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Sergey Kubushyne8f39122007-08-10 20:26:18 +02001/*
2 * NAND driver for TI DaVinci based boards.
3 *
4 * Copyright (C) 2007 Sergey Kubushyn <ksi@koi8.net>
5 *
6 * Based on Linux DaVinci NAND driver by TI. Original copyright follows:
7 */
8
9/*
10 *
11 * linux/drivers/mtd/nand/nand_davinci.c
12 *
13 * NAND Flash Driver
14 *
15 * Copyright (C) 2006 Texas Instruments.
16 *
17 * ----------------------------------------------------------------------------
18 *
19 * This program is free software; you can redistribute it and/or modify
20 * it under the terms of the GNU General Public License as published by
21 * the Free Software Foundation; either version 2 of the License, or
22 * (at your option) any later version.
23 *
24 * This program is distributed in the hope that it will be useful,
25 * but WITHOUT ANY WARRANTY; without even the implied warranty of
26 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
27 * GNU General Public License for more details.
28 *
29 * You should have received a copy of the GNU General Public License
30 * along with this program; if not, write to the Free Software
31 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
32 * ----------------------------------------------------------------------------
33 *
34 * Overview:
35 * This is a device driver for the NAND flash device found on the
36 * DaVinci board which utilizes the Samsung k9k2g08 part.
37 *
38 Modifications:
39 ver. 1.0: Feb 2005, Vinod/Sudhakar
40 -
41 *
42 */
43
44#include <common.h>
William Juul52c07962007-10-31 13:53:06 +010045#include <asm/io.h>
Sergey Kubushyne8f39122007-08-10 20:26:18 +020046#include <nand.h>
47#include <asm/arch/nand_defs.h>
48#include <asm/arch/emif_defs.h>
49
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -040050/* Definitions for 4-bit hardware ECC */
51#define NAND_TIMEOUT 10240
52#define NAND_ECC_BUSY 0xC
53#define NAND_4BITECC_MASK 0x03FF03FF
54#define EMIF_NANDFSR_ECC_STATE_MASK 0x00000F00
55#define ECC_STATE_NO_ERR 0x0
56#define ECC_STATE_TOO_MANY_ERRS 0x1
57#define ECC_STATE_ERR_CORR_COMP_P 0x2
58#define ECC_STATE_ERR_CORR_COMP_N 0x3
59
Nick Thompson27794722009-12-16 11:15:58 +000060/*
61 * Exploit the little endianness of the ARM to do multi-byte transfers
62 * per device read. This can perform over twice as quickly as individual
63 * byte transfers when buffer alignment is conducive.
64 *
65 * NOTE: This only works if the NAND is not connected to the 2 LSBs of
66 * the address bus. On Davinci EVM platforms this has always been true.
67 */
68static void nand_davinci_read_buf(struct mtd_info *mtd, uint8_t *buf, int len)
69{
70 struct nand_chip *chip = mtd->priv;
71 const u32 *nand = chip->IO_ADDR_R;
72
73 /* Make sure that buf is 32 bit aligned */
74 if (((int)buf & 0x3) != 0) {
75 if (((int)buf & 0x1) != 0) {
76 if (len) {
77 *buf = readb(nand);
78 buf += 1;
79 len--;
80 }
81 }
82
83 if (((int)buf & 0x3) != 0) {
84 if (len >= 2) {
85 *(u16 *)buf = readw(nand);
86 buf += 2;
87 len -= 2;
88 }
89 }
90 }
91
92 /* copy aligned data */
93 while (len >= 4) {
Cyril Chemparathyc4e72242010-03-17 10:03:10 -040094 *(u32 *)buf = __raw_readl(nand);
Nick Thompson27794722009-12-16 11:15:58 +000095 buf += 4;
96 len -= 4;
97 }
98
99 /* mop up any remaining bytes */
100 if (len) {
