blob: d4ff442175bba037b2cae373719bcb0248f0b3e0 [file] [log] [blame]
Tom Rini83d290c2018-05-06 17:58:06 -04001// SPDX-License-Identifier: GPL-2.0+
Vitaly Andrianovd9a76e72016-03-04 10:36:42 -06002/*
3 * Keystone2: DDR3 SPD configuration
4 *
5 * (C) Copyright 2015-2016 Texas Instruments Incorporated, <www.ti.com>
Vitaly Andrianovd9a76e72016-03-04 10:36:42 -06006 */
7
Simon Glassf7ae49f2020-05-10 11:40:05 -06008#include <log.h>
Andrew Davis53a23002023-11-17 16:38:29 -06009#include <string.h>
Vitaly Andrianovd9a76e72016-03-04 10:36:42 -060010
11#include <i2c.h>
12#include <ddr_spd.h>
13#include <asm/arch/ddr3.h>
14#include <asm/arch/hardware.h>
15
16#define DUMP_DDR_CONFIG 0 /* set to 1 to debug */
17#define debug_ddr_cfg(fmt, args...) \
18 debug_cond(DUMP_DDR_CONFIG, fmt, ##args)
19
20static void dump_phy_config(struct ddr3_phy_config *ptr)
21{
22 debug_ddr_cfg("\npllcr 0x%08X\n", ptr->pllcr);
23 debug_ddr_cfg("pgcr1_mask 0x%08X\n", ptr->pgcr1_mask);
24 debug_ddr_cfg("pgcr1_val 0x%08X\n", ptr->pgcr1_val);
25 debug_ddr_cfg("ptr0 0x%08X\n", ptr->ptr0);
26 debug_ddr_cfg("ptr1 0x%08X\n", ptr->ptr1);
27 debug_ddr_cfg("ptr2 0x%08X\n", ptr->ptr2);
28 debug_ddr_cfg("ptr3 0x%08X\n", ptr->ptr3);
29 debug_ddr_cfg("ptr4 0x%08X\n", ptr->ptr4);
30 debug_ddr_cfg("dcr_mask 0x%08X\n", ptr->dcr_mask);
31 debug_ddr_cfg("dcr_val 0x%08X\n", ptr->dcr_val);
32 debug_ddr_cfg("dtpr0 0x%08X\n", ptr->dtpr0);
33 debug_ddr_cfg("dtpr1 0x%08X\n", ptr->dtpr1);
34 debug_ddr_cfg("dtpr2 0x%08X\n", ptr->dtpr2);
35 debug_ddr_cfg("mr0 0x%08X\n", ptr->mr0);
36 debug_ddr_cfg("mr1 0x%08X\n", ptr->mr1);
37 debug_ddr_cfg("mr2 0x%08X\n", ptr->mr2);
38 debug_ddr_cfg("dtcr 0x%08X\n", ptr->dtcr);
39 debug_ddr_cfg("pgcr2 0x%08X\n", ptr->pgcr2);
40 debug_ddr_cfg("zq0cr1 0x%08X\n", ptr->zq0cr1);
41 debug_ddr_cfg("zq1cr1 0x%08X\n", ptr->zq1cr1);
42 debug_ddr_cfg("zq2cr1 0x%08X\n", ptr->zq2cr1);
43 debug_ddr_cfg("pir_v1 0x%08X\n", ptr->pir_v1);
44 debug_ddr_cfg("pir_v2 0x%08X\n\n", ptr->pir_v2);
45};
46
47static void dump_emif_config(struct ddr3_emif_config *ptr)
48{
49 debug_ddr_cfg("\nsdcfg 0x%08X\n", ptr->sdcfg);
50 debug_ddr_cfg("sdtim1 0x%08X\n", ptr->sdtim1);
51 debug_ddr_cfg("sdtim2 0x%08X\n", ptr->sdtim2);
52 debug_ddr_cfg("sdtim3 0x%08X\n", ptr->sdtim3);
53 debug_ddr_cfg("sdtim4 0x%08X\n", ptr->sdtim4);
54 debug_ddr_cfg("zqcfg 0x%08X\n", ptr->zqcfg);
55 debug_ddr_cfg("sdrfc 0x%08X\n\n", ptr->sdrfc);
56};
57
58#define TEMP NORMAL_TEMP
59#define VBUS_CLKPERIOD 1.875 /* Corresponds to vbus=533MHz, */
60#define PLLGS_VAL (4000.0 / VBUS_CLKPERIOD) /* 4 us */
61#define PLLPD_VAL (1000.0 / VBUS_CLKPERIOD) /* 1 us */
62#define PLLLOCK_VAL (100000.0 / VBUS_CLKPERIOD) /* 100 us */
