 ("Module Data Width: %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000466 dimmInfo->dataWidth));
467 break;
stroese771e05b2004-12-16 18:21:17 +0000468/*------------------------------------------------------------------------------------------------------------------------------*/
469
wdenkefe2a4d2004-12-16 21:44:03 +0000470 case 8: /* Voltage Interface */
471 switch (data[i]) {
472 case 0x0:
473 dimmInfo->voltageInterface = TTL_5V_TOLERANT;
474 DP (printf
475 ("Module is TTL_5V_TOLERANT\n"));
476 break;
477 case 0x1:
478 dimmInfo->voltageInterface = LVTTL;
479 DP (printf
480 ("Module is LVTTL\n"));
481 break;
482 case 0x2:
483 dimmInfo->voltageInterface = HSTL_1_5V;
484 DP (printf
485 ("Module is TTL_5V_TOLERANT\n"));
486 break;
487 case 0x3:
488 dimmInfo->voltageInterface = SSTL_3_3V;
489 DP (printf
490 ("Module is HSTL_1_5V\n"));
491 break;
492 case 0x4:
493 dimmInfo->voltageInterface = SSTL_2_5V;
494 DP (printf
495 ("Module is SSTL_2_5V\n"));
496 break;
497 default:
498 dimmInfo->voltageInterface = VOLTAGE_UNKNOWN;
499 DP (printf
500 ("Module is VOLTAGE_UNKNOWN\n"));
501 break;
502 }
503 break;
stroese771e05b2004-12-16 18:21:17 +0000504/*------------------------------------------------------------------------------------------------------------------------------*/
505
wdenkefe2a4d2004-12-16 21:44:03 +0000506 case 9: /* Minimum Cycle Time At Max CasLatancy */
507 shift = (dimmInfo->memoryType == DDR) ? 4 : 2;
508 mult = (dimmInfo->memoryType == DDR) ? 10 : 25;
509 maskLeftOfPoint =
510 (dimmInfo->memoryType == DDR) ? 0xf0 : 0xfc;
511 maskRightOfPoint =
512 (dimmInfo->memoryType == DDR) ? 0xf : 0x03;
513 leftOfPoint = (data[i] & maskLeftOfPoint) >> shift;
514 rightOfPoint = (data[i] & maskRightOfPoint) * mult;
515 dimmInfo->minimumCycleTimeAtMaxCasLatancy_LoP =
516 leftOfPoint;
517 dimmInfo->minimumCycleTimeAtMaxCasLatancy_RoP =
518 rightOfPoint;
519 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200520 ("Minimum Cycle Time At Max CasLatancy: %d.%d [ns]\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000521 leftOfPoint, rightOfPoint));
522 break;
stroese771e05b2004-12-16 18:21:17 +0000523/*------------------------------------------------------------------------------------------------------------------------------*/
524
wdenkefe2a4d2004-12-16 21:44:03 +0000525 case 10: /* Clock To Data Out */
526 div = (dimmInfo->memoryType == DDR) ? 100 : 10;
527 time_tmp =
528 (((data[i] & 0xf0) >> 4) * 10) +
529 ((data[i] & 0x0f));
530 leftOfPoint = time_tmp / div;
531 rightOfPoint = time_tmp % div;
532 dimmInfo->clockToDataOut_LoP = leftOfPoint;
533 dimmInfo->clockToDataOut_RoP = rightOfPoint;
534 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200535 ("Clock To Data Out: %d.%2d [ns]\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000536 leftOfPoint, rightOfPoint));
537 /*dimmInfo->clockToDataOut */
538 break;
stroese771e05b2004-12-16 18:21:17 +0000539/*------------------------------------------------------------------------------------------------------------------------------*/
540
541#ifdef CONFIG_ECC
wdenkefe2a4d2004-12-16 21:44:03 +0000542 case 11: /* Error Check Type */
543 dimmInfo->errorCheckType = data[i];
544 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200545 ("Error Check Type (0=NONE): %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000546 dimmInfo->errorCheckType));
547 break;
stroese771e05b2004-12-16 18:21:17 +0000548#endif
549/*------------------------------------------------------------------------------------------------------------------------------*/
550
wdenkefe2a4d2004-12-16 21:44:03 +0000551 case 12: /* Refresh Interval */
552 dimmInfo->RefreshInterval = data[i];
553 DP (printf
554 ("RefreshInterval (80= Self refresh Normal, 15.625us) : %x\n",
555 dimmInfo->RefreshInterval));
556 break;
stroese771e05b2004-12-16 18:21:17 +0000557/*------------------------------------------------------------------------------------------------------------------------------*/
558
wdenkefe2a4d2004-12-16 21:44:03 +0000559 case 13: /* Sdram Width */
560 dimmInfo->sdramWidth = data[i];
561 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200562 ("Sdram Width: %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000563 dimmInfo->sdramWidth));
564 break;
stroese771e05b2004-12-16 18:21:17 +0000565/*------------------------------------------------------------------------------------------------------------------------------*/
566
wdenkefe2a4d2004-12-16 21:44:03 +0000567 case 14: /* Error Check Data Width */
568 dimmInfo->errorCheckDataWidth = data[i];
569 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200570 ("Error Check Data Width: %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000571 dimmInfo->errorCheckDataWidth));
572 break;
stroese771e05b2004-12-16 18:21:17 +0000573/*------------------------------------------------------------------------------------------------------------------------------*/
574
wdenkefe2a4d2004-12-16 21:44:03 +0000575 case 15: /* Minimum Clock Delay */
576 dimmInfo->minClkDelay = data[i];
577 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200578 ("Minimum Clock Delay: %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000579 dimmInfo->minClkDelay));
580 break;
stroese771e05b2004-12-16 18:21:17 +0000581/*------------------------------------------------------------------------------------------------------------------------------*/
582
wdenkefe2a4d2004-12-16 21:44:03 +0000583 case 16: /* Burst Length Supported */
584 /******-******-******-*******
585 * bit3 | bit2 | bit1 | bit0 *
586 *******-******-******-*******
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200587 burst length = * 8 | 4 | 2 | 1 *
wdenkefe2a4d2004-12-16 21:44:03 +0000588 *****************************
stroese771e05b2004-12-16 18:21:17 +0000589
wdenkefe2a4d2004-12-16 21:44:03 +0000590 If for example bit0 and bit2 are set, the burst
591 length supported are 1 and 4. */
stroese771e05b2004-12-16 18:21:17 +0000592
wdenkefe2a4d2004-12-16 21:44:03 +0000593 dimmInfo->burstLengthSupported = data[i];
stroese771e05b2004-12-16 18:21:17 +0000594#ifdef DEBUG
wdenkefe2a4d2004-12-16 21:44:03 +0000595 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200596 ("Burst Length Supported: "));
