1 /***************************************************************************
2 * Copyright (C) 2009 by Alexei Babich *
3 * Rezonans plc., Chelyabinsk, Russia *
6 * Copyright (C) 2010 by Gaetan CARLIER *
7 * Trump s.a., Belgium *
9 * Copyright (C) 2011 by Erik Ahlen *
10 * Avalon Innovation, Sweden *
12 * This program is free software; you can redistribute it and/or modify *
13 * it under the terms of the GNU General Public License as published by *
14 * the Free Software Foundation; either version 2 of the License, or *
15 * (at your option) any later version. *
17 * This program is distributed in the hope that it will be useful, *
18 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
20 * GNU General Public License for more details. *
22 * You should have received a copy of the GNU General Public License *
23 * along with this program; if not, write to the *
24 * Free Software Foundation, Inc., *
25 * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
26 ***************************************************************************/
29 * Freescale iMX OpenOCD NAND Flash controller support.
30 * based on Freescale iMX2* and iMX3* OpenOCD NAND Flash controller support.
34 * driver tested with Samsung K9F2G08UXA and Numonyx/ST NAND02G-B2D @mxc
35 * tested "nand probe #", "nand erase # 0 #", "nand dump # file 0 #",
36 * "nand write # file 0", "nand verify"
38 * get_next_halfword_from_sram_buffer() not tested
39 * !! all function only tested with 2k page nand device; mxc_write_page
40 * writes the 4 MAIN_BUFFER's and is not compatible with < 2k page
41 * !! oob must be be used due to NFS bug
42 * !! oob must be 64 bytes per 2KiB page
50 #include <target/target.h>
54 #define nfc_is_v1() (mxc_nf_info->mxc_version == MXC_VERSION_MX27 || \
55 mxc_nf_info->mxc_version == MXC_VERSION_MX31)
56 #define nfc_is_v2() (mxc_nf_info->mxc_version == MXC_VERSION_MX25 || \
57 mxc_nf_info->mxc_version == MXC_VERSION_MX35)
59 /* This permits to print (in LOG_INFO) how much bytes
60 * has been written after a page read or write.
61 * This is useful when OpenOCD is used with a graphical
62 * front-end to estimate progression of the global read/write
64 #undef _MXC_PRINT_STAT
65 /* #define _MXC_PRINT_STAT */
67 static const char target_not_halted_err_msg
[] =
68 "target must be halted to use mxc NAND flash controller";
69 static const char data_block_size_err_msg
[] =
70 "minimal granularity is one half-word, %" PRId32
" is incorrect";
71 static const char sram_buffer_bounds_err_msg
[] =
72 "trying to access out of SRAM buffer bound (addr=0x%" PRIx32
")";
73 static const char get_status_register_err_msg
[] = "can't get NAND status";
74 static uint32_t in_sram_address
;
75 static unsigned char sign_of_sequental_byte_read
;
77 static uint32_t align_address_v2(struct nand_device
*nand
, uint32_t addr
);
78 static int initialize_nf_controller(struct nand_device
*nand
);
79 static int get_next_byte_from_sram_buffer(struct nand_device
*nand
, uint8_t *value
);
80 static int get_next_halfword_from_sram_buffer(struct nand_device
*nand
, uint16_t *value
);
81 static int poll_for_complete_op(struct nand_device
*nand
, const char *text
);
82 static int validate_target_state(struct nand_device
*nand
);
83 static int do_data_output(struct nand_device
*nand
);
85 static int mxc_command(struct nand_device
*nand
, uint8_t command
);
86 static int mxc_address(struct nand_device
*nand
, uint8_t address