63#define PLLRST_VAL (9000.0 / VBUS_CLKPERIOD) /* 9 us */
64#define PHYRST_VAL 0x10
65#define DDR_TERM RZQ_4_TERM
66#define SDRAM_DRIVE RZQ_7_IMP
67#define DYN_ODT ODT_DISABLE
68
69enum srt {
70 NORMAL_TEMP,
71 EXTENDED_TEMP
72};
73
74enum out_impedance {
75 RZQ_6_IMP = 0,
76 RZQ_7_IMP
77};
78
79enum die_term {
80 ODT_DISABLE = 0,
81 RZQ_4_TERM,
82 RZQ_2_TERM,
83 RZQ_6_TERM,
84 RZQ_12_TERM,
85 RZQ_8_TERM
86};
87
88struct ddr3_sodimm {
89 u32 t_ck;
90 u32 freqsel;
91 u32 t_xp;
92 u32 t_cke;
93 u32 t_pllpd;
94 u32 t_pllgs;
95 u32 t_phyrst;
96 u32 t_plllock;
97 u32 t_pllrst;
98 u32 t_rfc;
99 u32 t_xs;
100 u32 t_dinit0;
101 u32 t_dinit1;
102 u32 t_dinit2;
103 u32 t_dinit3;
104 u32 t_rtp;
105 u32 t_wtr;
106 u32 t_rp;
107 u32 t_rcd;
108 u32 t_ras;
109 u32 t_rrd;
110 u32 t_rc;
111 u32 t_faw;
112 u32 t_mrd;
113 u32 t_mod;
114 u32 t_wlo;
115 u32 t_wlmrd;
116 u32 t_xsdll;
117 u32 t_xpdll;
118 u32 t_ckesr;
119 u32 t_dllk;
120 u32 t_wr;
121 u32 t_wr_bin;
122 u32 cas;
123 u32 cwl;
124 u32 asr;
125 u32 pasr;
126 u32 t_refprd;
127 u8 sdram_type;
128 u8 ibank;
129 u8 pagesize;
130 u8 t_rrd2;
131 u8 t_ras_max;
132 u8 t_zqcs;
133 u32 refresh_rate;
134 u8 t_csta;
135
136 u8 rank;
137 u8 mirrored;
138 u8 buswidth;
139};
140
141static u8 cas_latancy(u16 temp)
142{
143 int loop;
144 u8 cas_bin = 0;
145
146 for (loop = 0; loop < 32; loop += 2, temp >>= 1) {
147 if (temp & 0x0001)
148 cas_bin = (loop > 15) ? loop - 15 : loop;
149 }
150
151 return cas_bin;
152}
153
154static int ddr3_get_size_in_mb(ddr3_spd_eeprom_t *buf)
155{
156 return (((buf->organization & 0x38) >> 3) + 1) *
157 (256 << (buf->density_banks & 0xf));
158}
159
160static int ddrtimingcalculation(ddr3_spd_eeprom_t *buf, struct ddr3_sodimm *spd,
161 struct ddr3_spd_cb *spd_cb)
162{
163 u32 mtb, clk_freq;
164
165 if ((buf->mem_type != 0x0b) ||
166 ((buf->density_banks & 0x70) != 0x00))
167 return 1;
168
169 spd->sdram_type = 0x03;
170 spd->ibank = 0x03;
171
172 mtb = buf->mtb_dividend * 1000 / buf->mtb_divisor;
173
174 spd->t_ck = buf->tck_min * mtb;
175
176 spd_cb->ddrspdclock = 2000000 / spd->t_ck;
177 clk_freq = spd_cb->ddrspdclock / 2;
178
179 spd->rank = ((buf->organization & 0x38) >> 3) + 1;
180 if (spd->rank > 2)
181 return 1;
182
183 spd->pagesize = (buf->addressing & 0x07) + 1;
184 if (spd->pagesize > 3)
185 return 1;
186
187 spd->buswidth = 8 << (buf->bus_width & 0x7);
188 if ((spd->buswidth < 16) || (spd->buswidth > 64))
189 return 1;
190
191 spd->mirrored = buf->mod_section.unbuffered.addr_mapping & 1;
192
193 printf("DDR3A Speed will be configured for %d Operation.\n",
194 spd_cb->ddrspdclock);
195 if (spd_cb->ddrspdclock == 1333) {
196 spd->t_xp = ((3 * spd->t_ck) > 6000) ?