101 if (len >= 2) {
102 *(u16 *)buf = readw(nand);
103 buf += 2;
104 len -= 2;
105 }
106
107 if (len)
108 *buf = readb(nand);
109 }
110}
111
112static void nand_davinci_write_buf(struct mtd_info *mtd, const uint8_t *buf,
113 int len)
114{
115 struct nand_chip *chip = mtd->priv;
116 const u32 *nand = chip->IO_ADDR_W;
117
118 /* Make sure that buf is 32 bit aligned */
119 if (((int)buf & 0x3) != 0) {
120 if (((int)buf & 0x1) != 0) {
121 if (len) {
122 writeb(*buf, nand);
123 buf += 1;
124 len--;
125 }
126 }
127
128 if (((int)buf & 0x3) != 0) {
129 if (len >= 2) {
130 writew(*(u16 *)buf, nand);
131 buf += 2;
132 len -= 2;
133 }
134 }
135 }
136
137 /* copy aligned data */
138 while (len >= 4) {
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400139 __raw_writel(*(u32 *)buf, nand);
Nick Thompson27794722009-12-16 11:15:58 +0000140 buf += 4;
141 len -= 4;
142 }
143
144 /* mop up any remaining bytes */
145 if (len) {
146 if (len >= 2) {
147 writew(*(u16 *)buf, nand);
148 buf += 2;
149 len -= 2;
150 }
151
152 if (len)
153 writeb(*buf, nand);
154 }
155}
156
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400157static void nand_davinci_hwcontrol(struct mtd_info *mtd, int cmd,
158 unsigned int ctrl)
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200159{
160 struct nand_chip *this = mtd->priv;
161 u_int32_t IO_ADDR_W = (u_int32_t)this->IO_ADDR_W;
162
William Juul52c07962007-10-31 13:53:06 +0100163 if (ctrl & NAND_CTRL_CHANGE) {
Nick Thompson27794722009-12-16 11:15:58 +0000164 IO_ADDR_W &= ~(MASK_ALE|MASK_CLE);
165
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400166 if (ctrl & NAND_CLE)
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200167 IO_ADDR_W |= MASK_CLE;
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400168 if (ctrl & NAND_ALE)
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200169 IO_ADDR_W |= MASK_ALE;
William Juul52c07962007-10-31 13:53:06 +0100170 this->IO_ADDR_W = (void __iomem *) IO_ADDR_W;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200171 }
172
William Juul9e9c2c12007-11-09 13:32:30 +0100173 if (cmd != NAND_CMD_NONE)
Nick Thompson27794722009-12-16 11:15:58 +0000174 writeb(cmd, IO_ADDR_W);
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200175}
176
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200177#ifdef CONFIG_SYS_NAND_HW_ECC
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200178
Laurence Withers0357a762011-09-26 16:02:30 +0000179static u_int32_t nand_davinci_readecc(struct mtd_info *mtd)
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200180{
Laurence Withers0357a762011-09-26 16:02:30 +0000181 u_int32_t ecc = 0;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200182
Laurence Withers0357a762011-09-26 16:02:30 +0000183 ecc = __raw_readl(&(davinci_emif_regs->nandfecc[
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400184 CONFIG_SYS_NAND_CS - 2]));
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200185
Laurence Withers0357a762011-09-26 16:02:30 +0000186 return ecc;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200187}
188
Laurence Withers0357a762011-09-26 16:02:30 +0000189static void nand_davinci_enable_hwecc(struct mtd_info *mtd, int mode)
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200190{