wdenkefe2a4d2004-12-16 21:44:03 +0000597 if (dimmInfo->burstLengthSupported & 0x01)
598 DP (printf ("1, "));
599 if (dimmInfo->burstLengthSupported & 0x02)
600 DP (printf ("2, "));
601 if (dimmInfo->burstLengthSupported & 0x04)
602 DP (printf ("4, "));
603 if (dimmInfo->burstLengthSupported & 0x08)
604 DP (printf ("8, "));
605 DP (printf (" Bit \n"));
stroese771e05b2004-12-16 18:21:17 +0000606#endif
wdenkefe2a4d2004-12-16 21:44:03 +0000607 break;
stroese771e05b2004-12-16 18:21:17 +0000608/*------------------------------------------------------------------------------------------------------------------------------*/
609
wdenkefe2a4d2004-12-16 21:44:03 +0000610 case 17: /* Number Of Banks On Each Device */
611 dimmInfo->numOfBanksOnEachDevice = data[i];
612 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200613 ("Number Of Banks On Each Chip: %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000614 dimmInfo->numOfBanksOnEachDevice));
615 break;
stroese771e05b2004-12-16 18:21:17 +0000616/*------------------------------------------------------------------------------------------------------------------------------*/
617
wdenkefe2a4d2004-12-16 21:44:03 +0000618 case 18: /* Suported Cas Latencies */
stroese771e05b2004-12-16 18:21:17 +0000619
wdenkefe2a4d2004-12-16 21:44:03 +0000620 /* DDR:
621 *******-******-******-******-******-******-******-*******
622 * bit7 | bit6 | bit5 | bit4 | bit3 | bit2 | bit1 | bit0 *
623 *******-******-******-******-******-******-******-*******
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200624 CAS = * TBD | TBD | 3.5 | 3 | 2.5 | 2 | 1.5 | 1 *
wdenkefe2a4d2004-12-16 21:44:03 +0000625 *********************************************************
626 SDRAM:
627 *******-******-******-******-******-******-******-*******
628 * bit7 | bit6 | bit5 | bit4 | bit3 | bit2 | bit1 | bit0 *
629 *******-******-******-******-******-******-******-*******
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200630 CAS = * TBD | 7 | 6 | 5 | 4 | 3 | 2 | 1 *
wdenkefe2a4d2004-12-16 21:44:03 +0000631 ********************************************************/
632 dimmInfo->suportedCasLatencies = data[i];
stroese771e05b2004-12-16 18:21:17 +0000633#ifdef DEBUG
wdenkefe2a4d2004-12-16 21:44:03 +0000634 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200635 ("Suported Cas Latencies: (CL) "));
wdenkefe2a4d2004-12-16 21:44:03 +0000636 if (dimmInfo->memoryType == 0) { /* SDRAM */
637 for (k = 0; k <= 7; k++) {
638 if (dimmInfo->
639 suportedCasLatencies & (1 << k))
640 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200641 ("%d, ",
wdenkefe2a4d2004-12-16 21:44:03 +0000642 k + 1));
643 }
stroese771e05b2004-12-16 18:21:17 +0000644
wdenkefe2a4d2004-12-16 21:44:03 +0000645 } else { /* DDR-RAM */
stroese771e05b2004-12-16 18:21:17 +0000646
wdenkefe2a4d2004-12-16 21:44:03 +0000647 if (dimmInfo->suportedCasLatencies & 1)
648 DP (printf ("1, "));
649 if (dimmInfo->suportedCasLatencies & 2)
650 DP (printf ("1.5, "));
651 if (dimmInfo->suportedCasLatencies & 4)
652 DP (printf ("2, "));
653 if (dimmInfo->suportedCasLatencies & 8)
654 DP (printf ("2.5, "));
655 if (dimmInfo->suportedCasLatencies & 16)
656 DP (printf ("3, "));
657 if (dimmInfo->suportedCasLatencies & 32)
658 DP (printf ("3.5, "));
659
660 }
661 DP (printf ("\n"));
stroese771e05b2004-12-16 18:21:17 +0000662#endif
wdenkefe2a4d2004-12-16 21:44:03 +0000663 /* Calculating MAX CAS latency */
664 for (j = 7; j > 0; j--) {
665 if (((dimmInfo->
666 suportedCasLatencies >> j) & 0x1) ==
667 1) {
668 switch (dimmInfo->memoryType) {
669 case DDR:
670 /* CAS latency 1, 1.5, 2, 2.5, 3, 3.5 */
671 switch (j) {
672 case 7:
673 DP (printf
674 ("Max. Cas Latencies (DDR): ERROR !!!\n"));
675 dimmInfo->
676 maxClSupported_DDR
677 =
678 DDR_CL_FAULT;
679 hang ();
680 break;
681 case 6:
682 DP (printf
683 ("Max. Cas Latencies (DDR): ERROR !!!\n"));
684 dimmInfo->
685 maxClSupported_DDR
686 =
687 DDR_CL_FAULT;
688 hang ();
689 break;
690 case 5:
691 DP (printf
692 ("Max. Cas Latencies (DDR): 3.5 clk's\n"));
693 dimmInfo->
694 maxClSupported_DDR
695 = DDR_CL_3_5;
696 break;
697 case 4:
698 DP (printf
699 ("Max. Cas Latencies (DDR): 3 clk's \n"));
700 dimmInfo->
701 maxClSupported_DDR
702 = DDR_CL_3;
703 break;
704 case 3:
705 DP (printf
706 ("Max. Cas Latencies (DDR): 2.5 clk's \n"));
707 dimmInfo->
708 maxClSupported_DDR
709 = DDR_CL_2_5;
710 break;
711 case 2:
712 DP (printf
713 ("Max. Cas Latencies (DDR): 2 clk's \n"));
714 dimmInfo->
715 maxClSupported_DDR
716 = DDR_CL_2;
717 break;
718 case 1:
719 DP (printf
720 ("Max. Cas Latencies (DDR): 1.5 clk's \n"));
721 dimmInfo->
722 maxClSupported_DDR
723 = DDR_CL_1_5;
724 break;
725 }
726 dimmInfo->
727 maxCASlatencySupported_LoP
728 =
729 1 +
730 (int) (5 * j / 10);
731 if (((5 * j) % 10) != 0)
732 dimmInfo->
733 maxCASlatencySupported_RoP
734 = 5;
735 else
736 dimmInfo->
737 maxCASlatencySupported_RoP
738 = 0;
739 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200740 ("Max. Cas Latencies (DDR LoP.RoP Notation): %d.%d \n",
wdenkefe2a4d2004-12-16 21:44:03 +0000741 dimmInfo->
742 maxCASlatencySupported_LoP,
743 dimmInfo->
744 maxCASlatencySupported_RoP));
745 break;
746 case SDRAM:
747 /* CAS latency 1, 2, 3, 4, 5, 6, 7 */
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200748 dimmInfo->maxClSupported_SD = j; /* Cas Latency DDR-RAM Coded */
wdenkefe2a4d2004-12-16 21:44:03 +0000749 DP (printf
750 ("Max. Cas Latencies (SD): %d\n",
751 dimmInfo->
752 maxClSupported_SD));
753 dimmInfo->
754 maxCASlatencySupported_LoP
755 = j;
756 dimmInfo->
757 maxCASlatencySupported_RoP
758 = 0;
759 DP (printf
760 ("Max. Cas Latencies (DDR LoP.RoP Notation): %d.%d \n",
761 dimmInfo->
762 maxCASlatencySupported_LoP,
763 dimmInfo->
764 maxCASlatencySupported_RoP));
765 break;
766 }
767 break;
768 }
769 }
770 break;
771/*------------------------------------------------------------------------------------------------------------------------------*/
772
773 case 21: /* Buffered Address And Control Inputs */
774 DP (printf ("\nModul Attributes (SPD Byte 21): \n"));
775 dimmInfo->bufferedAddrAndControlInputs =
776 data[i] & BIT0;
777 dimmInfo->registeredAddrAndControlInputs =
778 (data[i] & BIT1) >> 1;
779 dimmInfo->onCardPLL = (data[i] & BIT2) >> 2;