197 3 : ((5999 / spd->t_ck) + 1);
198 spd->t_cke = ((3 * spd->t_ck) > 5625) ?
199 3 : ((5624 / spd->t_ck) + 1);
200 } else if (spd_cb->ddrspdclock == 1600) {
201 spd->t_xp = ((3 * spd->t_ck) > 6000) ?
202 3 : ((5999 / spd->t_ck) + 1);
203 spd->t_cke = ((3 * spd->t_ck) > 5000) ?
204 3 : ((4999 / spd->t_ck) + 1);
205 } else {
206 printf("Unsupported DDR3 speed %d\n", spd_cb->ddrspdclock);
207 return 1;
208 }
209
210 spd->t_xpdll = (spd->t_ck > 2400) ? 10 : 24000 / spd->t_ck;
211 spd->t_ckesr = spd->t_cke + 1;
212
213 /* SPD Calculated Values */
214 spd->cas = cas_latancy((buf->caslat_msb << 8) |
215 buf->caslat_lsb);
216
217 spd->t_wr = (buf->twr_min * mtb) / spd->t_ck;
218 spd->t_wr_bin = (spd->t_wr / 2) & 0x07;
219
220 spd->t_rcd = ((buf->trcd_min * mtb) - 1) / spd->t_ck + 1;
221 spd->t_rrd = ((buf->trrd_min * mtb) - 1) / spd->t_ck + 1;
222 spd->t_rp = (((buf->trp_min * mtb) - 1) / spd->t_ck) + 1;
223
224 spd->t_ras = (((buf->tras_trc_ext & 0x0f) << 8 | buf->tras_min_lsb) *
225 mtb) / spd->t_ck;
226
227 spd->t_rc = (((((buf->tras_trc_ext & 0xf0) << 4) | buf->trc_min_lsb) *
228 mtb) - 1) / spd->t_ck + 1;
229
230 spd->t_rfc = (buf->trfc_min_lsb | (buf->trfc_min_msb << 8)) * mtb /
231 1000;
232 spd->t_wtr = (buf->twtr_min * mtb) / spd->t_ck;
233 spd->t_rtp = (buf->trtp_min * mtb) / spd->t_ck;
234
235 spd->t_xs = (((spd->t_rfc + 10) * 1000) / spd->t_ck);
236 spd->t_rfc = ((spd->t_rfc * 1000) - 1) / spd->t_ck + 1;
237
238 spd->t_faw = (((buf->tfaw_msb << 8) | buf->tfaw_min) * mtb) / spd->t_ck;
239 spd->t_rrd2 = ((((buf->tfaw_msb << 8) |
240 buf->tfaw_min) * mtb) / (4 * spd->t_ck)) - 1;
241
242 /* Hard-coded values */
243 spd->t_mrd = 0x00;
244 spd->t_mod = 0x00;
245 spd->t_wlo = 0x0C;
246 spd->t_wlmrd = 0x28;
247 spd->t_xsdll = 0x200;
248 spd->t_ras_max = 0x0F;
249 spd->t_csta = 0x05;
250 spd->t_dllk = 0x200;
251
252 /* CAS Write Latency */
253 if (spd->t_ck >= 2500)
254 spd->cwl = 0;
255 else if (spd->t_ck >= 1875)
256 spd->cwl = 1;
257 else if (spd->t_ck >= 1500)
258 spd->cwl = 2;
259 else if (spd->t_ck >= 1250)
260 spd->cwl = 3;
261 else if (spd->t_ck >= 1071)
262 spd->cwl = 4;
263 else
264 spd->cwl = 5;
265
266 /* SD:RAM Thermal and Refresh Options */