);
88 NAND_DEVICE_COMMAND_HANDLER(mxc_nand_device_command
)
90 struct mxc_nf_controller
*mxc_nf_info
;
94 mxc_nf_info
= malloc(sizeof(struct mxc_nf_controller
));
95 if (mxc_nf_info
== NULL
) {
96 LOG_ERROR("no memory for nand controller");
99 nand
->controller_priv
= mxc_nf_info
;
102 LOG_ERROR("use \"nand device mxc target mx25|mx27|mx31|mx35 noecc|hwecc [biswap]\"");
109 if (strcmp(CMD_ARGV
[2], "mx25") == 0) {
110 mxc_nf_info
->mxc_version
= MXC_VERSION_MX25
;
111 mxc_nf_info
->mxc_base_addr
= 0xBB000000;
112 mxc_nf_info
->mxc_regs_addr
= mxc_nf_info
->mxc_base_addr
+ 0x1E00;
113 } else if (strcmp(CMD_ARGV
[2], "mx27") == 0) {
114 mxc_nf_info
->mxc_version
= MXC_VERSION_MX27
;
115 mxc_nf_info
->mxc_base_addr
= 0xD8000000;
116 mxc_nf_info
->mxc_regs_addr
= mxc_nf_info
->mxc_base_addr
+ 0x0E00;
117 } else if (strcmp(CMD_ARGV
[2], "mx31") == 0) {
118 mxc_nf_info
->mxc_version
= MXC_VERSION_MX31
;
119 mxc_nf_info
->mxc_base_addr
= 0xB8000000;
120 mxc_nf_info
->mxc_regs_addr
= mxc_nf_info
->mxc_base_addr
+ 0x0E00;
121 } else if (strcmp(CMD_ARGV
[2], "mx35") == 0) {
122 mxc_nf_info
->mxc_version
= MXC_VERSION_MX35
;
123 mxc_nf_info
->mxc_base_addr
= 0xBB000000;
124 mxc_nf_info
->mxc_regs_addr
= mxc_nf_info
->mxc_base_addr
+ 0x1E00;
128 * check hwecc requirements
130 hwecc_needed
= strcmp(CMD_ARGV
[3], "hwecc");
131 if (hwecc_needed
== 0)
132 mxc_nf_info
->flags
.hw_ecc_enabled
= 1;
134 mxc_nf_info
->flags
.hw_ecc_enabled
= 0;
136 mxc_nf_info
->optype
= MXC_NF_DATAOUT_PAGE
;
137 mxc_nf_info
->fin
= MXC_NF_FIN_NONE
;
138 mxc_nf_info
->flags
.target_little_endian
=
139 (nand
->target
->endianness
== TARGET_LITTLE_ENDIAN
);
142 * should factory bad block indicator be swaped
143 * as a workaround for how the nfc handles pages.
145 if (CMD_ARGC
> 4 && strcmp(CMD_ARGV
[4], "biswap") == 0) {
146 LOG_DEBUG("BI-swap enabled");
147 mxc_nf_info
->flags
.biswap_enabled
= 1;
151 * testing host endianness
154 if (*(char *) &x
== 1)
155 mxc_nf_info
->flags
.host_little_endian
= 1;
157 mxc_nf_info
->flags
.host_little_endian
= 0;
161 COMMAND_HANDLER(handle_mxc_biswap_command
)
163 struct nand_device
*nand
= NULL
;
164 struct mxc_nf_controller
*mxc_nf_info
= NULL
;
166 if (CMD_ARGC
< 1 || CMD_ARGC
> 2)
167 return ERROR_COMMAND_SYNTAX_ERROR
;
169 int retval
= CALL_COMMAND_HANDLER(nand_command_get_device
, 0, &nand
);
170 if (retval
!= ERROR_OK
) {
171 command_print(CMD_CTX
, "invalid nand device number or name: %s", CMD_ARGV
[0]);
172 return ERROR_COMMAND_ARGUMENT_INVALID
;
175 mxc_nf_info
= nand
->controller_priv
;
177 if (strcmp(CMD_ARGV
[1], "enable") == 0)
178 mxc_nf_info
->flags
.biswap_enabled
= true;
180 mxc_nf_info
->flags
.biswap_enabled
= false;
182 if (mxc_nf_info
->flags
.biswap_enabled
)
183 command_print(CMD_CTX
, "BI-swapping enabled on %s", nand
->name
);
185 command_print(CMD_CTX
, "BI-swapping disabled on %s", nand
->name
);
190 static const struct command_registration mxc_sub_command_handlers
[] = {
193 .handler
= handle_mxc_biswap_command
,
194 .help
= "Turns on/off bad block information swaping from main area, "
195 "without parameter query status.",
196 .usage
= "bank_id ['enable'|'disable']",
198 COMMAND_REGISTRATION_DONE
201 static const struct command_registration mxc_nand_command_handler
[] = {
205 .help
= "MXC NAND flash controller commands",
206 .chain
= mxc_sub_command_handlers
208 COMMAND_REGISTRATION_DONE
211 static int mxc_init(struct nand_device