780 dimmInfo->bufferedDQMBinputs = (data[i] & BIT3) >> 3;
781 dimmInfo->registeredDQMBinputs =
782 (data[i] & BIT4) >> 4;
783 dimmInfo->differentialClockInput =
784 (data[i] & BIT5) >> 5;
785 dimmInfo->redundantRowAddressing =
786 (data[i] & BIT6) >> 6;
787#ifdef DEBUG
788 if (dimmInfo->bufferedAddrAndControlInputs == 1)
789 DP (printf
790 (" - Buffered Address/Control Input: Yes \n"));
791 else
792 DP (printf
793 (" - Buffered Address/Control Input: No \n"));
794
795 if (dimmInfo->registeredAddrAndControlInputs == 1)
796 DP (printf
797 (" - Registered Address/Control Input: Yes \n"));
798 else
799 DP (printf
800 (" - Registered Address/Control Input: No \n"));
801
802 if (dimmInfo->onCardPLL == 1)
803 DP (printf
804 (" - On-Card PLL (clock): Yes \n"));
805 else
806 DP (printf
807 (" - On-Card PLL (clock): No \n"));
808
809 if (dimmInfo->bufferedDQMBinputs == 1)
810 DP (printf
811 (" - Bufferd DQMB Inputs: Yes \n"));
812 else
813 DP (printf
814 (" - Bufferd DQMB Inputs: No \n"));
815
816 if (dimmInfo->registeredDQMBinputs == 1)
817 DP (printf
818 (" - Registered DQMB Inputs: Yes \n"));
819 else
820 DP (printf
821 (" - Registered DQMB Inputs: No \n"));
822
823 if (dimmInfo->differentialClockInput == 1)
824 DP (printf
825 (" - Differential Clock Input: Yes \n"));
826 else
827 DP (printf
828 (" - Differential Clock Input: No \n"));
829
830 if (dimmInfo->redundantRowAddressing == 1)
831 DP (printf
832 (" - redundant Row Addressing: Yes \n"));
833 else
834 DP (printf
835 (" - redundant Row Addressing: No \n"));
836
837#endif
838 break;
839/*------------------------------------------------------------------------------------------------------------------------------*/
840
841 case 22: /* Suported AutoPreCharge */
842 DP (printf ("\nModul Attributes (SPD Byte 22): \n"));
843 dimmInfo->suportedEarlyRasPreCharge = data[i] & BIT0;
844 dimmInfo->suportedAutoPreCharge =
845 (data[i] & BIT1) >> 1;
846 dimmInfo->suportedPreChargeAll =
847 (data[i] & BIT2) >> 2;
848 dimmInfo->suportedWrite1ReadBurst =
849 (data[i] & BIT3) >> 3;
850 dimmInfo->suported5PercentLowVCC =
851 (data[i] & BIT4) >> 4;
852 dimmInfo->suported5PercentUpperVCC =
853 (data[i] & BIT5) >> 5;
854#ifdef DEBUG
855 if (dimmInfo->suportedEarlyRasPreCharge == 1)
856 DP (printf
857 (" - Early Ras Precharge: Yes \n"));
858 else
859 DP (printf
860 (" - Early Ras Precharge: No \n"));
861
862 if (dimmInfo->suportedAutoPreCharge == 1)
863 DP (printf
864 (" - AutoPreCharge: Yes \n"));
865 else
866 DP (printf
867 (" - AutoPreCharge: No \n"));
868
869 if (dimmInfo->suportedPreChargeAll == 1)
870 DP (printf
871 (" - Precharge All: Yes \n"));
872 else
873 DP (printf
874 (" - Precharge All: No \n"));
875
876 if (dimmInfo->suportedWrite1ReadBurst == 1)
877 DP (printf
878 (" - Write 1/ReadBurst: Yes \n"));
879 else
880 DP (printf
881 (" - Write 1/ReadBurst: No \n"));
882
883 if (dimmInfo->suported5PercentLowVCC == 1)
884 DP (printf
885 (" - lower VCC tolerance: 5 Percent \n"));
886 else
887 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200888 (" - lower VCC tolerance: 10 Percent \n"));
wdenkefe2a4d2004-12-16 21:44:03 +0000889
890 if (dimmInfo->suported5PercentUpperVCC == 1)
891 DP (printf
892 (" - upper VCC tolerance: 5 Percent \n"));
893 else
894 DP (printf
895 (" - upper VCC tolerance: 10 Percent \n"));
896
897#endif
898 break;
899/*------------------------------------------------------------------------------------------------------------------------------*/
900
901 case 23: /* Minimum Cycle Time At Maximum Cas Latancy Minus 1 (2nd highest CL) */
902 shift = (dimmInfo->memoryType == DDR) ? 4 : 2;
903 mult = (dimmInfo->memoryType == DDR) ? 10 : 25;
904 maskLeftOfPoint =
905 (dimmInfo->memoryType == DDR) ? 0xf0 : 0xfc;
906 maskRightOfPoint =
907 (dimmInfo->memoryType == DDR) ? 0xf : 0x03;
908 leftOfPoint = (data[i] & maskLeftOfPoint) >> shift;
909 rightOfPoint = (data[i] & maskRightOfPoint) * mult;
910 dimmInfo->minimumCycleTimeAtMaxCasLatancyMinus1_LoP =
911 leftOfPoint;
912 dimmInfo->minimumCycleTimeAtMaxCasLatancyMinus1_RoP =
913 rightOfPoint;
914 DP (printf
915 ("Minimum Cycle Time At 2nd highest CasLatancy (0 = Not supported): %d.%d [ns]\n",
916 leftOfPoint, rightOfPoint));
917 /*dimmInfo->minimumCycleTimeAtMaxCasLatancy */
918 break;
919/*------------------------------------------------------------------------------------------------------------------------------*/
920
921 case 24: /* Clock To Data Out 2nd highest Cas Latency Value */
922 div = (dimmInfo->memoryType == DDR) ? 100 : 10;
923 time_tmp =
924 (((data[i] & 0xf0) >> 4) * 10) +
925 ((data[i] & 0x0f));
926 leftOfPoint = time_tmp / div;
927 rightOfPoint = time_tmp % div;
928 dimmInfo->clockToDataOutMinus1_LoP = leftOfPoint;
929 dimmInfo->clockToDataOutMinus1_RoP = rightOfPoint;
930 DP (printf
931 ("Clock To Data Out (2nd CL value): %d.%2d [ns]\n",
932 leftOfPoint, rightOfPoint));
933 break;
934/*------------------------------------------------------------------------------------------------------------------------------*/
935
936 case 25: /* Minimum Cycle Time At Maximum Cas Latancy Minus 2 (3rd highest CL) */
937 shift = (dimmInfo->memoryType == DDR) ? 4 : 2;
938 mult = (dimmInfo->memoryType == DDR) ? 10 : 25;
939 maskLeftOfPoint =
940 (dimmInfo->memoryType == DDR) ? 0xf0 : 0xfc;
941 maskRightOfPoint =
942 (dimmInfo->memoryType == DDR) ? 0xf : 0x03;
943 leftOfPoint = (data[i] & maskLeftOfPoint) >> shift;
944 rightOfPoint = (data[i] & maskRightOfPoint) * mult;
945 dimmInfo->minimumCycleTimeAtMaxCasLatancyMinus2_LoP =
946 leftOfPoint;
947 dimmInfo->minimumCycleTimeAtMaxCasLatancyMinus2_RoP =
948 rightOfPoint;
949 DP (printf
950 ("Minimum Cycle Time At 3rd highest CasLatancy (0 = Not supported): %d.%d [ns]\n",
951 leftOfPoint, rightOfPoint));
952 /*dimmInfo->minimumCycleTimeAtMaxCasLatancy */
953 break;
954/*------------------------------------------------------------------------------------------------------------------------------*/
955
956 case 26: /* Clock To Data Out 3rd highest Cas Latency Value */
957 div = (dimmInfo->memoryType == DDR) ? 100 : 10;
958 time_tmp =
959 (((data[i] & 0xf0) >> 4) * 10) +
960 ((data[i] & 0x0f));
961 leftOfPoint = time_tmp / div;
962 rightOfPoint = time_tmp % div;