267 spd->asr = (buf->therm_ref_opt & 0x04) >> 2;
268 spd->pasr = (buf->therm_ref_opt & 0x80) >> 7;
269 spd->t_zqcs = 64;
270
271 spd->t_refprd = (TEMP == NORMAL_TEMP) ? 7812500 : 3906250;
272 spd->t_refprd = spd->t_refprd / spd->t_ck;
273
274 spd->refresh_rate = spd->t_refprd;
275 spd->t_refprd = spd->t_refprd * 5;
276
277 /* Set MISC PHY space registers fields */
278 if ((clk_freq / 2) >= 166 && (clk_freq / 2 < 275))
279 spd->freqsel = 0x03;
280 else if ((clk_freq / 2) > 225 && (clk_freq / 2 < 385))
281 spd->freqsel = 0x01;
282 else if ((clk_freq / 2) > 335 && (clk_freq / 2 < 534))
283 spd->freqsel = 0x00;
284
285 spd->t_dinit0 = 500000000 / spd->t_ck; /* CKE low time 500 us */
286 spd->t_dinit1 = spd->t_xs;
287 spd->t_dinit2 = 200000000 / spd->t_ck; /* Reset low time 200 us */
288 /* Time from ZQ initialization command to first command (1 us) */
289 spd->t_dinit3 = 1000000 / spd->t_ck;
290
291 spd->t_pllgs = PLLGS_VAL + 1;
292 spd->t_pllpd = PLLPD_VAL + 1;
293 spd->t_plllock = PLLLOCK_VAL + 1;
294 spd->t_pllrst = PLLRST_VAL;
295 spd->t_phyrst = PHYRST_VAL;
296
297 spd_cb->ddr_size_gbyte = ddr3_get_size_in_mb(buf) / 1024;
298
299 return 0;
300}
301
302static void init_ddr3param(struct ddr3_spd_cb *spd_cb,
303 struct ddr3_sodimm *spd)
304{
305 spd_cb->phy_cfg.pllcr = (spd->freqsel & 3) << 18 | 0xE << 13;
306 spd_cb->phy_cfg.pgcr1_mask = (IODDRM_MASK | ZCKSEL_MASK);
307 spd_cb->phy_cfg.pgcr1_val = ((1 << 2) | (1 << 7) | (1 << 23));
308 spd_cb->phy_cfg.ptr0 = ((spd->t_pllpd & 0x7ff) << 21) |
309 ((spd->t_pllgs & 0x7fff) << 6) | (spd->t_phyrst & 0x3f);
310 spd_cb->phy_cfg.ptr1 = ((spd->t_plllock & 0xffff) << 16) |
311 (spd->t_pllrst & 0x1fff);
312 spd_cb->phy_cfg.ptr2 = 0;
313 spd_cb->phy_cfg.ptr3 = ((spd->t_dinit1 & 0x1ff) << 20) |
314 (spd->t_dinit0 & 0xfffff);
315 spd_cb->phy_cfg.ptr4 = ((spd->t_dinit3 & 0x3ff) << 18) |
316 (spd->t_dinit2 & 0x3ffff);
317
318 spd_cb->phy_cfg.dcr_mask = PDQ_MASK | MPRDQ_MASK | BYTEMASK_MASK;
319 spd_cb->phy_cfg.dcr_val = 1 << 10;
320
321 if (spd->mirrored) {
322 spd_cb->phy_cfg.dcr_mask |= NOSRA_MASK | UDIMM_MASK;
323 spd_cb->phy_cfg.dcr_val |= (1 << 27) | (1 << 29);
324 }
325