*nand
)
213 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
214 struct target
*target
= nand
->target
;
216 int validate_target_result
;
217 uint16_t buffsize_register_content
;
218 uint32_t sreg_content
;
219 uint32_t SREG
= MX2_FMCR
;
220 uint32_t SEL_16BIT
= MX2_FMCR_NF_16BIT_SEL
;
221 uint32_t SEL_FMS
= MX2_FMCR_NF_FMS
;
223 uint16_t nand_status_content
;
225 * validate target state
227 validate_target_result
= validate_target_state(nand
);
228 if (validate_target_result
!= ERROR_OK
)
229 return validate_target_result
;
232 target_read_u16(target
, MXC_NF_BUFSIZ
, &buffsize_register_content
);
233 mxc_nf_info
->flags
.one_kb_sram
= !(buffsize_register_content
& 0x000f);
235 mxc_nf_info
->flags
.one_kb_sram
= 0;
237 if (mxc_nf_info
->mxc_version
== MXC_VERSION_MX31
) {
239 SEL_16BIT
= MX3_PCSR_NF_16BIT_SEL
;
240 SEL_FMS
= MX3_PCSR_NF_FMS
;
241 } else if (mxc_nf_info
->mxc_version
== MXC_VERSION_MX25
) {
243 SEL_16BIT
= MX25_RCSR_NF_16BIT_SEL
;
244 SEL_FMS
= MX25_RCSR_NF_FMS
;
245 } else if (mxc_nf_info
->mxc_version
== MXC_VERSION_MX35
) {
247 SEL_16BIT
= MX35_RCSR_NF_16BIT_SEL
;
248 SEL_FMS
= MX35_RCSR_NF_FMS
;
251 target_read_u32(target
, SREG
, &sreg_content
);
252 if (!nand
->bus_width
) {
253 /* bus_width not yet defined. Read it from MXC_FMCR */
254 nand
->bus_width
= (sreg_content
& SEL_16BIT
) ? 16 : 8;
256 /* bus_width forced in soft. Sync it to MXC_FMCR */
257 sreg_content
|= ((nand
->bus_width
== 16) ? SEL_16BIT
: 0x00000000);
258 target_write_u32(target
, SREG
, sreg_content
);
260 if (nand
->bus_width
== 16)
261 LOG_DEBUG("MXC_NF : bus is 16-bit width");
263 LOG_DEBUG("MXC_NF : bus is 8-bit width");
265 if (!nand
->page_size
)
266 nand
->page_size
= (sreg_content
& SEL_FMS
) ? 2048 : 512;
268 sreg_content
|= ((nand
->page_size
== 2048) ? SEL_FMS
: 0x00000000);
269 target_write_u32(target
, SREG
, sreg_content
);
271 if (mxc_nf_info
->flags
.one_kb_sram
&& (nand
->page_size
== 2048)) {
272 LOG_ERROR("NAND controller have only 1 kb SRAM, so "
273 "pagesize 2048 is incompatible with it");
275 LOG_DEBUG("MXC_NF : NAND controller can handle pagesize of 2048");
277 if (nfc_is_v2() && sreg_content
& MX35_RCSR_NF_4K
)
278 LOG_ERROR("MXC driver does not have support for 4k pagesize.");
280 initialize_nf_controller(nand
);
283 retval
|= mxc_command(nand
, NAND_CMD_STATUS
);
284 retval
|= mxc_address(nand
, 0x00);
285 retval
|= do_data_output(nand
);
286 if (retval
!= ERROR_OK
) {
287 LOG_ERROR(get_status_register_err_msg
);
290 target_read_u16(target
, MXC_NF_MAIN_BUFFER0
, &nand_status_content
);
291 if (!(nand_status_content
& 0x0080)) {
292 LOG_INFO("NAND read-only");
293 mxc_nf_info
->flags
.nand_readonly
= 1;
295 mxc_nf_info
->flags
.nand_readonly
= 0;
299 static int mxc_read_data(struct nand_device
*nand
, void *data
)
301 int validate_target_result
;
302 int try_data_output_from_nand_chip
;
304 * validate target state
306 validate_target_result
= validate_target_state(nand
);
307 if (validate_target_result
!= ERROR_OK
)
308 return validate_target_result
;
311 * get data from nand chip
313 try_data_output_from_nand_chip
= do_data_output(nand
);
314 if (try_data_output_from_nand_chip
!= ERROR_OK
) {
315 LOG_ERROR("mxc_read_data : read data failed : '%x'",
316 try_data_output_from_nand_chip
);
317 return try_data_output_from_nand_chip
;
320 if (nand
->bus_width
== 16)
321 get_next_halfword_from_sram_buffer(nand
, data
);
323 get_next_byte_from_sram_buffer(nand