Laurence Withers0357a762011-09-26 16:02:30 +0000191 u_int32_t val;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200192
Laurence Withers0357a762011-09-26 16:02:30 +0000193 /* reading the ECC result register resets the ECC calculation */
194 nand_davinci_readecc(mtd);
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200195
Laurence Withers0357a762011-09-26 16:02:30 +0000196 val = __raw_readl(&davinci_emif_regs->nandfcr);
197 val |= DAVINCI_NANDFCR_NAND_ENABLE(CONFIG_SYS_NAND_CS);
198 val |= DAVINCI_NANDFCR_1BIT_ECC_START(CONFIG_SYS_NAND_CS);
199 __raw_writel(val, &davinci_emif_regs->nandfcr);
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200200}
201
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400202static int nand_davinci_calculate_ecc(struct mtd_info *mtd, const u_char *dat,
203 u_char *ecc_code)
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200204{
205 u_int32_t tmp;
Hugo Villeneuve73dc0e42008-08-30 17:06:55 -0400206
Laurence Withers0357a762011-09-26 16:02:30 +0000207 tmp = nand_davinci_readecc(mtd);
Hugo Villeneuve73dc0e42008-08-30 17:06:55 -0400208
209 /* Squeeze 4 bytes ECC into 3 bytes by removing RESERVED bits
210 * and shifting. RESERVED bits are 31 to 28 and 15 to 12. */
211 tmp = (tmp & 0x00000fff) | ((tmp & 0x0fff0000) >> 4);
212
213 /* Invert so that erased block ECC is correct */
214 tmp = ~tmp;
215
216 *ecc_code++ = tmp;
217 *ecc_code++ = tmp >> 8;
218 *ecc_code++ = tmp >> 16;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200219
David Brownell962d4c12009-04-28 13:19:53 -0700220 /* NOTE: the above code matches mainline Linux:
221 * .PQR.stu ==> ~PQRstu
222 *
223 * MontaVista/TI kernels encode those bytes differently, use
224 * complicated (and allegedly sometimes-wrong) correction code,
225 * and usually shipped with U-Boot that uses software ECC:
226 * .PQR.stu ==> PsQRtu
227 *
228 * If you need MV/TI compatible NAND I/O in U-Boot, it should
229 * be possible to (a) change the mangling above, (b) reverse
230 * that mangling in nand_davinci_correct_data() below.
231 */
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200232
David Brownell962d4c12009-04-28 13:19:53 -0700233 return 0;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200234}
235
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400236static int nand_davinci_correct_data(struct mtd_info *mtd, u_char *dat,
237 u_char *read_ecc, u_char *calc_ecc)
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200238{
Hugo Villeneuve73dc0e42008-08-30 17:06:55 -0400239 struct nand_chip *this = mtd->priv;
Hugo Villeneuve73dc0e42008-08-30 17:06:55 -0400240 u_int32_t ecc_nand = read_ecc[0] | (read_ecc[1] << 8) |
241 (read_ecc[2] << 16);
242 u_int32_t ecc_calc = calc_ecc[0] | (calc_ecc[1] << 8) |
243 (calc_ecc[2] << 16);
244 u_int32_t diff = ecc_calc ^ ecc_nand;
245
246 if (diff) {
247 if ((((diff >> 12) ^ diff) & 0xfff) == 0xfff) {
248 /* Correctable error */
249 if ((diff >> (12 + 3)) < this->ecc.size) {
250 uint8_t find_bit = 1 << ((diff >> 12) & 7);
251 uint32_t find_byte = diff >> (12 + 3);
252
253 dat[find_byte] ^= find_bit;
254 MTDDEBUG(MTD_DEBUG_LEVEL0, "Correcting single "
255 "bit ECC error at offset: %d, bit: "
256 "%d\n", find_byte, find_bit);
257 return 1;
258 } else {
259 return -1;
260 }
261 } else if (!(diff & (diff - 1))) {
262 /* Single bit ECC error in the ECC itself,
263 nothing to fix */