326 spd_cb->phy_cfg.dtpr0 = (spd->t_rc & 0x3f) << 26 |
327 (spd->t_rrd & 0xf) << 22 |
328 (spd->t_ras & 0x3f) << 16 | (spd->t_rcd & 0xf) << 12 |
329 (spd->t_rp & 0xf) << 8 | (spd->t_wtr & 0xf) << 4 |
330 (spd->t_rtp & 0xf);
331 spd_cb->phy_cfg.dtpr1 = (spd->t_wlo & 0xf) << 26 |
332 (spd->t_wlmrd & 0x3f) << 20 | (spd->t_rfc & 0x1ff) << 11 |
333 (spd->t_faw & 0x3f) << 5 | (spd->t_mod & 0x7) << 2 |
334 (spd->t_mrd & 0x3);
335
336 spd_cb->phy_cfg.dtpr2 = 0 << 31 | 1 << 30 | 0 << 29 |
337 (spd->t_dllk & 0x3ff) << 19 | (spd->t_ckesr & 0xf) << 15;
338
339 spd_cb->phy_cfg.dtpr2 |= (((spd->t_xp > spd->t_xpdll) ?
340 spd->t_xp : spd->t_xpdll) &
341 0x1f) << 10;
342
343 spd_cb->phy_cfg.dtpr2 |= (((spd->t_xs > spd->t_xsdll) ?
344 spd->t_xs : spd->t_xsdll) &
345 0x3ff);
346
347 spd_cb->phy_cfg.mr0 = 1 << 12 | (spd->t_wr_bin & 0x7) << 9 | 0 << 8 |
348 0 << 7 | ((spd->cas & 0x0E) >> 1) << 4 | 0 << 3 |
349 (spd->cas & 0x01) << 2;
350
351 spd_cb->phy_cfg.mr1 = 0 << 12 | 0 << 11 | 0 << 7 | 0 << 3 |
352 ((DDR_TERM >> 2) & 1) << 9 | ((DDR_TERM >> 1) & 1) << 6 |
353 (DDR_TERM & 0x1) << 2 | ((SDRAM_DRIVE >> 1) & 1) << 5 |
354 (SDRAM_DRIVE & 1) << 1 | 0 << 0;
355
356 spd_cb->phy_cfg.mr2 = DYN_ODT << 9 | TEMP << 7 | (spd->asr & 1) << 6 |
357 (spd->cwl & 7) << 3 | (spd->pasr & 7);
358
359 spd_cb->phy_cfg.dtcr = (spd->rank == 2) ? 0x730035C7 : 0x710035C7;
360 spd_cb->phy_cfg.pgcr2 = (0xF << 20) | ((int)spd->t_refprd & 0x3ffff);
361
362 spd_cb->phy_cfg.zq0cr1 = 0x0000005D;
363 spd_cb->phy_cfg.zq1cr1 = 0x0000005B;
364 spd_cb->phy_cfg.zq2cr1 = 0x0000005B;
365
366 spd_cb->phy_cfg.pir_v1 = 0x00000033;
367 spd_cb->phy_cfg.pir_v2 = 0x0000FF81;
368
369 /* EMIF Registers */
370 spd_cb->emif_cfg.sdcfg = spd->sdram_type << 29 | (DDR_TERM & 7) << 25 |
371 (DYN_ODT & 3) << 22 | (spd->cwl & 0x7) << 14 |
372 (spd->cas & 0xf) << 8 | (spd->ibank & 3) << 5 |
373 (spd->buswidth & 3) << 12 | (spd->pagesize & 3);
374
375 if (spd->rank == 2)
376 spd_cb->emif_cfg.sdcfg |= 1 << 3;
377
378 spd_cb->emif_cfg.sdtim1 = ((spd->t_wr - 1) & 0x1f) << 25 |
379 ((spd->t_ras - 1) & 0x7f) << 18 |
380 ((spd->t_rc - 1) & 0xff) << 10 |
381 (spd->t_rrd2 & 0x3f) << 4 |
382 ((spd->t_wtr - 1) & 0xf);
383