, data
);
328 static int mxc_write_data(struct nand_device
*nand
, uint16_t data
)
330 LOG_ERROR("write_data() not implemented");
331 return ERROR_NAND_OPERATION_FAILED
;
334 static int mxc_reset(struct nand_device
*nand
)
337 * validate target state
339 int validate_target_result
;
340 validate_target_result
= validate_target_state(nand
);
341 if (validate_target_result
!= ERROR_OK
)
342 return validate_target_result
;
343 initialize_nf_controller(nand
);
347 static int mxc_command(struct nand_device
*nand
, uint8_t command
)
349 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
350 struct target
*target
= nand
->target
;
351 int validate_target_result
;
354 * validate target state
356 validate_target_result
= validate_target_state(nand
);
357 if (validate_target_result
!= ERROR_OK
)
358 return validate_target_result
;
361 case NAND_CMD_READOOB
:
362 command
= NAND_CMD_READ0
;
363 /* set read point for data_read() and read_block_data() to
364 * spare area in SRAM buffer
367 in_sram_address
= MXC_NF_V1_SPARE_BUFFER0
;
369 in_sram_address
= MXC_NF_V2_SPARE_BUFFER0
;
372 command
= NAND_CMD_READ0
;
374 * offset == one half of page size
376 in_sram_address
= MXC_NF_MAIN_BUFFER0
+ (nand
->page_size
>> 1);
379 in_sram_address
= MXC_NF_MAIN_BUFFER0
;
383 target_write_u16(target
, MXC_NF_FCMD
, command
);
385 * start command input operation (set MXC_NF_BIT_OP_DONE==0)
387 target_write_u16(target
, MXC_NF_CFG2
, MXC_NF_BIT_OP_FCI
);
388 poll_result
= poll_for_complete_op(nand
, "command");
389 if (poll_result
!= ERROR_OK
)
392 * reset cursor to begin of the buffer
394 sign_of_sequental_byte_read
= 0;
395 /* Handle special read command and adjust NF_CFG2(FDO) */
397 case NAND_CMD_READID
:
398 mxc_nf_info
->optype
= MXC_NF_DATAOUT_NANDID
;
399 mxc_nf_info
->fin
= MXC_NF_FIN_DATAOUT
;
401 case NAND_CMD_STATUS
:
402 mxc_nf_info
->optype
= MXC_NF_DATAOUT_NANDSTATUS
;
403 mxc_nf_info
->fin
= MXC_NF_FIN_DATAOUT
;
404 target_write_u16 (target
, MXC_NF_BUFADDR
, 0);
408 mxc_nf_info
->fin
= MXC_NF_FIN_DATAOUT
;
409 mxc_nf_info
->optype
= MXC_NF_DATAOUT_PAGE
;
412 /* Ohter command use the default 'One page data out' FDO */
413 mxc_nf_info
->optype
= MXC_NF_DATAOUT_PAGE
;
419 static int mxc_address(struct nand_device
*nand
, uint8_t address
)
421 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
422 struct target
*target
= nand
->target
;
423 int validate_target_result
;
426 * validate target state
428 validate_target_result
= validate_target_state(nand
);
429 if (validate_target_result
!= ERROR_OK
)
430 return validate_target_result
;
432 target_write_u16(target
, MXC_NF_FADDR
, address
);
434 * start address input operation (set MXC_NF_BIT_OP_DONE==0)
436 target_write_u16(target
, MXC_NF_CFG2
, MXC_NF_BIT_OP_FAI
);
437 poll_result
= poll_for_complete_op(nand
, "address");
438 if (poll_result
!= ERROR_OK
)
444 static int mxc_nand_ready(struct nand_device
*nand
, int tout
)
446 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
447 struct target
*target
= nand
->target
;
448 uint16_t poll_complete_status
;
449 int validate_target_result
;
452 * validate target state
454 validate_target_result
= validate_target_state(nand
);
455 if (validate_target_result
!= ERROR_OK
)
456 return validate_target_result
;
459 target_read_u16(target
, MXC_NF_CFG2
, &poll_complete_status
);
460 if (poll_complete_status
& MXC_NF_BIT_OP_DONE
)
464 } while (tout
-- > 0);