264 MTDDEBUG(MTD_DEBUG_LEVEL0, "Single bit ECC error in "
265 "ECC.\n");
266 return 1;
267 } else {
268 /* Uncorrectable error */
269 MTDDEBUG(MTD_DEBUG_LEVEL0, "ECC UNCORRECTED_ERROR 1\n");
270 return -1;
271 }
272 }
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400273 return 0;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200274}
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200275#endif /* CONFIG_SYS_NAND_HW_ECC */
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200276
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400277#ifdef CONFIG_SYS_NAND_4BIT_HW_ECC_OOBFIRST
278static struct nand_ecclayout nand_davinci_4bit_layout_oobfirst = {
Sandeep Paulrajd3482862009-11-19 23:04:42 -0500279#if defined(CONFIG_SYS_NAND_PAGE_2K)
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400280 .eccbytes = 40,
281 .eccpos = {
282 24, 25, 26, 27, 28,
283 29, 30, 31, 32, 33, 34, 35, 36, 37, 38,
284 39, 40, 41, 42, 43, 44, 45, 46, 47, 48,
285 49, 50, 51, 52, 53, 54, 55, 56, 57, 58,
286 59, 60, 61, 62, 63,
287 },
288 .oobfree = {
289 {.offset = 2, .length = 22, },
290 },
Sandeep Paulrajd3482862009-11-19 23:04:42 -0500291#elif defined(CONFIG_SYS_NAND_PAGE_4K)
292 .eccbytes = 80,
293 .eccpos = {
294 48, 49, 50, 51, 52, 53, 54, 55, 56, 57,
295 58, 59, 60, 61, 62, 63, 64, 65, 66, 67,
296 68, 69, 70, 71, 72, 73, 74, 75, 76, 77,
297 78, 79, 80, 81, 82, 83, 84, 85, 86, 87,
298 88, 89, 90, 91, 92, 93, 94, 95, 96, 97,
299 98, 99, 100, 101, 102, 103, 104, 105, 106, 107,
300 108, 109, 110, 111, 112, 113, 114, 115, 116, 117,
301 118, 119, 120, 121, 122, 123, 124, 125, 126, 127,
302 },
303 .oobfree = {
304 {.offset = 2, .length = 46, },
305 },
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400306#endif
307};
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400308
309static void nand_davinci_4bit_enable_hwecc(struct mtd_info *mtd, int mode)
310{
311 u32 val;
312
313 switch (mode) {
314 case NAND_ECC_WRITE:
315 case NAND_ECC_READ:
316 /*
317 * Start a new ECC calculation for reading or writing 512 bytes
318 * of data.
319 */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400320 val = __raw_readl(&davinci_emif_regs->nandfcr);
Nick Thompson789c8872009-12-12 12:12:26 -0500321 val &= ~DAVINCI_NANDFCR_4BIT_ECC_SEL_MASK;
Nick Thompsonff641522009-12-12 12:13:10 -0500322 val |= DAVINCI_NANDFCR_NAND_ENABLE(CONFIG_SYS_NAND_CS);
Nick Thompson789c8872009-12-12 12:12:26 -0500323 val |= DAVINCI_NANDFCR_4BIT_ECC_SEL(CONFIG_SYS_NAND_CS);
324 val |= DAVINCI_NANDFCR_4BIT_ECC_START;
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400325 __raw_writel(val, &davinci_emif_regs->nandfcr);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400326 break;
327 case NAND_ECC_READSYN:
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400328 val = __raw_readl(&davinci_emif_regs->nand4bitecc[0]);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400329 break;
330 default:
331 break;
332 }
333}
334
335static u32 nand_davinci_4bit_readecc(struct mtd_info *mtd, unsigned int ecc[4])
336{
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400337 int i;
338
339 for (i = 0; i < 4; i++) {
340 ecc[i] = __raw_readl(&davinci_emif_regs->nand4bitecc[i]) &
341 NAND_4BITECC_MASK;
342 }
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400343
344 return 0;