963 dimmInfo->clockToDataOutMinus2_LoP = leftOfPoint;
964 dimmInfo->clockToDataOutMinus2_RoP = rightOfPoint;
965 DP (printf
966 ("Clock To Data Out (3rd CL value): %d.%2d [ns]\n",
967 leftOfPoint, rightOfPoint));
968 break;
969/*------------------------------------------------------------------------------------------------------------------------------*/
970
971 case 27: /* Minimum Row Precharge Time */
972 shift = (dimmInfo->memoryType == DDR) ? 2 : 0;
973 maskLeftOfPoint =
974 (dimmInfo->memoryType == DDR) ? 0xfc : 0xff;
975 maskRightOfPoint =
976 (dimmInfo->memoryType == DDR) ? 0x03 : 0x00;
977 leftOfPoint = ((data[i] & maskLeftOfPoint) >> shift);
978 rightOfPoint = (data[i] & maskRightOfPoint) * 25;
979
980 dimmInfo->minRowPrechargeTime = ((leftOfPoint * 100) + rightOfPoint); /* measured in n times 10ps Intervals */
981 trp_clocks =
982 (dimmInfo->minRowPrechargeTime +
983 (tmemclk - 1)) / tmemclk;
984 DP (printf
985 ("*** 1 clock cycle = %ld 10ps intervalls = %ld.%ld ns****\n",
986 tmemclk, tmemclk / 100, tmemclk % 100));
987 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +0200988 ("Minimum Row Precharge Time [ns]: %d.%2d = in Clk cycles %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +0000989 leftOfPoint, rightOfPoint, trp_clocks));
990 break;
991/*------------------------------------------------------------------------------------------------------------------------------*/
992
993 case 28: /* Minimum Row Active to Row Active Time */
994 shift = (dimmInfo->memoryType == DDR) ? 2 : 0;
995 maskLeftOfPoint =
996 (dimmInfo->memoryType == DDR) ? 0xfc : 0xff;
997 maskRightOfPoint =
998 (dimmInfo->memoryType == DDR) ? 0x03 : 0x00;
999 leftOfPoint = ((data[i] & maskLeftOfPoint) >> shift);
1000 rightOfPoint = (data[i] & maskRightOfPoint) * 25;
1001
1002 dimmInfo->minRowActiveRowActiveDelay = ((leftOfPoint * 100) + rightOfPoint); /* measured in 100ns Intervals */
1003 trrd_clocks =
1004 (dimmInfo->minRowActiveRowActiveDelay +
1005 (tmemclk - 1)) / tmemclk;
1006 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001007 ("Minimum Row Active -To- Row Active Delay [ns]: %d.%2d = in Clk cycles %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +00001008 leftOfPoint, rightOfPoint, trp_clocks));
1009 break;
1010/*------------------------------------------------------------------------------------------------------------------------------*/
1011
1012 case 29: /* Minimum Ras-To-Cas Delay */
1013 shift = (dimmInfo->memoryType == DDR) ? 2 : 0;
1014 maskLeftOfPoint =
1015 (dimmInfo->memoryType == DDR) ? 0xfc : 0xff;
1016 maskRightOfPoint =
1017 (dimmInfo->memoryType == DDR) ? 0x03 : 0x00;
1018 leftOfPoint = ((data[i] & maskLeftOfPoint) >> shift);
1019 rightOfPoint = (data[i] & maskRightOfPoint) * 25;
1020
1021 dimmInfo->minRowActiveRowActiveDelay = ((leftOfPoint * 100) + rightOfPoint); /* measured in 100ns Intervals */
1022 trcd_clocks =
1023 (dimmInfo->minRowActiveRowActiveDelay +
1024 (tmemclk - 1)) / tmemclk;
1025 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001026 ("Minimum Ras-To-Cas Delay [ns]: %d.%2d = in Clk cycles %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +00001027 leftOfPoint, rightOfPoint, trp_clocks));
1028 break;
1029/*------------------------------------------------------------------------------------------------------------------------------*/
1030
1031 case 30: /* Minimum Ras Pulse Width */
1032 dimmInfo->minRasPulseWidth = data[i];
1033 tras_clocks =
1034 (NSto10PS (data[i]) +
1035 (tmemclk - 1)) / tmemclk;
1036 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001037 ("Minimum Ras Pulse Width [ns]: %d = in Clk cycles %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +00001038 dimmInfo->minRasPulseWidth, tras_clocks));
1039
1040 break;
1041/*------------------------------------------------------------------------------------------------------------------------------*/
1042
1043 case 31: /* Module Bank Density */
1044 dimmInfo->moduleBankDensity = data[i];
1045 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001046 ("Module Bank Density: %d\n",
wdenkefe2a4d2004-12-16 21:44:03 +00001047 dimmInfo->moduleBankDensity));
1048#ifdef DEBUG
1049 DP (printf
1050 ("*** Offered Densities (more than 1 = Multisize-Module): "));
stroese771e05b2004-12-16 18:21:17 +00001051 {
wdenkefe2a4d2004-12-16 21:44:03 +00001052 if (dimmInfo->moduleBankDensity & 1)
1053 DP (printf ("4MB, "));
1054 if (dimmInfo->moduleBankDensity & 2)
1055 DP (printf ("8MB, "));
1056 if (dimmInfo->moduleBankDensity & 4)
1057 DP (printf ("16MB, "));
1058 if (dimmInfo->moduleBankDensity & 8)
1059 DP (printf ("32MB, "));
1060 if (dimmInfo->moduleBankDensity & 16)
1061 DP (printf ("64MB, "));
1062 if (dimmInfo->moduleBankDensity & 32)
1063 DP (printf ("128MB, "));
1064 if ((dimmInfo->moduleBankDensity & 64)
1065 || (dimmInfo->moduleBankDensity & 128)) {
1066 DP (printf ("ERROR, "));
1067 hang ();
1068 }
stroese771e05b2004-12-16 18:21:17 +00001069 }
wdenkefe2a4d2004-12-16 21:44:03 +00001070 DP (printf ("\n"));
1071#endif
1072 break;
1073/*------------------------------------------------------------------------------------------------------------------------------*/
1074
1075 case 32: /* Address And Command Setup Time (measured in ns/1000) */
1076 sign = 1;
1077 switch (dimmInfo->memoryType) {
1078 case DDR:
1079 time_tmp =
1080 (((data[i] & 0xf0) >> 4) * 10) +
1081 ((data[i] & 0x0f));
1082 leftOfPoint = time_tmp / 100;
1083 rightOfPoint = time_tmp % 100;
1084 break;
1085 case SDRAM:
1086 leftOfPoint = (data[i] & 0xf0) >> 4;
1087 if (leftOfPoint > 7) {
1088 leftOfPoint = data[i] & 0x70 >> 4;
1089 sign = -1;
1090 }
1091 rightOfPoint = (data[i] & 0x0f);
1092 break;
1093 }
1094 dimmInfo->addrAndCommandSetupTime =
1095 (leftOfPoint * 100 + rightOfPoint) * sign;
1096 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001097 ("Address And Command Setup Time [ns]: %d.%d\n",
wdenkefe2a4d2004-12-16 21:44:03 +00001098 sign * leftOfPoint, rightOfPoint));
1099 break;
1100/*------------------------------------------------------------------------------------------------------------------------------*/
1101
1102 case 33: /* Address And Command Hold Time */
1103 sign = 1;
1104 switch (dimmInfo->memoryType) {
1105 case DDR:
1106 time_tmp =