468 static int mxc_write_page(struct nand_device
*nand
, uint32_t page
,
469 uint8_t *data
, uint32_t data_size
,
470 uint8_t *oob
, uint32_t oob_size
)
472 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
473 struct target
*target
= nand
->target
;
475 uint16_t nand_status_content
;
476 uint16_t swap1
, swap2
, new_swap1
;
481 LOG_ERROR(data_block_size_err_msg
, data_size
);
482 return ERROR_NAND_OPERATION_FAILED
;
485 LOG_ERROR(data_block_size_err_msg
, oob_size
);
486 return ERROR_NAND_OPERATION_FAILED
;
489 LOG_ERROR("nothing to program");
490 return ERROR_NAND_OPERATION_FAILED
;
494 * validate target state
496 retval
= validate_target_state(nand
);
497 if (retval
!= ERROR_OK
)
500 in_sram_address
= MXC_NF_MAIN_BUFFER0
;
501 sign_of_sequental_byte_read
= 0;
503 retval
|= mxc_command(nand
, NAND_CMD_SEQIN
);
504 retval
|= mxc_address(nand
, 0); /* col */
505 retval
|= mxc_address(nand
, 0); /* col */
506 retval
|= mxc_address(nand
, page
& 0xff); /* page address */
507 retval
|= mxc_address(nand
, (page
>> 8) & 0xff);/* page address */
508 retval
|= mxc_address(nand
, (page
>> 16) & 0xff); /* page address */
510 target_write_buffer(target
, MXC_NF_MAIN_BUFFER0
, data_size
, data
);
512 if (mxc_nf_info
->flags
.hw_ecc_enabled
) {
514 * part of spare block will be overrided by hardware
517 LOG_DEBUG("part of spare block will be overrided "
518 "by hardware ECC generator");
521 target_write_buffer(target
, MXC_NF_V1_SPARE_BUFFER0
, oob_size
, oob
);
523 uint32_t addr
= MXC_NF_V2_SPARE_BUFFER0
;
524 while (oob_size
> 0) {
525 uint8_t len
= MIN(oob_size
, MXC_NF_SPARE_BUFFER_LEN
);
526 target_write_buffer(target
, addr
, len
, oob
);
527 addr
= align_address_v2(nand
, addr
+ len
);
534 if (nand
->page_size
> 512 && mxc_nf_info
->flags
.biswap_enabled
) {
535 /* BI-swap - work-around of i.MX NFC for NAND device with page == 2kb*/
536 target_read_u16(target
, MXC_NF_MAIN_BUFFER3
+ 464, &swap1
);
538 LOG_ERROR("Due to NFC Bug, oob is not correctly implemented in mxc driver");
539 return ERROR_NAND_OPERATION_FAILED
;
541 swap2
= 0xffff; /* Spare buffer unused forced to 0xffff */
542 new_swap1
= (swap1
& 0xFF00) | (swap2
>> 8);
543 swap2
= (swap1
<< 8) | (swap2
& 0xFF);
544 target_write_u16(target
, MXC_NF_MAIN_BUFFER3
+ 464, new_swap1
);
546 target_write_u16(target
, MXC_NF_V1_SPARE_BUFFER3
, swap2
);
548 target_write_u16(target
, MXC_NF_V2_SPARE_BUFFER3
, swap2
);
552 * start data input operation (set MXC_NF_BIT_OP_DONE==0)
554 if (nfc_is_v1() && nand
->page_size
> 512)
559 for (uint8_t i
= 0; i
< bufs
; ++i
) {
560 target_write_u16(target
, MXC_NF_BUFADDR
, i
);
561 target_write_u16(target
, MXC_NF_CFG2
, MXC_NF_BIT_OP_FDI
);
562 poll_result
= poll_for_complete_op(nand
, "data input");
563 if (poll_result
!= ERROR_OK
)
567 retval
|= mxc_command(nand
, NAND_CMD_PAGEPROG
);
568 if (retval
!= ERROR_OK
)
572 * check status register
575 retval
|= mxc_command(nand
, NAND_CMD_STATUS
);
576 target_write_u16 (target
, MXC_NF_BUFADDR
, 0);
577 mxc_nf_info
->optype
= MXC_NF_DATAOUT_NANDSTATUS
;
578 mxc_nf_info
->fin
= MXC_NF_FIN_DATAOUT
;
579 retval
|= do_data_output(nand
);
580 if (retval
!= ERROR_OK
) {
581 LOG_ERROR(get_status_register_err_msg
);
584 target_read_u16(target
, MXC_NF_MAIN_BUFFER0
, &nand_status_content
);
585 if (nand_status_content
& 0x0001) {
587 * page not correctly written
589 return ERROR_NAND_OPERATION_FAILED
;
591 #ifdef _MXC_PRINT_STAT