345}
346
347static int nand_davinci_4bit_calculate_ecc(struct mtd_info *mtd,
348 const uint8_t *dat,
349 uint8_t *ecc_code)
350{
Nick Thompson27794722009-12-16 11:15:58 +0000351 unsigned int hw_4ecc[4];
352 unsigned int i;
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400353
354 nand_davinci_4bit_readecc(mtd, hw_4ecc);
355
356 /*Convert 10 bit ecc value to 8 bit */
Nick Thompson27794722009-12-16 11:15:58 +0000357 for (i = 0; i < 2; i++) {
358 unsigned int hw_ecc_low = hw_4ecc[i * 2];
359 unsigned int hw_ecc_hi = hw_4ecc[(i * 2) + 1];
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400360
361 /* Take first 8 bits from val1 (count1=0) or val5 (count1=1) */
Nick Thompson27794722009-12-16 11:15:58 +0000362 *ecc_code++ = hw_ecc_low & 0xFF;
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400363
364 /*
365 * Take 2 bits as LSB bits from val1 (count1=0) or val5
366 * (count1=1) and 6 bits from val2 (count1=0) or
367 * val5 (count1=1)
368 */
Nick Thompson27794722009-12-16 11:15:58 +0000369 *ecc_code++ =
370 ((hw_ecc_low >> 8) & 0x3) | ((hw_ecc_low >> 14) & 0xFC);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400371
372 /*
373 * Take 4 bits from val2 (count1=0) or val5 (count1=1) and
374 * 4 bits from val3 (count1=0) or val6 (count1=1)
375 */
Nick Thompson27794722009-12-16 11:15:58 +0000376 *ecc_code++ =
377 ((hw_ecc_low >> 22) & 0xF) | ((hw_ecc_hi << 4) & 0xF0);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400378
379 /*
380 * Take 6 bits from val3(count1=0) or val6 (count1=1) and
381 * 2 bits from val4 (count1=0) or val7 (count1=1)
382 */
Nick Thompson27794722009-12-16 11:15:58 +0000383 *ecc_code++ =
384 ((hw_ecc_hi >> 4) & 0x3F) | ((hw_ecc_hi >> 10) & 0xC0);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400385
386 /* Take 8 bits from val4 (count1=0) or val7 (count1=1) */
Nick Thompson27794722009-12-16 11:15:58 +0000387 *ecc_code++ = (hw_ecc_hi >> 18) & 0xFF;
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400388 }
Nick Thompson27794722009-12-16 11:15:58 +0000389
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400390 return 0;
391}
392
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400393static int nand_davinci_4bit_correct_data(struct mtd_info *mtd, uint8_t *dat,
394 uint8_t *read_ecc, uint8_t *calc_ecc)
395{
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400396 int i;
Nick Thompson27794722009-12-16 11:15:58 +0000397 unsigned int hw_4ecc[4];
398 unsigned int iserror;
399 unsigned short *ecc16;
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400400 unsigned int numerrors, erroraddress, errorvalue;
401 u32 val;
402
403 /*
404 * Check for an ECC where all bytes are 0xFF. If this is the case, we
405 * will assume we are looking at an erased page and we should ignore
406 * the ECC.
407 */
408 for (i = 0; i < 10; i++) {
409 if (read_ecc[i] != 0xFF)
410 break;
411 }
412 if (i == 10)
413 return 0;
414
415 /* Convert 8 bit in to 10 bit */
Nick Thompson27794722009-12-16 11:15:58 +0000416 ecc16 = (unsigned short *)&read_ecc[0];
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400417
Nick Thompson27794722009-12-16 11:15:58 +0000418 /*
419 * Write the parity values in the NAND Flash 4-bit ECC Load register.
420 * Write each parity value one at a time starting from 4bit_ecc_val8
421 * to 4bit_ecc_val1.