1107 (((data[i] & 0xf0) >> 4) * 10) +
1108 ((data[i] & 0x0f));
1109 leftOfPoint = time_tmp / 100;
1110 rightOfPoint = time_tmp % 100;
1111 break;
1112 case SDRAM:
1113 leftOfPoint = (data[i] & 0xf0) >> 4;
1114 if (leftOfPoint > 7) {
1115 leftOfPoint = data[i] & 0x70 >> 4;
1116 sign = -1;
1117 }
1118 rightOfPoint = (data[i] & 0x0f);
1119 break;
1120 }
1121 dimmInfo->addrAndCommandHoldTime =
1122 (leftOfPoint * 100 + rightOfPoint) * sign;
1123 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001124 ("Address And Command Hold Time [ns]: %d.%d\n",
wdenkefe2a4d2004-12-16 21:44:03 +00001125 sign * leftOfPoint, rightOfPoint));
1126 break;
1127/*------------------------------------------------------------------------------------------------------------------------------*/
1128
1129 case 34: /* Data Input Setup Time */
1130 sign = 1;
1131 switch (dimmInfo->memoryType) {
1132 case DDR:
1133 time_tmp =
1134 (((data[i] & 0xf0) >> 4) * 10) +
1135 ((data[i] & 0x0f));
1136 leftOfPoint = time_tmp / 100;
1137 rightOfPoint = time_tmp % 100;
1138 break;
1139 case SDRAM:
1140 leftOfPoint = (data[i] & 0xf0) >> 4;
1141 if (leftOfPoint > 7) {
1142 leftOfPoint = data[i] & 0x70 >> 4;
1143 sign = -1;
1144 }
1145 rightOfPoint = (data[i] & 0x0f);
1146 break;
1147 }
1148 dimmInfo->dataInputSetupTime =
1149 (leftOfPoint * 100 + rightOfPoint) * sign;
1150 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001151 ("Data Input Setup Time [ns]: %d.%d\n",
wdenkefe2a4d2004-12-16 21:44:03 +00001152 sign * leftOfPoint, rightOfPoint));
1153 break;
1154/*------------------------------------------------------------------------------------------------------------------------------*/
1155
1156 case 35: /* Data Input Hold Time */
1157 sign = 1;
1158 switch (dimmInfo->memoryType) {
1159 case DDR:
1160 time_tmp =
1161 (((data[i] & 0xf0) >> 4) * 10) +
1162 ((data[i] & 0x0f));
1163 leftOfPoint = time_tmp / 100;
1164 rightOfPoint = time_tmp % 100;
1165 break;
1166 case SDRAM:
1167 leftOfPoint = (data[i] & 0xf0) >> 4;
1168 if (leftOfPoint > 7) {
1169 leftOfPoint = data[i] & 0x70 >> 4;
1170 sign = -1;
1171 }
1172 rightOfPoint = (data[i] & 0x0f);
1173 break;
1174 }
1175 dimmInfo->dataInputHoldTime =
1176 (leftOfPoint * 100 + rightOfPoint) * sign;
1177 DP (printf
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001178 ("Data Input Hold Time [ns]: %d.%d\n\n",
wdenkefe2a4d2004-12-16 21:44:03 +00001179 sign * leftOfPoint, rightOfPoint));
1180 break;
1181/*------------------------------------------------------------------------------------------------------------------------------*/
stroese771e05b2004-12-16 18:21:17 +00001182 }
stroese771e05b2004-12-16 18:21:17 +00001183 }
wdenkefe2a4d2004-12-16 21:44:03 +00001184 /* calculating the sdram density */
1185 for (i = 0;
1186 i < dimmInfo->numOfRowAddresses + dimmInfo->numOfColAddresses;
1187 i++) {
1188 density = density * 2;
1189 }
1190 dimmInfo->deviceDensity = density * dimmInfo->numOfBanksOnEachDevice *
1191 dimmInfo->sdramWidth;
1192 dimmInfo->numberOfDevices =
1193 (dimmInfo->dataWidth / dimmInfo->sdramWidth) *
1194 dimmInfo->numOfModuleBanks;
1195 devicesForErrCheck =
1196 (dimmInfo->dataWidth - 64) / dimmInfo->sdramWidth;
1197 if ((dimmInfo->errorCheckType == 0x1)
1198 || (dimmInfo->errorCheckType == 0x2)
1199 || (dimmInfo->errorCheckType == 0x3)) {
1200 dimmInfo->size =
1201 (dimmInfo->deviceDensity / 8) *
1202 (dimmInfo->numberOfDevices - devicesForErrCheck);
1203 } else {
1204 dimmInfo->size =
1205 (dimmInfo->deviceDensity / 8) *
1206 dimmInfo->numberOfDevices;
1207 }
stroese771e05b2004-12-16 18:21:17 +00001208
wdenkefe2a4d2004-12-16 21:44:03 +00001209 /* compute the module DRB size */
1210 tmp = (1 <<
1211 (dimmInfo->numOfRowAddresses + dimmInfo->numOfColAddresses));
1212 tmp *= dimmInfo->numOfModuleBanks;
1213 tmp *= dimmInfo->sdramWidth;
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001214 tmp = tmp >> 24; /* div by 0x4000000 (64M) */
wdenkefe2a4d2004-12-16 21:44:03 +00001215 dimmInfo->drb_size = (uchar) tmp;
1216 DP (printf ("Module DRB size (n*64Mbit): %d\n", dimmInfo->drb_size));
stroese771e05b2004-12-16 18:21:17 +00001217
1218 /* try a CAS latency of 3 first... */
1219
1220 /* bit 1 is CL2, bit 2 is CL3 */
1221 supp_cal = (dimmInfo->suportedCasLatencies & 0x1c) >> 1;
1222
1223 cal_val = 0;
1224 if (supp_cal & 8) {
wdenkefe2a4d2004-12-16 21:44:03 +00001225 if (NS10to10PS (data[9]) <= tmemclk)
stroese771e05b2004-12-16 18:21:17 +00001226 cal_val = 6;
1227 }
1228 if (supp_cal & 4) {
wdenkefe2a4d2004-12-16 21:44:03 +00001229 if (NS10to10PS (data[9]) <= tmemclk)
stroese771e05b2004-12-16 18:21:17 +00001230 cal_val = 5;
1231 }
1232
1233 /* then 2... */
1234 if (supp_cal & 2) {
wdenkefe2a4d2004-12-16 21:44:03 +00001235 if (NS10to10PS (data[23]) <= tmemclk)
stroese771e05b2004-12-16 18:21:17 +00001236 cal_val = 4;
1237 }
1238
wdenkefe2a4d2004-12-16 21:44:03 +00001239 DP (printf ("cal_val = %d\n", cal_val * 5));
stroese771e05b2004-12-16 18:21:17 +00001240
1241 /* bummer, did't work... */
1242 if (cal_val == 0) {
wdenkefe2a4d2004-12-16 21:44:03 +00001243 DP (printf ("Couldn't find a good CAS latency\n"));
1244 hang ();
stroese771e05b2004-12-16 18:21:17 +00001245 return 0;
1246 }
1247
wdenkefe2a4d2004-12-16 21:44:03 +00001248 return true;
stroese771e05b2004-12-16 18:21:17 +00001249}
1250
1251/* sets up the GT properly with information passed in */
wdenkefe2a4d2004-12-16 21:44:03 +00001252int setup_sdram (AUX_MEM_DIMM_INFO * info)
stroese771e05b2004-12-16 18:21:17 +00001253{
Wolfgang Denkcdd917a2007-08-02 00:48:45 +02001254 ulong tmp;
wdenkefe2a4d2004-12-16 21:44:03 +00001255 ulong tmp_sdram_mode = 0; /* 0x141c */
1256 ulong tmp_dunit_control_low = 0; /* 0x1404 */
stroese771e05b2004-12-16 18:21:17 +00001257 int i;
1258
1259 /* sanity checking */
wdenkefe2a4d2004-12-16 21:44:03 +00001260 if (!info->numOfModuleBanks) {
1261 printf ("setup_sdram called with 0 banks\n");
stroese771e05b2004-12-16 18:21:17 +00001262 return 1;
1263 }
1264
1265 /* delay line */
1266
1267 /* Program the GT with the discovered data */
1268 if (info->registeredAddrAndControlInputs == true)
wdenkefe2a4d2004-12-16 21:44:03 +00001269 DP (printf
1270 ("Module is registered, but we do not support registered Modules !!!\n"));