592 LOG_INFO("%d bytes newly written", data_size
);
597 static int mxc_read_page(struct nand_device
*nand
, uint32_t page
,
598 uint8_t *data
, uint32_t data_size
,
599 uint8_t *oob
, uint32_t oob_size
)
601 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
602 struct target
*target
= nand
->target
;
605 uint16_t swap1
, swap2
, new_swap1
;
608 LOG_ERROR(data_block_size_err_msg
, data_size
);
609 return ERROR_NAND_OPERATION_FAILED
;
612 LOG_ERROR(data_block_size_err_msg
, oob_size
);
613 return ERROR_NAND_OPERATION_FAILED
;
617 * validate target state
619 retval
= validate_target_state(nand
);
620 if (retval
!= ERROR_OK
)
622 /* Reset address_cycles before mxc_command ?? */
623 retval
= mxc_command(nand
, NAND_CMD_READ0
);
624 if (retval
!= ERROR_OK
)
626 retval
= mxc_address(nand
, 0); /* col */
627 if (retval
!= ERROR_OK
)
629 retval
= mxc_address(nand
, 0); /* col */
630 if (retval
!= ERROR_OK
)
632 retval
= mxc_address(nand
, page
& 0xff);/* page address */
633 if (retval
!= ERROR_OK
)
635 retval
= mxc_address(nand
, (page
>> 8) & 0xff); /* page address */
636 if (retval
!= ERROR_OK
)
638 retval
= mxc_address(nand
, (page
>> 16) & 0xff);/* page address */
639 if (retval
!= ERROR_OK
)
641 retval
= mxc_command(nand
, NAND_CMD_READSTART
);
642 if (retval
!= ERROR_OK
)
645 if (nfc_is_v1() && nand
->page_size
> 512)
650 for (uint8_t i
= 0; i
< bufs
; ++i
) {
651 target_write_u16(target
, MXC_NF_BUFADDR
, i
);
652 mxc_nf_info
->fin
= MXC_NF_FIN_DATAOUT
;
653 retval
= do_data_output(nand
);
654 if (retval
!= ERROR_OK
) {
655 LOG_ERROR("MXC_NF : Error reading page %d", i
);
660 if (nand
->page_size
> 512 && mxc_nf_info
->flags
.biswap_enabled
) {
661 uint32_t SPARE_BUFFER3
;
662 /* BI-swap - work-around of mxc NFC for NAND device with page == 2k */
663 target_read_u16(target
, MXC_NF_MAIN_BUFFER3
+ 464, &swap1
);
665 SPARE_BUFFER3
= MXC_NF_V1_SPARE_BUFFER3
;
667 SPARE_BUFFER3
= MXC_NF_V2_SPARE_BUFFER3
;
668 target_read_u16(target
, SPARE_BUFFER3
, &swap2
);
669 new_swap1
= (swap1
& 0xFF00) | (swap2
>> 8);
670 swap2
= (swap1
<< 8) | (swap2
& 0xFF);
671 target_write_u16(target
, MXC_NF_MAIN_BUFFER3
+ 464, new_swap1
);
672 target_write_u16(target
, SPARE_BUFFER3
, swap2
);
676 target_read_buffer(target
, MXC_NF_MAIN_BUFFER0
, data_size
, data
);
679 target_read_buffer(target
, MXC_NF_V1_SPARE_BUFFER0
, oob_size
, oob
);
681 uint32_t addr
= MXC_NF_V2_SPARE_BUFFER0
;
682 while (oob_size
> 0) {
683 uint8_t len
= MIN(oob_size
, MXC_NF_SPARE_BUFFER_LEN
);
684 target_read_buffer(target
, addr
, len
, oob
);
685 addr
= align_address_v2(nand
, addr
+ len
);
692 #ifdef _MXC_PRINT_STAT
694 /* When Operation Status is read (when page is erased),
695 * this function is used but data_size is null.
697 LOG_INFO("%d bytes newly read", data_size
);
703 static uint32_t align_address_v2(struct nand_device
*nand
, uint32_t addr
)
705 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
707 if (addr
> MXC_NF_V2_SPARE_BUFFER0
&&
708 (addr
& 0x1F) == MXC_NF_SPARE_BUFFER_LEN
)
709 ret
+= MXC_NF_SPARE_BUFFER_MAX
- MXC_NF_SPARE_BUFFER_LEN
;
710 else if (addr
>= (mxc_nf_info
->mxc_base_addr
+ (uint32_t)nand
->page_size
))
711 ret
= MXC_NF_V2_SPARE_BUFFER0
;
715 static int initialize_nf_controller(struct nand_device
*nand
)
717 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
718 struct target
*target
= nand
->target
;
719 uint16_t work_mode
= 0;
722 * resets NAND flash controller in zero time ? I dont know.