384 spd_cb->emif_cfg.sdtim2 = 0x07 << 10 | ((spd->t_rp - 1) & 0x1f) << 5 |
385 ((spd->t_rcd - 1) & 0x1f);
386
387 spd_cb->emif_cfg.sdtim3 = ((spd->t_xp - 2) & 0xf) << 28 |
388 ((spd->t_xs - 1) & 0x3ff) << 18 |
389 ((spd->t_xsdll - 1) & 0x3ff) << 8 |
390 ((spd->t_rtp - 1) & 0xf) << 4 | ((spd->t_cke) & 0xf);
391
392 spd_cb->emif_cfg.sdtim4 = (spd->t_csta & 0xf) << 28 |
393 ((spd->t_ckesr - 1) & 0xf) << 24 |
394 ((spd->t_zqcs - 1) & 0xff) << 16 |
395 ((spd->t_rfc - 1) & 0x3ff) << 4 |
396 (spd->t_ras_max & 0xf);
397
398 spd_cb->emif_cfg.sdrfc = (spd->refresh_rate - 1) & 0xffff;
399
400 /* TODO zqcfg value fixed ,May be required correction for K2E evm. */
401 spd_cb->emif_cfg.zqcfg = (spd->rank == 2) ? 0xF0073200 : 0x70073200;
402}
403
404static int ddr3_read_spd(ddr3_spd_eeprom_t *spd_params)
405{
406 int ret;
Jean-Jacques Hiblot15142442018-12-07 14:50:49 +0100407 struct udevice *dev;
Vitaly Andrianovd9a76e72016-03-04 10:36:42 -0600408
Jean-Jacques Hiblot15142442018-12-07 14:50:49 +0100409 ret = i2c_get_chip_for_busnum(1, 0x53, 1, &dev);
410 if (!ret)
411 ret = dm_i2c_read(dev, 0, (unsigned char *)spd_params, 256);
Vitaly Andrianovd9a76e72016-03-04 10:36:42 -0600412 if (ret) {
413 printf("Cannot read DIMM params\n");
414 return 1;
415 }
416
417 if (ddr3_spd_check(spd_params))
418 return 1;
419
420 return 0;
421}
422
Vitaly Andrianov8efc2432016-03-04 10:36:43 -0600423int ddr3_get_size(void)
424{
425 ddr3_spd_eeprom_t spd_params;
426
427 if (ddr3_read_spd(&spd_params))
428 return 0;
429
430 return ddr3_get_size_in_mb(&spd_params) / 1024;
431}
432
Vitaly Andrianovd9a76e72016-03-04 10:36:42 -0600433int ddr3_get_dimm_params_from_spd(struct ddr3_spd_cb *spd_cb)
434{
435 struct ddr3_sodimm spd;
436 ddr3_spd_eeprom_t spd_params;
437
438 memset(&spd, 0, sizeof(spd));
439
440 if (ddr3_read_spd(&spd_params))
441 return 1;
442
443 if (ddrtimingcalculation(&spd_params, &spd, spd_cb)) {
444 printf("Timing caclulation error\n");
445 return 1;
446 }
447
448 strncpy(spd_cb->dimm_name, (char *)spd_params.mpart, 18);
449 spd_cb->dimm_name[18] = '\0';
450
451 init_ddr3param(spd_cb, &spd);
452
453 dump_emif_config(&spd_cb->emif_cfg);
454 dump_phy_config(&spd_cb->phy_cfg);
455
456 return 0;
457}