stroese771e05b2004-12-16 18:21:17 +00001271
1272
1273 /* delay line */
wdenkefe2a4d2004-12-16 21:44:03 +00001274 set_dfcdlInit (); /* may be its not needed */
1275 DP (printf ("Delay line set done\n"));
stroese771e05b2004-12-16 18:21:17 +00001276
wdenkefe2a4d2004-12-16 21:44:03 +00001277 /* set SDRAM mode NOP */ /* To_do check it */
1278 GT_REG_WRITE (SDRAM_OPERATION, 0x5);
1279 while (GTREGREAD (SDRAM_OPERATION) != 0) {
1280 DP (printf
1281 ("\n*** SDRAM_OPERATION 1418: Module still busy ... please wait... ***\n"));
1282 }
stroese771e05b2004-12-16 18:21:17 +00001283
1284 /* SDRAM configuration */
wdenkefe2a4d2004-12-16 21:44:03 +00001285 GT_REG_WRITE (SDRAM_CONFIG, 0x58200400);
1286 DP (printf ("sdram_conf 0x1400: %08x\n", GTREGREAD (SDRAM_CONFIG)));
stroese771e05b2004-12-16 18:21:17 +00001287
wdenkefe2a4d2004-12-16 21:44:03 +00001288 /* SDRAM open pages controll keep open as much as I can */
1289 GT_REG_WRITE (SDRAM_OPEN_PAGES_CONTROL, 0x0);
1290 DP (printf
1291 ("sdram_open_pages_controll 0x1414: %08x\n",
1292 GTREGREAD (SDRAM_OPEN_PAGES_CONTROL)));
stroese771e05b2004-12-16 18:21:17 +00001293
1294
1295 /* SDRAM D_UNIT_CONTROL_LOW 0x1404 */
wdenkefe2a4d2004-12-16 21:44:03 +00001296 tmp = (GTREGREAD (D_UNIT_CONTROL_LOW) & 0x01); /* Clock Domain Sync from power on reset */
stroese771e05b2004-12-16 18:21:17 +00001297 if (tmp == 0)
wdenkefe2a4d2004-12-16 21:44:03 +00001298 DP (printf ("Core Signals are sync (by HW-Setting)!!!\n"));
stroese771e05b2004-12-16 18:21:17 +00001299 else
wdenkefe2a4d2004-12-16 21:44:03 +00001300 DP (printf
1301 ("Core Signals syncs. are bypassed (by HW-Setting)!!!\n"));
stroese771e05b2004-12-16 18:21:17 +00001302
wdenkefe2a4d2004-12-16 21:44:03 +00001303 /* SDRAM set CAS Lentency according to SPD information */
1304 switch (info->memoryType) {
1305 case SDRAM:
1306 DP (printf ("### SD-RAM not supported yet !!!\n"));
1307 hang ();
1308 /* ToDo fill SD-RAM if needed !!!!! */
stroese771e05b2004-12-16 18:21:17 +00001309 break;
1310
wdenkefe2a4d2004-12-16 21:44:03 +00001311 case DDR:
1312 DP (printf ("### SET-CL for DDR-RAM\n"));
stroese771e05b2004-12-16 18:21:17 +00001313
wdenkefe2a4d2004-12-16 21:44:03 +00001314 switch (info->maxClSupported_DDR) {
1315 case DDR_CL_3:
1316 tmp_dunit_control_low = 0x3c000000; /* Read-Data sampled on falling edge of Clk */
1317 tmp_sdram_mode = 0x32; /* CL=3 Burstlength = 4 */
1318 DP (printf
1319 ("Max. CL is 3 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
1320 tmp_sdram_mode, tmp_dunit_control_low));
1321 break;
stroese771e05b2004-12-16 18:21:17 +00001322
wdenkefe2a4d2004-12-16 21:44:03 +00001323 case DDR_CL_2_5:
1324 if (tmp == 1) { /* clocks sync */
1325 tmp_dunit_control_low = 0x24000000; /* Read-Data sampled on falling edge of Clk */
1326 tmp_sdram_mode = 0x62; /* CL=2,5 Burstlength = 4 */
1327 DP (printf
1328 ("Max. CL is 2,5s CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
1329 tmp_sdram_mode, tmp_dunit_control_low));
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001330 } else { /* clk sync. bypassed */
stroese771e05b2004-12-16 18:21:17 +00001331
wdenkefe2a4d2004-12-16 21:44:03 +00001332 tmp_dunit_control_low = 0x03000000; /* Read-Data sampled on rising edge of Clk */
1333 tmp_sdram_mode = 0x62; /* CL=2,5 Burstlength = 4 */
1334 DP (printf
1335 ("Max. CL is 2,5 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
1336 tmp_sdram_mode, tmp_dunit_control_low));
1337 }
1338 break;
1339
1340 case DDR_CL_2:
1341 if (tmp == 1) { /* Sync */
1342 tmp_dunit_control_low = 0x03000000; /* Read-Data sampled on rising edge of Clk */
1343 tmp_sdram_mode = 0x22; /* CL=2 Burstlength = 4 */
1344 DP (printf
1345 ("Max. CL is 2s CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
1346 tmp_sdram_mode, tmp_dunit_control_low));
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001347 } else { /* Not sync. */
wdenkefe2a4d2004-12-16 21:44:03 +00001348
1349 tmp_dunit_control_low = 0x3b000000; /* Read-Data sampled on rising edge of Clk */
1350 tmp_sdram_mode = 0x22; /* CL=2 Burstlength = 4 */
1351 DP (printf
1352 ("Max. CL is 2 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
1353 tmp_sdram_mode, tmp_dunit_control_low));
1354 }
1355 break;
1356
1357 case DDR_CL_1_5:
1358 if (tmp == 1) { /* Sync */
1359 tmp_dunit_control_low = 0x23000000; /* Read-Data sampled on falling edge of Clk */
1360 tmp_sdram_mode = 0x52; /* CL=1,5 Burstlength = 4 */
1361 DP (printf
1362 ("Max. CL is 1,5s CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
1363 tmp_sdram_mode, tmp_dunit_control_low));
1364 } else { /* not sync */
1365
1366 tmp_dunit_control_low = 0x1a000000; /* Read-Data sampled on rising edge of Clk */
1367 tmp_sdram_mode = 0x52; /* CL=1,5 Burstlength = 4 */
1368 DP (printf
1369 ("Max. CL is 1,5 CLKs 0x141c= %08lx, 0x1404 = %08lx\n",
1370 tmp_sdram_mode, tmp_dunit_control_low));
1371 }
1372 break;
1373
1374 default:
1375 printf ("Max. CL is out of range %d\n",
1376 info->maxClSupported_DDR);
1377 hang ();
1378 break;
1379 }
stroese771e05b2004-12-16 18:21:17 +00001380 break;
wdenkefe2a4d2004-12-16 21:44:03 +00001381 }
stroese771e05b2004-12-16 18:21:17 +00001382
1383 /* Write results of CL detection procedure */
wdenkefe2a4d2004-12-16 21:44:03 +00001384 GT_REG_WRITE (SDRAM_MODE, tmp_sdram_mode);
1385 /* set SDRAM mode SetCommand 0x1418 */
1386 GT_REG_WRITE (SDRAM_OPERATION, 0x3);
1387 while (GTREGREAD (SDRAM_OPERATION) != 0) {
1388 DP (printf
1389 ("\n*** SDRAM_OPERATION 1418 after SDRAM_MODE: Module still busy ... please wait... ***\n"));
1390 }
stroese771e05b2004-12-16 18:21:17 +00001391
1392
1393 /* SDRAM D_UNIT_CONTROL_LOW 0x1404 */
wdenkefe2a4d2004-12-16 21:44:03 +00001394 tmp = (GTREGREAD (D_UNIT_CONTROL_LOW) & 0x01); /* Clock Domain Sync from power on reset */
1395 if (tmp != 1) { /*clocks are not sync */
1396 /* asyncmode */
1397 GT_REG_WRITE (D_UNIT_CONTROL_LOW,
1398 (GTREGREAD (D_UNIT_CONTROL_LOW) & 0x7F) |
1399 0x18110780 | tmp_dunit_control_low);
1400 } else {
1401 /* syncmode */
1402 GT_REG_WRITE (D_UNIT_CONTROL_LOW,
1403 (GTREGREAD (D_UNIT_CONTROL_LOW) & 0x7F) |
1404 0x00110000 | tmp_dunit_control_low);
1405 }
stroese771e05b2004-12-16 18:21:17 +00001406
wdenkefe2a4d2004-12-16 21:44:03 +00001407 /* set SDRAM mode SetCommand 0x1418 */
1408 GT_REG_WRITE (SDRAM_OPERATION, 0x3);