724 target_write_u16(target
, MXC_NF_CFG1
, MXC_NF_BIT_RESET_EN
);
725 if (mxc_nf_info
->mxc_version
== MXC_VERSION_MX27
)
726 work_mode
= MXC_NF_BIT_INT_DIS
; /* disable interrupt */
728 if (target
->endianness
== TARGET_BIG_ENDIAN
) {
729 LOG_DEBUG("MXC_NF : work in Big Endian mode");
730 work_mode
|= MXC_NF_BIT_BE_EN
;
732 LOG_DEBUG("MXC_NF : work in Little Endian mode");
733 if (mxc_nf_info
->flags
.hw_ecc_enabled
) {
734 LOG_DEBUG("MXC_NF : work with ECC mode");
735 work_mode
|= MXC_NF_BIT_ECC_EN
;
737 LOG_DEBUG("MXC_NF : work without ECC mode");
739 target_write_u16(target
, MXC_NF_V2_SPAS
, OOB_SIZE
/ 2);
740 if (nand
->page_size
) {
741 uint16_t pages_per_block
= nand
->erase_size
/ nand
->page_size
;
742 work_mode
|= MXC_NF_V2_CFG1_PPB(ffs(pages_per_block
) - 6);
744 work_mode
|= MXC_NF_BIT_ECC_4BIT
;
746 target_write_u16(target
, MXC_NF_CFG1
, work_mode
);
749 * unlock SRAM buffer for write; 2 mean "Unlock", other values means "Lock"
751 target_write_u16(target
, MXC_NF_BUFCFG
, 2);
752 target_read_u16(target
, MXC_NF_FWP
, &temp
);
753 if ((temp
& 0x0007) == 1) {
754 LOG_ERROR("NAND flash is tight-locked, reset needed");
759 * unlock NAND flash for write
762 target_write_u16(target
, MXC_NF_V1_UNLOCKSTART
, 0x0000);
763 target_write_u16(target
, MXC_NF_V1_UNLOCKEND
, 0xFFFF);
765 target_write_u16(target
, MXC_NF_V2_UNLOCKSTART0
, 0x0000);
766 target_write_u16(target
, MXC_NF_V2_UNLOCKSTART1
, 0x0000);
767 target_write_u16(target
, MXC_NF_V2_UNLOCKSTART2
, 0x0000);
768 target_write_u16(target
, MXC_NF_V2_UNLOCKSTART3
, 0x0000);
769 target_write_u16(target
, MXC_NF_V2_UNLOCKEND0
, 0xFFFF);
770 target_write_u16(target
, MXC_NF_V2_UNLOCKEND1
, 0xFFFF);
771 target_write_u16(target
, MXC_NF_V2_UNLOCKEND2
, 0xFFFF);
772 target_write_u16(target
, MXC_NF_V2_UNLOCKEND3
, 0xFFFF);
774 target_write_u16(target
, MXC_NF_FWP
, 4);
777 * 0x0000 means that first SRAM buffer @base_addr will be used
779 target_write_u16(target
, MXC_NF_BUFADDR
, 0x0000);
781 * address of SRAM buffer
783 in_sram_address
= MXC_NF_MAIN_BUFFER0
;
784 sign_of_sequental_byte_read
= 0;
788 static int get_next_byte_from_sram_buffer(struct nand_device
*nand
, uint8_t *value
)
790 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
791 struct target
*target
= nand
->target
;
792 static uint8_t even_byte
;
797 if (sign_of_sequental_byte_read
== 0)
800 if (in_sram_address
> (nfc_is_v1() ? MXC_NF_V1_LAST_BUFFADDR
: MXC_NF_V2_LAST_BUFFADDR
)) {
801 LOG_ERROR(sram_buffer_bounds_err_msg
, in_sram_address
);
803 sign_of_sequental_byte_read
= 0;
805 return ERROR_NAND_OPERATION_FAILED
;
808 in_sram_address
= align_address_v2(nand
, in_sram_address
);
810 target_read_u16(target
, in_sram_address
, &temp
);
814 in_sram_address
+= 2;
816 *value
= temp
& 0xff;
820 sign_of_sequental_byte_read
= 1;
824 static int get_next_halfword_from_sram_buffer(struct nand_device
*nand
, uint16_t *value
)
826 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
827 struct target
*target
= nand
->target
;
829 if (in_sram_address
> (nfc_is_v1() ? MXC_NF_V1_LAST_BUFFADDR
: MXC_NF_V2_LAST_BUFFADDR
)) {
830 LOG_ERROR(sram_buffer_bounds_err_msg
, in_sram_address
);