422 */
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400423
Nick Thompson27794722009-12-16 11:15:58 +0000424 /*Take 2 bits from 8th byte and 8 bits from 9th byte */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400425 __raw_writel(((ecc16[4]) >> 6) & 0x3FF,
426 &davinci_emif_regs->nand4biteccload);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400427
Nick Thompson27794722009-12-16 11:15:58 +0000428 /* Take 4 bits from 7th byte and 6 bits from 8th byte */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400429 __raw_writel((((ecc16[3]) >> 12) & 0xF) | ((((ecc16[4])) << 4) & 0x3F0),
430 &davinci_emif_regs->nand4biteccload);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400431
Nick Thompson27794722009-12-16 11:15:58 +0000432 /* Take 6 bits from 6th byte and 4 bits from 7th byte */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400433 __raw_writel((ecc16[3] >> 2) & 0x3FF,
434 &davinci_emif_regs->nand4biteccload);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400435
436 /* Take 8 bits from 5th byte and 2 bits from 6th byte */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400437 __raw_writel(((ecc16[2]) >> 8) | ((((ecc16[3])) << 8) & 0x300),
438 &davinci_emif_regs->nand4biteccload);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400439
Nick Thompson27794722009-12-16 11:15:58 +0000440 /*Take 2 bits from 3rd byte and 8 bits from 4th byte */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400441 __raw_writel((((ecc16[1]) >> 14) & 0x3) | ((((ecc16[2])) << 2) & 0x3FC),
442 &davinci_emif_regs->nand4biteccload);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400443
Nick Thompson27794722009-12-16 11:15:58 +0000444 /* Take 4 bits form 2nd bytes and 6 bits from 3rd bytes */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400445 __raw_writel(((ecc16[1]) >> 4) & 0x3FF,
446 &davinci_emif_regs->nand4biteccload);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400447
Nick Thompson27794722009-12-16 11:15:58 +0000448 /* Take 6 bits from 1st byte and 4 bits from 2nd byte */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400449 __raw_writel((((ecc16[0]) >> 10) & 0x3F) | (((ecc16[1]) << 6) & 0x3C0),
450 &davinci_emif_regs->nand4biteccload);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400451
Nick Thompson27794722009-12-16 11:15:58 +0000452 /* Take 10 bits from 0th and 1st bytes */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400453 __raw_writel((ecc16[0]) & 0x3FF,
454 &davinci_emif_regs->nand4biteccload);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400455
456 /*
457 * Perform a dummy read to the EMIF Revision Code and Status register.
458 * This is required to ensure time for syndrome calculation after
459 * writing the ECC values in previous step.
460 */
461
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400462 val = __raw_readl(&davinci_emif_regs->nandfsr);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400463
464 /*
465 * Read the syndrome from the NAND Flash 4-Bit ECC 1-4 registers.
466 * A syndrome value of 0 means no bit errors. If the syndrome is
467 * non-zero then go further otherwise return.
468 */
469 nand_davinci_4bit_readecc(mtd, hw_4ecc);
470
Nick Thompson27794722009-12-16 11:15:58 +0000471 if (!(hw_4ecc[0] | hw_4ecc[1] | hw_4ecc[2] | hw_4ecc[3]))
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400472 return 0;
473
474 /*
475 * Clear any previous address calculation by doing a dummy read of an
476 * error address register.
477 */
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400478 val = __raw_readl(&davinci_emif_regs->nanderradd1);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400479
480 /*
481 * Set the addr_calc_st bit(bit no 13) in the NAND Flash Control
482 * register to 1.
483 */
Ben Gardinerdfd19ea2010-10-14 17:26:17 -0400484 __raw_writel(DAVINCI_NANDFCR_4BIT_CALC_START,
485 &davinci_emif_regs->nandfcr);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400486
487 /*
Wolfram Sang328d0552010-09-09 13:54:41 +0200488 * Wait for the corr_state field (bits 8 to 11) in the
489 * NAND Flash Status register to be not equal to 0x0, 0x1, 0x2, or 0x3.
490 * Otherwise ECC calculation has not even begun and the next loop might
491 * fail because of a false positive!
492 */
493 i = NAND_TIMEOUT;
494 do {
495 val = __raw_readl(&davinci_emif_regs->nandfsr);
496 val &= 0xc00;
497 i--;
498 } while ((i > 0) && !val);
499
500 /*
501 * Wait for the corr_state field (bits 8 to 11) in the
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400502 * NAND Flash Status register to be equal to 0x0, 0x1, 0x2, or 0x3.