1409 while (GTREGREAD (SDRAM_OPERATION) != 0) {
1410 DP (printf
1411 ("\n*** SDRAM_OPERATION 1418 after D_UNIT_CONTROL_LOW: Module still busy ... please wait... ***\n"));
1412 }
stroese771e05b2004-12-16 18:21:17 +00001413
1414/*------------------------------------------------------------------------------ */
1415
1416
1417 /* bank parameters */
1418 /* SDRAM address decode register */
1419 /* program this with the default value */
1420 tmp = 0x02;
1421
1422
wdenkefe2a4d2004-12-16 21:44:03 +00001423 DP (printf ("drb_size (n*64Mbit): %d\n", info->drb_size));
stroese771e05b2004-12-16 18:21:17 +00001424 switch (info->drb_size) {
wdenkefe2a4d2004-12-16 21:44:03 +00001425 case 1: /* 64 Mbit */
1426 case 2: /* 128 Mbit */
1427 DP (printf ("RAM-Device_size 64Mbit or 128Mbit)\n"));
stroese771e05b2004-12-16 18:21:17 +00001428 tmp |= (0x00 << 4);
1429 break;
wdenkefe2a4d2004-12-16 21:44:03 +00001430 case 4: /* 256 Mbit */
1431 case 8: /* 512 Mbit */
1432 DP (printf ("RAM-Device_size 256Mbit or 512Mbit)\n"));
stroese771e05b2004-12-16 18:21:17 +00001433 tmp |= (0x01 << 4);
1434 break;
wdenkefe2a4d2004-12-16 21:44:03 +00001435 case 16: /* 1 Gbit */
1436 case 32: /* 2 Gbit */
1437 DP (printf ("RAM-Device_size 1Gbit or 2Gbit)\n"));
stroese771e05b2004-12-16 18:21:17 +00001438 tmp |= (0x02 << 4);
1439 break;
1440 default:
wdenkefe2a4d2004-12-16 21:44:03 +00001441 printf ("Error in dram size calculation\n");
1442 DP (printf ("Assume: RAM-Device_size 1Gbit or 2Gbit)\n"));
stroese771e05b2004-12-16 18:21:17 +00001443 tmp |= (0x02 << 4);
1444 return 1;
1445 }
1446
1447 /* SDRAM bank parameters */
1448 /* the param registers for slot 1 (banks 2+3) are offset by 0x8 */
wdenkefe2a4d2004-12-16 21:44:03 +00001449 DP (printf
1450 ("setting up slot %d config with: %08lx \n", info->slot, tmp));
1451 GT_REG_WRITE (SDRAM_ADDR_CONTROL, tmp);
stroese771e05b2004-12-16 18:21:17 +00001452
1453/* ------------------------------------------------------------------------------ */
1454
wdenkefe2a4d2004-12-16 21:44:03 +00001455 DP (printf
1456 ("setting up sdram_timing_control_low with: %08x \n",
1457 0x11511220));
1458 GT_REG_WRITE (SDRAM_TIMING_CONTROL_LOW, 0x11511220);
stroese771e05b2004-12-16 18:21:17 +00001459
1460
1461/* ------------------------------------------------------------------------------ */
1462
1463 /* SDRAM configuration */
wdenkefe2a4d2004-12-16 21:44:03 +00001464 tmp = GTREGREAD (SDRAM_CONFIG);
stroese771e05b2004-12-16 18:21:17 +00001465
wdenkefe2a4d2004-12-16 21:44:03 +00001466 if (info->registeredAddrAndControlInputs
1467 || info->registeredDQMBinputs) {
1468 tmp |= (1 << 17);
1469 DP (printf
1470 ("SPD says: registered Addr. and Cont.: %d; registered DQMBinputs: %d\n",
1471 info->registeredAddrAndControlInputs,
1472 info->registeredDQMBinputs));
stroese771e05b2004-12-16 18:21:17 +00001473 }
1474
1475 /* Use buffer 1 to return read data to the CPU
1476 * Page 426 MV64360 */
1477 tmp |= (1 << 26);
wdenkefe2a4d2004-12-16 21:44:03 +00001478 DP (printf
1479 ("Before Buffer assignment - sdram_conf: %08x\n",
1480 GTREGREAD (SDRAM_CONFIG)));
1481 DP (printf
1482 ("After Buffer assignment - sdram_conf: %08x\n",
1483 GTREGREAD (SDRAM_CONFIG)));
stroese771e05b2004-12-16 18:21:17 +00001484
wdenkefe2a4d2004-12-16 21:44:03 +00001485 /* SDRAM timing To_do: */
stroese771e05b2004-12-16 18:21:17 +00001486
1487
wdenkefe2a4d2004-12-16 21:44:03 +00001488 tmp = GTREGREAD (SDRAM_TIMING_CONTROL_HIGH);
1489 DP (printf ("# sdram_timing_control_high is : %08lx \n", tmp));
stroese771e05b2004-12-16 18:21:17 +00001490
1491 /* SDRAM address decode register */
1492 /* program this with the default value */
wdenkefe2a4d2004-12-16 21:44:03 +00001493 tmp = GTREGREAD (SDRAM_ADDR_CONTROL);
1494 DP (printf
1495 ("SDRAM address control (before: decode): %08x ",
1496 GTREGREAD (SDRAM_ADDR_CONTROL)));
1497 GT_REG_WRITE (SDRAM_ADDR_CONTROL, (tmp | 0x2));
1498 DP (printf
1499 ("SDRAM address control (after: decode): %08x\n",
1500 GTREGREAD (SDRAM_ADDR_CONTROL)));
stroese771e05b2004-12-16 18:21:17 +00001501
1502 /* set the SDRAM configuration for each bank */
1503
1504/* for (i = info->slot * 2; i < ((info->slot * 2) + info->banks); i++) */
1505 {
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001506 int l, l1;
Stefan Roesed5ea2872007-01-31 16:38:04 +01001507
stroese771e05b2004-12-16 18:21:17 +00001508 i = info->slot;
wdenkefe2a4d2004-12-16 21:44:03 +00001509 DP (printf
1510 ("\n*** Running a MRS cycle for bank %d ***\n", i));
stroese771e05b2004-12-16 18:21:17 +00001511
1512 /* map the bank */
wdenkefe2a4d2004-12-16 21:44:03 +00001513 memory_map_bank (i, 0, GB / 4);
1514#if 1 /* test only */
stroese771e05b2004-12-16 18:21:17 +00001515
Stefan Roesed5ea2872007-01-31 16:38:04 +01001516 tmp = GTREGREAD (SDRAM_MODE);
1517 GT_REG_WRITE (EXTENDED_DRAM_MODE, 0x0);
1518 GT_REG_WRITE (SDRAM_OPERATION, 0x4);
1519 while (GTREGREAD (SDRAM_OPERATION) != 0) {
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001520 DP (printf
Stefan Roesed5ea2872007-01-31 16:38:04 +01001521 ("\n*** SDRAM_OPERATION 1418 after SDRAM_MODE: Module still busy ... please wait... ***\n"));
1522 }
1523
1524 GT_REG_WRITE (SDRAM_MODE, tmp | 0x80);
1525 GT_REG_WRITE (SDRAM_OPERATION, 0x3);
1526 while (GTREGREAD (SDRAM_OPERATION) != 0) {
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001527 DP (printf
Stefan Roesed5ea2872007-01-31 16:38:04 +01001528 ("\n*** SDRAM_OPERATION 1418 after SDRAM_MODE: Module still busy ... please wait... ***\n"));
1529 }
1530 l1 = 0;
1531 for (l=0;l<200;l++)
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001532 l1 += GTREGREAD (SDRAM_OPERATION);
Stefan Roesed5ea2872007-01-31 16:38:04 +01001533
1534 GT_REG_WRITE (SDRAM_MODE, tmp);
1535 GT_REG_WRITE (SDRAM_OPERATION, 0x3);
1536 while (GTREGREAD (SDRAM_OPERATION) != 0) {
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001537 DP (printf
Stefan Roesed5ea2872007-01-31 16:38:04 +01001538 ("\n*** SDRAM_OPERATION 1418 after SDRAM_MODE: Module still busy ... please wait... ***\n"));
1539 }
stroese771e05b2004-12-16 18:21:17 +00001540
1541 /* switch back to normal operation mode */
Stefan Roesed5ea2872007-01-31 16:38:04 +01001542 GT_REG_WRITE (SDRAM_OPERATION, 0x5);
1543 while (GTREGREAD (SDRAM_OPERATION) != 0) {