832 return ERROR_NAND_OPERATION_FAILED
;
835 in_sram_address
= align_address_v2(nand
, in_sram_address
);
837 target_read_u16(target
, in_sram_address
, value
);
838 in_sram_address
+= 2;
843 static int poll_for_complete_op(struct nand_device
*nand
, const char *text
)
845 if (mxc_nand_ready(nand
, 1000) == -1) {
846 LOG_ERROR("%s sending timeout", text
);
847 return ERROR_NAND_OPERATION_FAILED
;
852 static int validate_target_state(struct nand_device
*nand
)
854 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
855 struct target
*target
= nand
->target
;
857 if (target
->state
!= TARGET_HALTED
) {
858 LOG_ERROR(target_not_halted_err_msg
);
859 return ERROR_NAND_OPERATION_FAILED
;
862 if (mxc_nf_info
->flags
.target_little_endian
!=
863 (target
->endianness
== TARGET_LITTLE_ENDIAN
)) {
865 * endianness changed after NAND controller probed
867 return ERROR_NAND_OPERATION_FAILED
;
872 int ecc_status_v1(struct nand_device
*nand
)
874 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
875 struct target
*target
= nand
->target
;
878 target_read_u16(target
, MXC_NF_ECCSTATUS
, &ecc_status
);
879 switch (ecc_status
& 0x000c) {
881 LOG_INFO("main area read with 1 (correctable) error");
884 LOG_INFO("main area read with more than 1 (incorrectable) error");
885 return ERROR_NAND_OPERATION_FAILED
;
888 switch (ecc_status
& 0x0003) {
890 LOG_INFO("spare area read with 1 (correctable) error");
893 LOG_INFO("main area read with more than 1 (incorrectable) error");
894 return ERROR_NAND_OPERATION_FAILED
;
900 int ecc_status_v2(struct nand_device
*nand
)
902 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
903 struct target
*target
= nand
->target
;
908 no_subpages
= nand
->page_size
>> 9;
910 target_read_u16(target
, MXC_NF_ECCSTATUS
, &ecc_status
);
912 err
= ecc_status
& 0xF;
914 LOG_INFO("UnCorrectable RS-ECC Error");
915 return ERROR_NAND_OPERATION_FAILED
;
917 LOG_INFO("%d Symbol Correctable RS-ECC Error", err
);
919 } while (--no_subpages
);
923 static int do_data_output(struct nand_device
*nand
)
925 struct mxc_nf_controller
*mxc_nf_info
= nand
->controller_priv
;
926 struct target
*target
= nand
->target
;
928 switch (mxc_nf_info
->fin
) {
929 case MXC_NF_FIN_DATAOUT
:
931 * start data output operation (set MXC_NF_BIT_OP_DONE==0)
933 target_write_u16(target
, MXC_NF_CFG2
, MXC_NF_BIT_DATAOUT_TYPE(mxc_nf_info
->optype
));
934 poll_result
= poll_for_complete_op(nand
, "data output");
935 if (poll_result
!= ERROR_OK
)
938 mxc_nf_info
->fin
= MXC_NF_FIN_NONE
;
942 if (mxc_nf_info
->optype
== MXC_NF_DATAOUT_PAGE
&& mxc_nf_info
->flags
.hw_ecc_enabled
) {
945 ecc_status
= ecc_status_v1(nand
);
947 ecc_status
= ecc_status_v2(nand
);
948 if (ecc_status
!= ERROR_OK
)
952 case MXC_NF_FIN_NONE
:
958 struct nand_flash_controller mxc_nand_flash_controller
= {
960 .nand_device_command
= &mxc_nand_device_command
,
961 .commands
= mxc_nand_command_handler
,
964 .command
= &mxc_command
,
965 .address
= &mxc_address
,
966 .write_data
= &mxc_write_data
,
967 .read_data
= &mxc_read_data
,
968 .write_page
= &mxc_write_page
,
969 .read_page
= &mxc_read_page
,
970 .nand_ready
= &mxc_nand_ready
,
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