503 */
504 i = NAND_TIMEOUT;
505 do {
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400506 val = __raw_readl(&davinci_emif_regs->nandfsr);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400507 val &= 0xc00;
508 i--;
509 } while ((i > 0) && val);
510
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400511 iserror = __raw_readl(&davinci_emif_regs->nandfsr);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400512 iserror &= EMIF_NANDFSR_ECC_STATE_MASK;
513 iserror = iserror >> 8;
514
515 /*
516 * ECC_STATE_TOO_MANY_ERRS (0x1) means errors cannot be
517 * corrected (five or more errors). The number of errors
518 * calculated (err_num field) differs from the number of errors
519 * searched. ECC_STATE_ERR_CORR_COMP_P (0x2) means error
520 * correction complete (errors on bit 8 or 9).
521 * ECC_STATE_ERR_CORR_COMP_N (0x3) means error correction
522 * complete (error exists).
523 */
524
525 if (iserror == ECC_STATE_NO_ERR) {
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400526 val = __raw_readl(&davinci_emif_regs->nanderrval1);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400527 return 0;
528 } else if (iserror == ECC_STATE_TOO_MANY_ERRS) {
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400529 val = __raw_readl(&davinci_emif_regs->nanderrval1);
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400530 return -1;
531 }
532
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400533 numerrors = ((__raw_readl(&davinci_emif_regs->nandfsr) >> 16)
534 & 0x3) + 1;
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400535
536 /* Read the error address, error value and correct */
537 for (i = 0; i < numerrors; i++) {
538 if (i > 1) {
539 erroraddress =
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400540 ((__raw_readl(&davinci_emif_regs->nanderradd2) >>
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400541 (16 * (i & 1))) & 0x3FF);
542 erroraddress = ((512 + 7) - erroraddress);
543 errorvalue =
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400544 ((__raw_readl(&davinci_emif_regs->nanderrval2) >>
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400545 (16 * (i & 1))) & 0xFF);
546 } else {
547 erroraddress =
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400548 ((__raw_readl(&davinci_emif_regs->nanderradd1) >>
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400549 (16 * (i & 1))) & 0x3FF);
550 erroraddress = ((512 + 7) - erroraddress);
551 errorvalue =
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400552 ((__raw_readl(&davinci_emif_regs->nanderrval1) >>
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400553 (16 * (i & 1))) & 0xFF);
554 }
555 /* xor the corrupt data with error value */
556 if (erroraddress < 512)
557 dat[erroraddress] ^= errorvalue;
558 }
559
560 return numerrors;
561}
Scott Woodce630312009-09-28 16:33:18 -0500562#endif /* CONFIG_SYS_NAND_4BIT_HW_ECC_OOBFIRST */
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400563
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200564static int nand_davinci_dev_ready(struct mtd_info *mtd)
565{
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400566 return __raw_readl(&davinci_emif_regs->nandfsr) & 0x1;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200567}
568
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200569static void nand_flash_init(void)
570{
David Brownell0bf53c42009-04-28 13:19:50 -0700571 /* This is for DM6446 EVM and *very* similar. DO NOT GROW THIS!
572 * Instead, have your board_init() set EMIF timings, based on its
573 * knowledge of the clocks and what devices are hooked up ... and
574 * don't even do that unless no UBL handled it.