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001544 DP (printf
Stefan Roesed5ea2872007-01-31 16:38:04 +01001545 ("\n*** SDRAM_OPERATION 1418 after SDRAM_MODE: Module still busy ... please wait... ***\n"));
1546 }
1547
stroese771e05b2004-12-16 18:21:17 +00001548#endif /* test only */
1549 /* unmap the bank */
wdenkefe2a4d2004-12-16 21:44:03 +00001550 memory_map_bank (i, 0, 0);
stroese771e05b2004-12-16 18:21:17 +00001551 }
1552
1553 return 0;
1554}
1555
1556/*
1557 * Check memory range for valid RAM. A simple memory test determines
1558 * the actually available RAM size between addresses `base' and
1559 * `base + maxsize'. Some (not all) hardware errors are detected:
1560 * - short between address lines
1561 * - short between data lines
1562 */
1563long int
1564dram_size(long int *base, long int maxsize)
1565{
1566 volatile long int *addr, *b=base;
1567 long int cnt, val, save1, save2;
1568
1569#define STARTVAL (1<<20) /* start test at 1M */
1570 for (cnt = STARTVAL/sizeof(long); cnt < maxsize/sizeof(long); cnt <<= 1) {
1571 addr = base + cnt; /* pointer arith! */
1572
Wolfgang Denkd0ff51b2008-07-14 15:19:07 +02001573 save1 = *addr; /* save contents of addr */
1574 save2 = *b; /* save contents of base */
stroese771e05b2004-12-16 18:21:17 +00001575
1576 *addr=cnt; /* write cnt to addr */
1577 *b=0; /* put null at base */
1578
1579 /* check at base address */
1580 if ((*b) != 0) {
1581 *addr=save1; /* restore *addr */
1582 *b=save2; /* restore *b */
1583 return (0);
1584 }
1585 val = *addr; /* read *addr */
1586 val = *addr; /* read *addr */
1587
1588 *addr=save1;
1589 *b=save2;
1590
1591 if (val != cnt) {
wdenkefe2a4d2004-12-16 21:44:03 +00001592 DP(printf("Found %08x at Address %08x (failure)\n", (unsigned int)val, (unsigned int) addr));
stroese771e05b2004-12-16 18:21:17 +00001593 /* fix boundary condition.. STARTVAL means zero */
1594 if(cnt==STARTVAL/sizeof(long)) cnt=0;
1595 return (cnt * sizeof(long));
1596 }
1597 }
1598 return maxsize;
1599}
1600
1601/* ------------------------------------------------------------------------- */
1602
1603/* ppcboot interface function to SDRAM init - this is where all the
1604 * controlling logic happens */
Becky Bruce9973e3c2008-06-09 16:03:40 -05001605phys_size_t
stroese771e05b2004-12-16 18:21:17 +00001606initdram(int board_type)
1607{
1608 int s0 = 0, s1 = 0;
1609 int checkbank[4] = { [0 ... 3] = 0 };
wdenkefe2a4d2004-12-16 21:44:03 +00001610 ulong bank_no, realsize, total, check;
stroese771e05b2004-12-16 18:21:17 +00001611 AUX_MEM_DIMM_INFO dimmInfo1;
1612 AUX_MEM_DIMM_INFO dimmInfo2;
1613 int nhr;
1614
1615 /* first, use the SPD to get info about the SDRAM/ DDRRAM */
1616
1617 /* check the NHR bit and skip mem init if it's already done */
1618 nhr = get_hid0() & (1 << 16);
1619
1620 if (nhr) {
1621 printf("Skipping SD- DDRRAM setup due to NHR bit being set\n");
1622 } else {
1623 /* DIMM0 */
1624 s0 = check_dimm(0, &dimmInfo1);
1625
1626 /* DIMM1 */
1627 s1 = check_dimm(1, &dimmInfo2);
1628
1629 memory_map_bank(0, 0, 0);
1630 memory_map_bank(1, 0, 0);
1631 memory_map_bank(2, 0, 0);
1632 memory_map_bank(3, 0, 0);
1633
1634 if (dimmInfo1.numOfModuleBanks && setup_sdram(&dimmInfo1)) {
1635 printf("Setup for DIMM1 failed.\n");
1636 }
1637
1638 if (dimmInfo2.numOfModuleBanks && setup_sdram(&dimmInfo2)) {
1639 printf("Setup for DIMM2 failed.\n");
1640 }
1641
1642 /* set the NHR bit */
1643 set_hid0(get_hid0() | (1 << 16));
1644 }
1645 /* next, size the SDRAM banks */
1646
1647 realsize = total = 0;
1648 check = GB/4;
1649 if (dimmInfo1.numOfModuleBanks > 0) {checkbank[0] = 1; printf("-- DIMM1 has 1 bank\n");}
1650 if (dimmInfo1.numOfModuleBanks > 1) {checkbank[1] = 1; printf("-- DIMM1 has 2 banks\n");}
1651 if (dimmInfo1.numOfModuleBanks > 2)
1652 printf("Error, SPD claims DIMM1 has >2 banks\n");
1653
1654 if (dimmInfo2.numOfModuleBanks > 0) {checkbank[2] = 1; printf("-- DIMM2 has 1 bank\n");}
1655 if (dimmInfo2.numOfModuleBanks > 1) {checkbank[3] = 1; printf("-- DIMM2 has 2 banks\n");}
1656 if (dimmInfo2.numOfModuleBanks > 2)
1657 printf("Error, SPD claims DIMM2 has >2 banks\n");
1658
Jean-Christophe PLAGNIOL-VILLARD6d0f6bc2008-10-16 15:01:15 +02001659 for (bank_no = 0; bank_no < CONFIG_SYS_DRAM_BANKS; bank_no++) {
stroese771e05b2004-12-16 18:21:17 +00001660 /* skip over banks that are not populated */
1661 if (! checkbank[bank_no])
1662 continue;
1663
Jean-Christophe PLAGNIOL-VILLARD6d0f6bc2008-10-16 15:01:15 +02001664 if ((total + check) > CONFIG_SYS_GT_REGS)
1665 check = CONFIG_SYS_GT_REGS - total;
stroese771e05b2004-12-16 18:21:17 +00001666
1667 memory_map_bank(bank_no, total, check);
1668 realsize = dram_size((long int *)total, check);
1669 memory_map_bank(bank_no, total, realsize);
1670
1671 total += realsize;
1672 }
1673
1674/* Setup Ethernet DMA Adress window to DRAM Area */
wdenkefe2a4d2004-12-16 21:44:03 +00001675 return(total);
stroese771e05b2004-12-16 18:21:17 +00001676}
1677
1678/* ***************************************************************************************
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001679! * SDRAM INIT *
1680! * This procedure detect all Sdram types: 64, 128, 256, 512 Mbit, 1Gbit and 2Gb *
1681! * This procedure fits only the Atlantis *
1682! * *
stroese771e05b2004-12-16 18:21:17 +00001683! *************************************************************************************** */
1684
1685
1686/* ***************************************************************************************
Wolfgang Denk53677ef2008-05-20 16:00:29 +02001687! * DFCDL initialize MV643xx Design Considerations *
1688! * *
stroese771e05b2004-12-16 18:21:17 +00001689! *************************************************************************************** */
wdenkefe2a4d2004-12-16 21:44:03 +00001690int set_dfcdlInit (void)
stroese771e05b2004-12-16 18:21:17 +00001691{
wdenkefe2a4d2004-12-16 21:44:03 +00001692 int i;
1693 unsigned int dfcdl_word = 0x0000014f;
1694
1695 for (i = 0; i < 64; i++) {
1696 GT_REG_WRITE (SRAM_DATA0, dfcdl_word);
1697 }
1698 GT_REG_WRITE (DFCDL_CONFIG0, 0x00300000); /* enable dynamic delay line updating */
stroese771e05b2004-12-16 18:21:17 +00001699
1700
wdenkefe2a4d2004-12-16 21:44:03 +00001701 return (0);
stroese771e05b2004-12-16 18:21:17 +00001702}