575 */
David Brownellbb289292009-07-13 16:29:04 -0700576#ifdef CONFIG_SOC_DM644X
Wolfgang Denka48499f2008-04-11 15:11:26 +0200577 u_int32_t acfg1 = 0x3ffffffc;
Wolfgang Denka48499f2008-04-11 15:11:26 +0200578
579 /*------------------------------------------------------------------*
580 * NAND FLASH CHIP TIMEOUT @ 459 MHz *
581 * *
582 * AEMIF.CLK freq = PLL1/6 = 459/6 = 76.5 MHz *
583 * AEMIF.CLK period = 1/76.5 MHz = 13.1 ns *
584 * *
585 *------------------------------------------------------------------*/
586 acfg1 = 0
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400587 | (0 << 31) /* selectStrobe */
588 | (0 << 30) /* extWait */
589 | (1 << 26) /* writeSetup 10 ns */
590 | (3 << 20) /* writeStrobe 40 ns */
591 | (1 << 17) /* writeHold 10 ns */
592 | (1 << 13) /* readSetup 10 ns */
593 | (5 << 7) /* readStrobe 60 ns */
594 | (1 << 4) /* readHold 10 ns */
595 | (3 << 2) /* turnAround ?? ns */
596 | (0 << 0) /* asyncSize 8-bit bus */
Wolfgang Denka1be4762008-05-20 16:00:29 +0200597 ;
Wolfgang Denka48499f2008-04-11 15:11:26 +0200598
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400599 __raw_writel(acfg1, &davinci_emif_regs->ab1cr); /* CS2 */
Thomas Langeb4aeefd2009-06-20 11:02:17 +0200600
Cyril Chemparathyc4e72242010-03-17 10:03:10 -0400601 /* NAND flash on CS2 */
602 __raw_writel(0x00000101, &davinci_emif_regs->nandfcr);
David Brownell0bf53c42009-04-28 13:19:50 -0700603#endif
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200604}
605
David Brownellf4b0b9d2009-05-10 15:43:01 -0700606void davinci_nand_init(struct nand_chip *nand)
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200607{
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200608 nand->chip_delay = 0;
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200609#ifdef CONFIG_SYS_NAND_USE_FLASH_BBT
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400610 nand->options |= NAND_USE_FLASH_BBT;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200611#endif
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200612#ifdef CONFIG_SYS_NAND_HW_ECC
William Juul9e9c2c12007-11-09 13:32:30 +0100613 nand->ecc.mode = NAND_ECC_HW;
William Juul9e9c2c12007-11-09 13:32:30 +0100614 nand->ecc.size = 512;
615 nand->ecc.bytes = 3;
William Juul52c07962007-10-31 13:53:06 +0100616 nand->ecc.calculate = nand_davinci_calculate_ecc;
617 nand->ecc.correct = nand_davinci_correct_data;
William Juulb76ec382007-11-08 10:39:53 +0100618 nand->ecc.hwctl = nand_davinci_enable_hwecc;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200619#else
William Juul9e9c2c12007-11-09 13:32:30 +0100620 nand->ecc.mode = NAND_ECC_SOFT;
Jean-Christophe PLAGNIOL-VILLARD03836942008-10-16 15:01:15 +0200621#endif /* CONFIG_SYS_NAND_HW_ECC */
Sandeep Paulrajbfeb0fd2009-08-18 10:10:42 -0400622#ifdef CONFIG_SYS_NAND_4BIT_HW_ECC_OOBFIRST
623 nand->ecc.mode = NAND_ECC_HW_OOB_FIRST;
624 nand->ecc.size = 512;
625 nand->ecc.bytes = 10;
626 nand->ecc.calculate = nand_davinci_4bit_calculate_ecc;
627 nand->ecc.correct = nand_davinci_4bit_correct_data;
628 nand->ecc.hwctl = nand_davinci_4bit_enable_hwecc;
629 nand->ecc.layout = &nand_davinci_4bit_layout_oobfirst;
630#endif
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200631 /* Set address of hardware control function */
William Juul52c07962007-10-31 13:53:06 +0100632 nand->cmd_ctrl = nand_davinci_hwcontrol;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200633
Nick Thompson27794722009-12-16 11:15:58 +0000634 nand->read_buf = nand_davinci_read_buf;
635 nand->write_buf = nand_davinci_write_buf;
636
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200637 nand->dev_ready = nand_davinci_dev_ready;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200638
639 nand_flash_init();
David Brownellf4b0b9d2009-05-10 15:43:01 -0700640}
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200641
David Brownellf4b0b9d2009-05-10 15:43:01 -0700642int board_nand_init(struct nand_chip *chip) __attribute__((weak));
643
644int board_nand_init(struct nand_chip *chip)
645{
646 davinci_nand_init(chip);
647 return 0;
Sergey Kubushyne8f39122007-08-10 20:26:18 +0200648}